abdominal compartment syndrome - r. ivatury (landes, 2006) ww
TRANSCRIPT
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Rao R. Ivatury, Michael L. Cheatham,
Manu L. N. G. Malbrain and Michael Sugrue
AbdominalCompartmentSyn
drome
Abdominal Compartment
Syndrome
IVATURY•CHEATHAM
MALBRAIN•SUGRU
E
MIU
MEDICAL INTELLIGENCE UNIT
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Rao R. Ivatury, M.D.Division of Trauma, Critical Care and Emerge
Department of Surgery Virginia Commonwealth Universit
VCU Reanimation Engineering Shock CenterRichmond, Virginia, U.S.A.
Michael L. Cheatham, M.D.Department of Surgical EducationOrlando Regional Medical Center
Orlando, Florida, U.S.A.
Manu L N G Malbrain M D
Abdominal Compartm
Syndrome
MEDICAL
INTELLIGENCE
UNIT
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Medical Intelligence Unit
Landes BioscienceEurekah.com
Copyright ©2006 Landes Bioscience All rights reserved.No part of this book may be reproduced or transmitted in any form mechanical, including photocopy, recording, or any information without permission in writing from the publisher.Printed in the U.S.A.
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ISBN: 1-58706-196-1
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Library of Congress Cataloging-in-Publica
Abdominal compartment syndrome / [edited by] Rao R Ivatury [et
A BDOMINAL COMPARTMENT S Y
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To the memory of my parents and to mLeela, Gautam and Arun. Your patience, lov
is the greatest gift. I am forever graRao R. Ivatury
To my wife Susie and my daughters, Kai Julianne and Melinda. Thank you for your
love and support.To my father and mother. Thank you foryou have always been for me.
Michael L. Cheatham
To the memory of Dr. Hubert Malbrain, my insp
and friend.I'm in gratitude to my devoted wife Bieke, who ex
“never being there when needed mTo share my passion, success, failure and dr
is still a pleasant never ending story I also thank my three sons, Jacco, Milan and Luca
quiet writing environment.I thank my parents who gave me the opportunity t
to develop my talents. Manu L. N. G. Malbrain
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CONTENTS
Foreword ...............................................................
Preface ..................................................................
1. Abdominal Compartment Syndrome: Historical B
Moshe Schein What Is History? ..................................................Early Rays of Light ...............................................The Dark Age .......................................................Dawn ...................................................................Sunrise .................................................................Morning ...............................................................
High Noon ..........................................................
2. Definitions ............................................................David J. J. Muckart, Rao R. Ivatury, Ari Leppäniemi
and R. Stephen SmithHistorical Background ..........................................
Consensus Definitions ..........................................3. Intra-Abdominal Pressure Measurement Techniqu
Manu L. N. G. Malbrain and Felicity Jones What Is IAP? ........................................................Indications for IAP Monitoring ............................Clinical Evaluation ...............................................
Invasive Direct IAP Measurement (Gold StandardNoninvasive Indirect IAP Measurement (Gold StaDifferent Indirect IAP Measuring Methods ..........Cost-Effectiveness ................................................Reproducibility of IAP Measurement ...................
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6. Intra-Abdominal Hypertension and the Cardiovasc Michael L. Cheatham and Manu L. N. G. Malbrain
Physiology ...........................................................Hemodynamic Monitoring .................................
7. Intra-Abdominal Hypertension and the RespiratorIngrid R. A. M. Mertens zur Borg, Serge J. C. Verbrug
and Claudia I. Olvera Pulmonary Dysfunction with Increased AbdominPhysiological Derangements Due to Pulmonary D
in ACS ............................................................Physiological Derangements Caused by MechanicPrinciples of Mechanical Ventilation in ARDS/ALModes of Positive-Pressure Ventilation................Lung Function Monitoring .................................Cardiovascular Effects of Mechanical Ventilation
Weaning and Extubation .....................................
8. Intra-Abdominal Hypertension and the Kidney .... Michael Sugrue, Ali Hallal and Scott D’Amours Is There Supportive Evidence from Human ExperDoes It Make Physiological Sense? ......................Pathophysiology of Renal Impairment and IAH ..Is There a Strong Association That Is Consistent f
to Study? .........................................................Is the Temporal Relationship Right? ...................Is There a Dose Response Relationship and Is It RIs the Association Independent of Other ConfounIs There Evidence from Human Experiments? ....
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Intra-Abdominal Pressure in Liver Transplant RecIncidence and Clinical Relevance .....................
Haemodynamic Monitoring in Patients with Liverand IAH ...........................................................
11. Intra-Abdominal Hypertension and the Central NGiuseppe Citerio and Lorenzo Berra Animal Studies .....................................................Clinical Studies ....................................................
12. Abdominal Compartment Syndrome Provokes MuFailure: Animal and Human Supporting Evidence
Christopher D. Raeburn and Ernest E. Moore Background ..........................................................
Association of ACS with MOF ............................. ACS as a Cause of MOF.......................................
13. Postinjury Secondary Abdominal Compartment Sy
Zsolt Balogh and Frederick A. Moore Definition and Historical Perspectives ..................Epidemiology .......................................................Prediction .............................................................Diagnosis of Secondary ACS ................................Treatment ............................................................Prediction, Prevention and Surveillance................
Future Directions .................................................
14. Secondary Abdominal Compartment Syndrome in Michael E. Ivy
The Burn Literature .............................................
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16. Miscellaneous Conditions and Intra-Abdominal H Ari Leppäniemi, Andrew Kirkpatrick, Anastazia Sala
Savvas Nicolaou and Martin Björck
Part A: Severe Acute Pancreatitis ...........................
Ari Leppäniemi Prevalence ...........................................................Time of the Development of ACS .......................
ACS and Organ Dysfunction ..............................Diagnosis ............................................................Treatment ...........................................................Mortality .............................................................
Part B: The Renal Allograft Compartment Syndro An Organ Specific Compartment Syndrome with IPathophysiology .................................................... Andrew Kirkpatrick, Anastazia Salazar, Davis Elliot
and Savvas NicolaouThe Renal Allograft Compartment Syndrome .....Sonography of the Renal Allograft .......................Is There a Potential Utility in the Native Kidney S
to Raised Intra-Abdominal Pressure? ...............The Reality of the ACS Patient and Other PotentFuture Directions ................................................
Part C: Abdominal Compartment Syndromeafter Aortoiliac Surgery ......................................... Martin Björck
Incidence of ACS after Open Aortoiliac Surgery ..Incidence of IAH/ACS after Endovascular Repair The Onset of IAH/ACS
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19. Medical Management of Abdominal Compartmen Michael J. A. Parr and Claudia I. Olvera
Specific Procedures to Reduce IAP and the ConseGeneral Support (Intensive Care) of the Critically Optimisation after Surgical Decompression to Co
Effects Associated with Decompression and Pre
20. Continuous Negative Abdominal Pressure ............Franco Valenza and Luciano Gattinoni
Does NEXAP Decrease Intra-Abdominal Pressure Are There Problems with NEXAP Application?....Does NEXAP Alter General Hemodynamics, and Does NEXAP Alter Respiratory Mechanics? .........Is NEXAP Effect Different Before and After IAH?Clinical Perspectives .............................................
21. Anesthetic Considerations in Abdominal CompartIngrid R. A. M. Mertens zur Borg, Serge J. C. Verbrug
and Karel A. Kolkman Anesthetic Management .......................................Mechanical Ventilation ........................................Fluid Management ...............................................Laparotomy ..........................................................
22. Surgical Management of Abdominal Compartmen
Zsolt Balogh, Frederick A. Moore, Claudia E. Goettler Michael F. Rotondo, C. William Schwab and Mark
Part A: The Surgical Management of AbdominalCompartment SyndromeZ l B l h d F d i k A M
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Part B: Surgical Management of the Open AbdomControl or Abdominal Compartment SyndromeClaudia E. Goettler, Michael F. Rotondo and C. Will
Indications for Open Abdomen ...........................Temporary Abdominal Containment ..................
Resuscitation Period (Damage Control Part 2) ....Managing and Changing Temporary Closure ......Transitional Closure ............................................Tubes and Stoma in the Open Abdomen ............Fistulae ................................................................Definitive Abdominal Wall Repair ......................
Part C: Surgical Approaches to the Open Abdomen Mark J. Kaplan
Pathophysiology of the Open Abdomen ..............Morbidity Associated with the Open Abdomen...Intra-Abdominal Hypertension and the Open AbdMethods of Managing the Open Abdomen .........
Skin Only Closure ...............................................Bogotá Bag ..........................................................Mesh Closure of the Open Abdomen ..................VAC Pac Closure ................................................Negative Pressure Therapy (NPT) .......................Closure of the Open Abdomen ............................
23. Epilogue: Options and Challenges for the Future .. Michael L. Cheatham, Rao R. Ivatury, Manu L. N. G
and Michael Sugrue Education ............................................................Consensus Definitions .........................................
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EDITORS
Rao R. Ivatury Division of Trauma, Critical Care and Eme
Department of Surgery Virginia Commonwealth Unive
VCU Reanimation Engineering Shock Cen
Richmond, Virginia, U.S.A.Email: [email protected]
Chapters 2, 9, 23
Michael L. CheathamDepartment of Surgical Educat
Orlando Regional Medical CenOrlando, Florida, U.S.A.
Email: michael.cheatham@orhsChapters 4, 6, 23
Manu L. N. G. MalbrainIntensive Care Unit
ZiekenhuisNetwerk AntwerpeCampus Stuivenberg Antwerp, Belgium
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Georg AuzingerInstitute of Liver StudiesKings College HospitalLondon, U.K.Chapter 10
Zsolt BaloghDepartment of Traumatology University of SzegedSzeged, Hungary Email: [email protected] 13, 22
Lorenzo Berra Intensive Care UnitSan Gerardo HospitalUniversity of Milano-Bicocca Milan, Italy Chapter 11
Gianni BiancofiorePost-Surgical and Transplant
Intensive Care Unit Azienda Ospedaliera Pisana Pisa, Italy
Email: [email protected] 10
Martin Björck Vascular Surgery Uppsala University Hospital
Giuseppe CiteriUO Neuroanest
e NeurorianimDipartimento di
e Terapie Inte
H San Gerardo,Email: g.citerio@Chapter 11
Scott D’AmoursDepartment of TLiverpool Hospi
Liverpool, SydnEmail: Scott.DamChapter 8
Dries H. DeerenDepartment of IUniversity HospLeuven, BelgiumChapter 5
Lawrence N. DiDepartment of S
Wayne State Un
Detroit, MichigEmail: ldiebel@mChapter 9
Davis ElliotDepartments of
CONTRIBUTORS
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Claudia E. GoettlerDepartment of Surgery Brody School of MedicineEast Carolina University Greenville, North Carolina, U.S.A.
Email: [email protected] 22
Ali HallalDepartment of Trauma Liverpool HospitalLiverpool, Sydney, Australia
Email: [email protected] 8
Giselle G. HamadDepartment of Surgery University of Pittsburgh Medical CenterPittsburgh, Pennsylvania, U.S.A.
Email: [email protected] 15
Michael E. Ivy Department of Surgery Hartford HospitalHartford, Connecticut, U.S.A.and Department of Surgery University of Connecticut
School of MedicineFarmington Connecticut U S A
Andrew KirkpatDepartments of
Medicine andVancouver Hosp
and Health Sc
Vancouver, BritiEmail: andrew.kcalgaryhealthr
Chapter 16
Karel A. KolkmaDepartment of S
Rijnstate Hospit Arnhem, The NEmail: KKolkmaChapter 21
M. Ann KuhnDepartment of S
Section of PediaThe University o
College of MeOklahoma City,Email: Ann-KuhChapter 17
Ari LeppäniemiDepartment of SMeilahti HospitUniversity of HeHelsinki Finlan
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Ernest E. MooreDepartment of Surgery Denver Health Medical CenterDenver, Colorado, U.S.A.Email: [email protected]
Chapter 12
Frederick A. MooreDepartment of Surgery University of Texas Medical School
at HoustonUniversity of Texas Health Science
CenterHouston, Texas, U.S.A.Email: [email protected] 13, 22
David J. J. MuckartDepartment of Surgery
Nelson R. Mandela School of MedicineUniversity of KwaZulu/NatalDurban, Republic of South Africa Email: [email protected] Chapter 2
Savvas NicolaouTrauma ProgramFoothills Medical CentreCalgary, Alberta, Canada and Department of Radiology
Michael J. A. PaIntensive Care ULiverpool and CUniversity of NeSydney, Australi
Email: Michael.Chapter 19
Andrew B. PeitzDepartment of SUniversity of PitPittsburgh, Penn
Email: peitzmanChapter 15
Christopher D. Department of SUniversity of Co
Health Scienc
Denver, ColoradEmail: christophChapter 12
Michael F. RotoDepartment of S
Brody School ofEast Carolina UGreenville, NortEmail: MFRotoChapter 22
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C. William SchwabDepartment of Surgery University of Pennsylvania Philadelphia, Pennsylvania, U.S.A.Chapter 22
R. Stephen SmithDepartment of Surgery University of Kansas School
of Medicine - Wichita Wichita, Kansas, U.S.A.Email: [email protected]
Chapter 2
David W. TuggleDepartment of Surgery Section of Pediatric Surgery The University of Oklahoma
College of Medicine
Oklahoma City, Oklahoma, U.S.A.Email: [email protected] 17
Franco Valenza Universita degli Studi di MilanoIstituto di Anestesia e RianimazioneOspedale Maggiore di MilanoMilano, Italy Email: [email protected] 20
Serge J. C. VerbDepartment of AErasmus MedicaRotterdam, The Chapters 7, 21
Jean-Louis VincProfessor, IntensUniversity HospBrussels, BelgiumForeword
Julia WendonInstitute of LiverKings College HLondon, U.K.Email: julia.wenChapter 10
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FOREWORD Abdominal compartment syndrome is a conditiorecently, has been poorly appreciated, despite the importions for all organ systems. Recent interest has helpesystemic effects of increased intra-abdominal pressure aness of the importance of early recognition and treatme
by international experts in the field follows the firs Abdominal Compartment Syndrome held in Noosa, A2004, and provides an excellent update on this very tophensively constructed, the book covers all key aspects definitions and diagnosis to monitoring and managemthroughout by appropriate and ample illustrations. Mconsequences of abdominal compartment syndrome arepriate and timely intervention, and although many questiregarding this relatively newly recognized condition, thcome and detailed source of current information and compartment syndrome, which will be helpful to all heand ultimately to our patients.
Jean-Louis Vincent,
U
Abdominal compartment syndrome is now a wdefined as intra-abdominal hypertension with associate
hemodynamic compromise. However, our profession wabdominal compartment syndrome and the devastating coHenricus first implicated abdominal compartment syndrin 1890, Kron et al highlighted this syndrome in 1984. T11 patients with elevated intra-abdominal pressure a
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First suggested in 1863 by Marey, abdominal co(ACS) is a constellation of the physiologic sequelae dominal pressure (IAP), termed intra-abdominal hypcent observations suggest an increasing frequency of ttypes of patients, neonates to the elderly and in diversurgical to non-surgical. Even chronic elevations of Ivarious organ systems in the body. Despite its obviounot enough attention is paid to IAP and IAH. ACS appreciated or diagnosed. Only a few medical and sulieve in the concept of IAH and actively attempt its ment. The result, as is strongly substantiated by retrotive data, is a successful reduction in organ failures an
The literature on IAH and ACS has exponentialdecade. Several unanswered questions, however, cloudthe pathophysioology of elevated IAP. To name a few, wof measuring IAP? What level of IAP requires abdomiit a level at which the classic manifestations of ACS bea level at which subtle changes in physiology preced
ACS? Is it the IAP that is important or is abdomin(APP) the critical determinant? Are IAH and ACS sy
This book is an overview of the current knowledThe authors have been chosen for their original work i
with conviction from personal experience. We have pextent possible their own concepts in their own writquence, some repetition of basic concepts is unavoidcused. We sincerely hope that this work will stimulaclinicians and scientists to the fascinating field of IAH
PREFACE
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CHAPTER
1
Abdominal Compartment Synd
Historical BackgroundMoshe Schein*
Abstract
The brief history of IAH and ACS are typical of any me
forgotten, rediscovered, and faced with skepticism and ridscientifically proven and reproven and supported by “clin
lished in reputable journals—it is accepted as “truth”. This chaphistory of IAH and ACS from the mid 19th century until today.
At a first glance, a comprehensive history of the abdominal cois an impossible task. It is like writing the history of vomiting orhuman (and mammalian) physiological activity. For as long as
ballooned with gas, fluid, blood, pus—resulting in all the physiolcall intra-abdominal hypertension (IAH) and ACS.
Obviously, IAH and ACS always existed but were not understhis book Surgical Errors and Safeguards ”1 Max Thorek wrote: “It isrecognize acute dilation of the stomach at once. Practically all mentioned that (according to Hamilton Bailey) “the condition cthe patient vomits…if the pulse is rising…and if the urine is scan was described was yet another example of the ACS—the syndromrecently, elusive and almost unknown.
Even we—so called modern surgeons—until a decade ago obse ACS, failing to understand what we see. We saw massively distenerations for ruptured abdominal aneurysm and blamed their death
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Abd 2
Since the present, the future—and even the recent past—of a
in great details elsewhere in this book I will start this historical oveat the time when people started measuring intra-abdomianl pressuological consequences. I still do not know how late into the 20thon.
Early Rays of Light Haven Emerson’s (1874-1957) comprehensive treatise “intra-a
spares us the arduous task of finding yet older and hard to retrmanuscript was typical of its day when people had more to writthan about what is actually new. His started his manuscript with 1covering the second half of the 19th century. His opening testam
“ The standard text-books of obstetrics, gynecology and surgerand when it is mentioned, so inaccurately, that no informationof the text-books of physiology fail to mention intra-abdom
Emerson provided a detailed historical review of which I will me• It is difficult to define with certainty who was the first to wri
Contemporary reviews bestow such honor on Marey of Parismédicale de la circulation du sang” (1863) wrote that the “eon the thorax are the inverse pf those present in the abdoEmerson,2 Marey “describes no tests and gives no records o
• Braune of Germany (1865) appears to be the first to measu• Another pioneer mentioned by Coombs3 and contempora
1870 published a volume on “Physiologie comparée de la ments in anesthetized animals, measuring thoracic and abdoinserted in the trachea and rectum, respectively, Bert describtion and the descent of the diaphragm.2
• Schroeder of Germany (1886) noted the slightly increased IA
that there must be some adaptation of abdominal wall tensiuterus.2
• Schatz of Germany (1872) used balloon tube connected to sure pressures within the gravid uterus. According to him IAnancy IAP rises slightly, though not in proportion to the in
l h l h h ll h bd l l
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Abdominal Compartment Syndrome: Historical Background
• During the late 19th century, and the early years of the 20
firmed, or refuted, the above observations in multiple expetions. The latter included a few fallacies which led to confusubatmospheric, that IAP varies in the different regions of the ameasurements are not accurate.2
Emerson himself (1911)2 conducted numerous experiments inbe rediscovered again and again: that contraction of the diaphragmof IAP during inspiration; that anesthesia and muscle paralysis—
decreases the IAP; that elevated IAP increases peripheral vascular can cause death from cardiac failure even before terminal asphyxias 45 cm. Aq. Will kill a small animal”)... Emerson understoodblood pressure because of diminished venous return to the heartcontractility. He then provided amazingly relevant clinical correlabeen totally ignored by many generations of surgeons:
“(in) excessive IAP, the difficulty in breathing is even more ma
important role in the circulatory emergencies in infectious diseasnal distention and interference with the descent of the diaphragmure.”
Emerson understood that the cardiovascular collapse associatedomen with gas or fluid, as in typhoid fever, ascites, or peritonitisthe resistance in the splanchnic area” and that “relief of the laboafter removal of ascitic fluid.”
Thus we see that almost 100 years ago, before the world w WW-I, ample evidence existed concerning the adverse physiolocardiac, respiratory and renal function. There were also those wimplications of such knowledge: that high IAP due to ascites, ilemorbidity and mortality. Such early rays of light however failed toof contemporary clinicians and researchers, and the significance o
druing the ensuing Dark Age.
The Dark AgeThis long era of gloom lasted for over 50 years with only s
attempts to shed old or new light on IAP.Th i d S h id (1923) di d i
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Abd4
increases IAP. Significantly, he recommended avoiding abdomina
ing instead such abdomens open, using a technique described British surgeon Sir Heneage Ogilvie.11 But typically, the destinytruthful they are—is to be ridiculed and ignored. And such was B
DawnEarly sunrays, heralding the dawn, pierced the dark horizon in
Westin correlated IAP directly measured during laparoscopy, to
urinary bladder.12 In 1972 Shenansky and Gillenwater showed hby applying abdominal counterpressure (i.e., the MAST suit) deption.13
Early experience with laparoscopy led to recognition pneumoperitroneum-associated increase in IAP: Ivankovich et at lapse during gynecological laparoscopy 14 and studied the physioThen in 1976, Lenz et al, studying cardiovascular changes during
dangers of pneumoperitoneum in patients with cardiovascular dyolemia.16 Simultaneously, (1976), Richardson and Trinkle studietory alterations with increased intra-abdominal pressure.17
Even earlier, during the 1960s and later in the 1970s, supposignificance of elevated IAP was provided in studies in patients
which correlated with cardiorespiratory morbidity—the later revesame was true by the growing number of papers supporting lenewborns with omphalocele and gastroschisis.22,23
Thus the sun has slowly risen to melt the frozen brains—at leatible and welcoming its warm rays.
SunriseThe early 1980s produced a few key studies: Kashtan et al (198
namic effects of increased IAP;24
Harman et al (1982),25
as wedemonstrated how elevated IAP adversely affects renal function pression improves it, and Le Roith et al (1982) studied the effectantidiuretic hormone levels.27
It was however the paper by Kron, Harman and Nolan (1984)“b h k” h l l f bd l h
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Abdominal Compartment Syndrome: Historical Background
“In four patients with ruptured abdominal aortic aneurysms inc
sure developed after repair. It was manifested by increased ventilatral venous pressure, and decreased urinary output associated witsion not due to bleeding. This set of findings constitutes an intsyndrome caused by massive interstitial and retroperitoneal swelmore than 25 liters of fluid resuscitation (electrolyte and blood) after operation and had massive abdominal distension. Decomprformed in the Intensive Care…Opening the abdominal incision w
improvements in central venous pressure, urinary output, ventiladioxide tension, and oxygenation.”
Thus, by the end of the 1980s people knew how to measure IAcan produce and how to treat it. They also defined the clinical scommonly people look at truth but refuse to acknowledge it and sthe concept to penetrate our surgical minds.
MorningThe 1990s brought with it a plethora of studies—reflecting a
and ACS. As most studies published during this decade will be c will only mention key developments.
• The introduction of laparoscopic surgery produced numeropenumoperitoneum—demonstrating and emphasizing thevarious organs and systems.
• Growing popularity of “damage control” strategies in abdgeons’ and intensivists’ awareness of IAH/ACS and the beopen and/or its decompression.
• Cautious enthusiasm with the use of “laparostomy” in sevethe recognition that various nontraumatic abdominal catastIAH/ACS and could benefit of abdominal nonclosure.
•Two “collective reviews” of ACS appeared in 1995
36
and numerous publications, recognizing IAH/ACS in a large nuand extra-abdominal, traumatic and nontraumatic scenariosing list of complications and consequences.
High Noon
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Abd6
Commentary
Michael Sugrue
Dr. Schein has firmly encapsulated the evolution of the histotension and the ACS.
Since Wendt’s elegant work of 1876 we have become slow to athe causal relationship between intra-abdominal hypertension, ttion. The great work at the early part of the twentieth century by kEmerson, Helen Coombs and many others, in defining the correcpressure, has been clearly resurrected in this chapter and should
ward push with ACS. One of the hallmark pieces of research fromably by Bradley and Bradley. In 1947 they reported from Massafascinating invasive human experiments demonstrating that raishad a direct effect on renal function. It is only in the last two de
exponential rise in the realization in the clinical importance ofBeaumont Hospital in Michigan should be credited with coiningpartment Syndrome’ in his report of four patients following aort
We owe a great debt to the visionaries who over the last 150 ycause and research relating to the abdominal compartment syndr
References
1. Thorek M. Surgical errors and safeguards. Philadelphia: JB Lippin2. Emerson H. Intra-abdominal pressures. Arch Intern Med 1911; 73. Coombs HC. The mechanisms of the regulation of intra-abdomin
61:159-63.4. Thorington JM, Schmidt CF. A study of urinary output and blo
experimental ascites. Am J Med Sci 1923; 165:880-90.5. Overholt RH. Intraperitoneal pressure. Arch Surg 1931; 22:691-76. Bellis CJ, Wangensteen OH. Venous circulatory changes in the
attending abdominal distention. Proc Soc Exp Biol Med 1939; 4:7. Bradely SE, Bradely GP. The effect of increased intra-abdomina
man. J Clin Invest 1947; 26:1010-1015.8. Gross RE. A new method for surgical treatment of large omphaloc9. Olerud S. Experimental studies on portal circulation at increased i
Physio Scand 1953; 30(Supp 109):4-93
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Abdominal Compartment Syndrome: Historical Background
22. Ravitch MM. Omphalocle: Secondary repair with the aid of pneum99:166-170.
23. Allen RG, Wrenn Jr EL. Silo as a sac in the treatment of omphSurg 1969; 4:3-8.
24. Kashtan J, Green JF, Parson EQ et al. Hemodynamic effects of Surg Res 1981; 30:249-255.
25. Harman PK, Kron IL, McLachan DH et al. Elevated intra-abdom Ann Surg 1982; 196:594-597.
26. Richards WO, Scovill W, Shin B et al. Acute renal failire associatedpressure. Ann Surg 1983; 197:183-187.
27. Le Roith D, Bark H, Nyska M et al. The effect of abdominal hormone levels. J Surg Res 1982; 32:65-69.
28. Kron IL, Harman PK, Nolan SP. The measurement of intra-abdomabdominal reexploration. Ann Surg 1984; 199:28-30.
29. Smith JH, Merrell RC, Raffin TA. Reversal of postoperative anu Arch Intern Med 1985; 145:553-4.
30. Barnes GE, Laine GA, Giam PY et al. Cardiovascular responses hydrostatic pressure. Am J Physiol 1985; 248:R208-13.
31. Caldwell CB, Ricotta JJ. Changes in visceral blood flow with elevSurg Res 1987; 43:14-20.
32. Jacques T, Lee R. Improvement of renal function after relief of raisto traumatic retroperitoneal haematoma. Anaesth Intensive Care 1
33. Cullen DJ, Coyle JP, Teplick R et al. Cardiovascular, pulmonaryincreased intra-abdominal pressure in critically ill patients. Crit Ca
34. Iberti TJ, Lieber CE, Benjamin E. Determination of intra-abdomin
bladder catheter: Clinical validation of the technique. Anesthesiolo35. Fietsam Jr R, Villalba M, Glover JL et al. Intra-abdominal compation of ruptured abdominal aortic aneurysm repair. Am Surg 1989
36. Schein M, Wittmann DH, Aprahamian CC et al. The abdominphysiological and clinical consequences of elevated intra-abdominal180:745-53.
37. Burch JM, Moore EE, Moore FA et al. The abdominal compartm Am 1996; 76:833-42.
38. Gecelter G, Fahoum B, Gardezi S et al. Abdominal compartment satitis: An indication for a decompressing laparotomy? Dig Surg 20
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CHAPTER
2
DefinitionsDavid J. J. Muckart, Rao R. Ivatury,* Ari Leppäniemand R. Stephen Smith
Historical Background
David J. J. Muckart and Rao Ivatury
Introduction
W ithin any human body compartment a rise in pressuredetrimental. At pressures which still permit axial vemay cease to exist resulting in cell death. The physiol
ment of signs and symptoms is dependent upon a number of fac
sure, rate and magnitude of intracompartmental pressure rise, ment, and the reason for the change in compartmental pressureintracranial pressure within the rigid skull in a hypotensive patintervention is delayed, whereas chronic hydrocephalus in a childon vital organ function. The same principles pertain to the abdommuscle relaxation IAP may rise acutely to 20 mm Hg or more withorgan function.4 Conversely, in a swine model Simon et al showe
20 mm Hg following a period of haemorrhagic shock and resusdecrease in pulmonary function.5 Control animals with similar eprior haemorrhage had minimal changes in PaO2/FiO2 ratio. Inrapid accumulation of intra-abdominal fluid has been documentloid resuscitation in the absence of intra-abdominal injury,6-9 wh
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Definitions
phase splanchnic hypoperfusion may occur long before the classi
come evident.
12,14
Prodromal symptoms are often “soft” and may be ascribed to ations. This is especially true in the critically ill patient who, fointensive care admission following laparotomy. Mild elevations sion, an increase in central venous pressure (CVP) or pulmona(PAOP), and borderline urine output are all features of an elevaascribed to cardiac insufficiency following severe abdominal sepsis
a number of important questions with regard to defining IAH an What pressure defines the change from normotension to hyperten At what point does IAH develop into ACS? If the foregoing can beand ACS can be defined and the point at which the physiologicabe identified.
What Is Normal Intra-Abdominal Pressure?
IAP is highly variable in normal individuals15-22 and dependposition.1 Although readings as high as 80 mm Hg have been nomm Hg with a range from subatmospheric to 16 mm Hg. Abdoinfluence on IAP but this rarely exceeds 15 mm Hg in uncomplgery has a more marked effect on IAP but this pertains to the undeto the act of surgery itself. Positive pressure ventilation will obviouspontaneous breathing.
What Pressure Defines Hypertension? With reference to the vascular system, although the classificat
lignant, hypertension of any degree mandates intervention to prfunction. The more severe the hypertension, the more urgent is applied to the abdomen, the pressure at which organ dysfunctioused to define IAH. Therein lies the problem. Depending on the tof organ dysfunction and perfusion abnormalities may be discoveapparent. When measuring the common haemodynamic parameHg has no significant effect on cardiac output (CO), blood pressregard to the PAOP however, this must be viewed in the light of atrue transmural PAOP equals the end-expiratory PAOP minus ple
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of cut points to define IAH.2,9,12,27-32 These range from 12 to 25 m
used receiver operating characteristic (ROC) curves to define odetrimental effects occur.33 Looking at postoperative complicaemergency aortic aneurysm repair, ROC curves showed a level ofsensitive and specific point to define IAH. In combination with the normal population, these studies provide strong evidence thatbe used as the lower limit to define IAH. Although this may idetrimental effect, values higher than this would fail to capture t
bidity from IAH. This level is not absolutely exclusive and in a m12 mm Hg may determine IAH, especially in the presence of hgested that abdominal perfusion pressure defined as mean arterial prpressure may be a more reliable index.34 Values of less than 50 mdetrimental effects of raised IAP.
How Common Is Intra-Abdominal Hypertension?
The problem in answering this question, as indicated earlier, isent criteria to define IAH. Sugrue et al28 in a study of 100 patiensive care unit following laparotomy used a level of 20 mm Hg ttients eligible for final analysis 29 (33%) had elevated pressures. had been used, 38 (43%) patients would have been defined as hapatients undergoing emergency surgery 23 (40%) had pressures greof the 31 patients who underwent elective surgery only 6 (19%
though not achieving statistical significance this must be viewed aing. In a series of 70 patients suffering life-threatening abdomingarded as having IAH using a level of 25 mm Hg as the definition.1
however, for containing a specific group of patients at high risk onot necessarily portray the true incidence. As suggested by the alevel of IAH that needs treatment has not been established. Inpatients admitted to intensive care31 the overall incidence of IAHof 12 mm Hg. Of patients admitted following emergency surgercompared to only 6% of those undergoing elective surgery. The i
was 20%. Surprisingly, despite the use of three different levels ofdence is very similar especially in patients who have undergone e
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Definitions
no-man’s land of IAH between normal IAP and ACS that our effoan attempt to clarify definitions and thereby treatment opthaemodynamic parameters is too crude but measurement of splanin the clinical scenario to be currently applicable.
Consensus Definitions
Ari Leppäniemi and R. Stephen Smith
Figure 1. Effect of increasing intra-abdominal pressure on cardiac outp(triangles), superior mesenteric artery flow (diamonds), and intestinal mu
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relevance of using one maximal value of IAP to guide our ther
using the mean or median of a set of measurements arises. Withbecause the majority of institutions use maximal IAP values frommeasurements, all pressure values subsequently referred to hereinIAP values from ”standardized” noncontinuous bladder measur
wise.
Normal Intra-Abdominal Pressure
In the strictest sense, only IAP values ranging from sub-atmosconsidered normal.20 However, certain physiological characteriscan be associated with chronic increased IAP to which the patientsignificance of mildly or moderately elevated values needs to be ”steady state” of the individual patient. For example, it has been abdominal diameter in morbidly obese patients is associated withof other significant pathophysiology.22
Even minor therapeutic interventions or changes in body pocally ill patients, might affect the IAP condition and cause brief ivalues. Subsequently, IAP may rapidly return to normal or baselindocumented that recent abdominal operations are associated withthe diagnosis of pathological IAP or IAH, which may potentially tion, can be made, a sustained increase in the IAP reflecting a neor entity in the abdominal cavity needs to be demonstrated.9,41-4
The intra-abdominal pressure (IAP) is the pressure concenal cavity, it varies with respiration and is normally below 10be measured at end-expiration in the complete supine positio
Pathological Intra-Abdominal PressureObviously, pathological IAP is a continuum ranging from mi
out clinically significant adverse effects to a substantial elevation quences to almost all organ systems in the body. Although the usedefine IAH could be questioned, it is important that a consensuth f t A t d b h k f th id tifi ti f IA
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Definitions
the original scale to values in mm Hg, Grade I corresponds to a blHg (10-15 cm H20), Grade II to 11-18 mm Hg (15-25 cm H20)(25-35 cm H20), and Grade IV > 25 mm Hg (> 35 cm H20). Thment for Grade I and II IAH was mostly conservative, while tre
IAH involved operative intervention.Definitions of Abdominal Compartment Syndrome
To separate IAH from the clinical Abdominal Compartment al39 characterized ACS by the presence of a tensely distended abdom
d k i i d il i i h h i
Figure 2. Distinctions between normal intra-abdominal pressure, IAH, a
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Abd16
score or an equivalent scoring system, with organ failure definedof ≥ 3).
Primary (surgical) ACS is defined as a condition associated wabdomino-pelvic region that requires early surgical or angioradiodevelops following abdominal surgery (such as abdominal organrepair or damage control surgery, secondary peritonitis, bleeding pof massive retroperitoneal hematomas, liver transplantation). Patrial of nonoperative management for solid organ injuries who su
included in the Primary (surgical) category.Secondary (medical) ACS refers to conditions that do nangioradiological intervention (such as sepsis and capillary leak, s
jor burns and other conditions requiring massive fluid resuscitatioto the condition where ACS develops following prophylactic or tof primary or secondary ACS (e.g., persistence of ACS after decodevelopment of a new ACS episode following the definitive closu
the previous utilization of temporary abdominal wall closure).
References1. Malbrain ML. Different techniques to measure intra-abdominal pr
reappraisal. Intensive Care Med 2004; 30(3):357-371.2. Malbrain ML, Chiumello D, Pelosi P et al. Prevalence of intra-abd
ill patients: A multicentre epidemiological study. Intensive Care M3. Malbrain ML. Is it wise not to think about intraabdominal hyper
Crit Care 2004; 10(2):132-145.4. Kelman GR, Swapp GH, Smith I et al. Caridac output and a
laparoscopy. Br J Anaesth 1972; 44(11):1155-1162.5. Simon RJ, Friedlander MH, Ivatury RR et al. Hemorrhage lowers t
hypertension-induced pulmonary dysfunction. J Trauma 1997; 426. Maxwell RA, Fabian TC, Croce MA et al Secondary abdomin
underappreciated manifestation of severe hemorrhagic shock. J Tr
7. Burrows R, Edington J, Robbs JV. A wolf in wolf’s clothing—thdrome. S Afr Med J 1995; 85(1):46-48.8. Mayberry JC, Welker KJ, Goldman RK et al. Mechanism of acut
resuscitation. Arch Surg 2003; 138(7):773-776.9. Balogh Z, McKinley BA, Cocanour CS et al. Supranormal trauma
of abdominal compartment syndrome. Arch Surg 2003; 138(6):63
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48. Balogh Z, McKinley BA, Holcomb JB et al. Both primary and secsyndrome can be predicted early and are harbingers of multiple
54(5):848-859.49. Offner PJ, de Souza AL, Moore EE et al. Avoidance of abdom
damage-control laparotomy after trauma. Arch Surg 2001; 136(6)50. Cheatham M. Intra-abdominal hypertension and abdominal comp
1999; 7:96-115.51. Malbrain ML. Abdominal perfusion pressure as a prognostic mark
sion. In: Vincent JL, ed. Yearbook of Intensive Care and Springer-Verlag, 2002:792-814.
52. Eddy V, Nunn C, Morris Jr JA. Abdominal compartment syndrSurg Clin North Am 1997; 77(4):801-812.
53. Demetriades D. Abdominal compartment syndrome. Trauma 20054. Stassen NA, Lukan JK, Dixon MS et al. Abdominal compartment
91(1):104-108.55. Vincent JL, Moreno R, Takala J et al. The SOFA (Sepsis-related
to describe organ dysfunction/failure. Intensive Care Med 1996; 256. Balogh Z, McKinley BA, Cocanour CS et al. Secondary abdomin
elusive early complication of traumatic shock resuscitation. Am J 57. Biffl WL, Moore EE, Burch JM et al. Secondary abdominal com
lethal event. Am J Surg 2001; 182(6):645-648.58. Gracias VH, Braslow B, Johnson J et al. Abdominal compartment
Arch Surg 2002; 137(11):1298-1300.59. Ertel W, Oberholzer A, Platz A et al. Incidence and clinical pat
ment syndrome after “damage-control” laparotomy in 311 patientpelvic trauma. Crit Care Med 2000; 28(6):1747-1753.
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CHAPTER 3
Intra-Abdominal Pressure Measu
TechniquesManu L. N. G. Malbrain* and Felicity Jones
Abstract
The diagnosis of intra-abdominal hypertension (IAH) o
syndrome (ACS) is heavily dependant on the reproducibpressure (IAP) measurement technique. This chapter w
direct IAP measurement, followed by the value of clinical estimgirth or by examiner’s feel of the tenseness of the abdomen. Afterwof various indirect IAP estimates, as bladder, gastric or rectal pressquestions with regard to the role of the intrabladder pressure (Iindirect IAP. The outline of this chapter was based on a recently wthis subject.1
Introduction Although there is a rising interest on intra-abdominal hyperte
compartment syndrome (ACS) in the literature, there is still controfor measuring IAP.1 Direct IAP measurement is not always pos
indirect IAP estimation via the bladder evolved as the gold stanvariability in the measurement technique has been noted, not oalso between institutions.
The purpose of this chapter is (1) to identify patients at risk thtoring; (2) to review the most commonly used direct and indirect
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fecal mass.2 The IAP shifts with respiration as evidenced by an inmatic contraction) and an expiratory decrease (relaxation). The inmonitoring is via direct needle puncture; the noninvasive standathe bladder.
Indications for IAP MonitoringIn a recent multicentre prevalence study in mixed ICU patien
fied body mass index (BMI), fluid resuscitation, polytransfusion,assessment (SOFA) score and SOFA respiratory, renal and coagucantly associated with IAH.3 The Odd’s ratio for IAH was 3.3 (95citation and 7.3 (95%CI 0.9-60.3) for polytransfusion. The on
i t d ith IAH ( lti i t l i ) th BMI h
Table 1. Indications for IAP monitoring
1) Postoperative patients (abdominal surgery)2) Patients with open or blunt abdominal trauma3) Mechanically ventilated ICU patients with other organ dysfunctio
Sequential Organ Failure Assessment (SOFA) score.15
4) Patients with a distended abdomen and signs and symptoms cons
compartment syndromea. Oliguriab. Hypoxiac. Hypotensiond. Unexplained acidosise. Mesenteric ischemiaf. Elevated ICP
5) Patients with abdominal packing after temporary abdominal clostransplantation6) Patients with open abdomens, especially if they have an IV bag c
postoperative period, may still develop abdominal compartment 7) Patients who have not had an operation but have received large v
in the context of an underlying capillary leak problem (pancreatit
Intra-Abdominal Pressure Measurement Techniques
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Intra Abdominal Pressure Measurement Techniques
you don’t measure IAP you cannot make a diagnosis of IAH orFigures 1-6.
Besides these clinical clues pointing towards IAH or ACS not mis given by the clinical examination and to have an idea of the exneed to measure it!
Abdominal Girth A recent study looking at 132 paired IAP and abdominal perim
ICU patients found no correlation (R 2 = 0.12) (Figs. 7, 8).18
Clinically significant IAH may be present in the absence of abseen in case of an acute increase in IAP without sufficient time fotion (e.g., localised rectus sheath haematoma).19 Vice versa chronsufficient time for adaptation as seen with pregnancy, obesity, cir
an example of increased abdominal perimeter that is not necesscrease in IAP.
Table 2. Etiologic factors for IAH
1) abdominal surgerya. laparoscopy,b. reduction of hernia, tight closurec. abdominal banding with postoperative Velcro belt to prevent
2) massive fluid resuscitation defined as more than 5 litres of colloid
period3) ileus whether paralytic, mechanical or pseudo-obstructive defineabsence of bowel sounds or failure of enteral feeding; evidenced massive gastroparesis with a gastric residual of more than 1000 m
4) abdominal infection (pancreatitis, peritonitis, abscess,…)5) pneumoperitoneum6) haemoperitoneum either caused by an intra- or retroperitoneal bl
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Figure 1. If the transversal and sagittal diameter of the abdomen are equnation, the chance that IAP will be increased is substantial.
Intra-Abdominal Pressure Measurement Techniques
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q
Figure 3. In case of tight abdominal closure with an iron wire or the so-cathere is a great chance that IAP will be increased.
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Figure 5. The use of an abdominal Velcro belt to prevent incisional hernifor IAH and ACS.
Intra-Abdominal Pressure Measurement Techniques
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Figure 7. The use of the abdominal perimeter is not a good tool in assess
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Clinical ExaminationRecent studies have shown that clinical IAP estimation by putabdomen is also far from accurate (Fig. 9). Kirkpatrick and coautder pressure with clinical assessment in a sample of 147 paired minjured trauma patients They found that IAH was present in 50%
Figure 9. Clinical examination of the abdomen by putting one or two hana sensitivity of only 40%.
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opening can be blocked by tissue or fluid leading to over- or upressures can be influenced by muscle relaxation. Laparoscopy rment, this makes it even more difficult to validate indirect IAP m
Finally recent data suggests to measure IAP directly during chdialysis (CAPD) via the PD or Tenckhoff catheter. High IAP hasrisk factor for abdominal wall complications in patients on CAPage, polycystic kidney disease and high BMI were also independeplications. The authors suggest that automated CAPD with low d
sures (below 14 mm Hg) should be considered in all patients at riOthers also noted a strong correlation between BMI and IAP icorrelation gives a better understanding of the interindividual variunique relationship between IAP and intraperitoneal volume.
Noninvasive Indirect IAP Measurement (Gold StBefore discussing the different indirect methods to measure I
standard method for intravesicular pressure monitoring.
Equipment Required Cardiac monitor with invasive pressure recording capabilities
isotonic sodium chloride solution, or D5W; Foley catheter; one setup with two three-way stopcocks; and 1 transducer connectiosyringue; a Kocher, or Kelly clamp; a 18-gauge needle or better a
disinfection fluid.
Set-Up Wash hands and follow universal antiseptic precautions conn
the standard pressure transducer and flush the system. Place the twdistal end of the pressure transducer. Connect the 60 mL syrinstopcock. Connect the 18-gauge needle or intravenous access catsure tubing. Connect the transducer to the monitor via the speciaa normal waveform on the scope. Select a scale of 20 to 40 mm H
Method of Measurement
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Intra-Abdominal Pressure Measurement Techniques
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pubis as zero reference, problems can arise when the same pressuand CVP monitoring, with traditional zero-reference at the mid
tient upright with concomitant rise in the transducer may lead while putting the patient in the Trendelenburg position can lead
The fact that recalibration needs to be done before every meafor errors. We have all seen the “magic” drop or rise in CVP at cpressure transducers are recalibrated, the same can happen with IAto + 30 mm Hg have been noted previously.26 Therefore it is impsurements in the complete supine position and to note the IAP v
Should the patient be unable to remain supine, the position at is taken should be noted and subsequent measurements should besame position. Although the absolute value of the IAP readings mmeasurements are reproducible and the trend in IAP can give vamore, a fluid-filled system can produce artefacts that can further dform. Failure to recognise these recording system artefacts can lead
can oscillate spontaneously, and these oscillations can distort the formance of a resonant system is defined by the resonant frequenlatory frequency) and the damping factor (this is a measure of thattenuate the pressure signal). Therefore, any fluid-filled systbody-position and over- or underdamping due to the presence oftoo compliant or too long etc. A rapid flush test should thereforeIAP reading in order to obtain an idea of the dynamic response
these distortions and artefacts.28
Off course these distortions are mobservations e.g., arterial pressure waveforms ranging from 50 todiastolic excursions ranging from 40 to 200 mm Hg. Looking afrequency variations are mostly absent, so that the dynamic respoa little role in these more static conditions. The only systolic to diatracings are those caused by respiration, however when IAP is mheart (e.g., when measuring via the stomach) or the great vessels
interfere with the IAP tracing. In some conditions IAP tracings caas seen with arterial pressure: just imagine a patient with secondar with a high respiratory rate of 30, low tidal volumes and high Pchest and abdominal wall compliance it is not impossible to obsert 45 H i l d t di i i h d h t ll li
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After reconnection the urinary drainage bag is clamped distal tFor each individual IAP measurement a 16 gauche needle is then eter or pressure transducer using the symphysis pubis as referenc
Advantages and DisadvantagesThis technique implicates a lot of time-consuming manipul
sterile system at each measurement. It has all the problems that static convective fluid column.
Other disadvantages are: it is an intermittent technique that without the possibility to obtain a continuous trend, it places th
urinary tract infection or sepsis and subjects healthcare provideinjuries and exposure to blood and body fluids. In conclusion thpresent time no clinical implications.
The Closed System Single Measurement Technique (Iberti
Description
Iberti and colleagues reported the use of a closed system drapressure monitoring method (Fig. 14).31,32
Using a sterile technique they infused an average of 250 mL urinary catheter to purge catheter tubing and bladder. The bladd20 gauche needle is inserted through the culture aspiration port
Figure 12. Kron technique: 60 mL syringe connected to Foley.
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The transducer is zeroed at the symphysis and mean IAP is readperiod (Fig. 15).
Advantages and DisadvantagesIt has the same disadvantages related to the hydrostatic fluid co
and since it is not needle free it also subjects health care workers The advantage compared to the Kron technique is that it is si
and with less manipulations In conclusion the Iberti technique h
Figure 14. The original Iberti technique, comparing direct intraperitoneal
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The Closed System Repeated Measurement Technique (Ch
DescriptionCheatham and Safcsak reported a revision of the Kron’s orig
intravenous infusion set is connected to 1000 mL of normal salLuer lock syringe and a disposable pressure transducer. An 18-gausion catheter is inserted into the culture aspiration port of the Foremoved.
The infusion catheter is attached to the first stopcock via arteriflushed with saline and “zeroed” at the level of the symphysis p
when the patient is in complete supine position), the Foley cath
distal to the culture aspiration port. The stopcocks are turned “oftransducer and 50 mL of saline is aspirated from the intravenouturned “on” to the patient and the 50 mL of saline are instilled intare turned “off” to the syringe and the intravenous tubing. After ei h d d i i h b d id i T
Figure 16. Revision of theoriginal Kron method for
intravesicular pressure measure-ment. Reprinted with permis-sion from the American Col-lege of Surgeons (Journal of the
American College of Surgeons,1998; 186:594-595).
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The Revised Closed System Repeated Measurement Techn(Malbrain and Sugrue)1,35
DescriptionThe technique by Cheatham was modified: A Foley catheter is
drainage system connected. Using a sterile field and gloves, the sterile scissors) 40 cm after the culture aspiration port after disinfcocks (Manifold set, Pvb Medizintechnik Gmbh, a SIMS Trademmany, REF: 888-103-MA-11; or any other manifold set or even
h ill d h j b) i d i l i i
Figure 17. A closed needle-free method for repeated IAP measurement. Rep1: Malbrain ML. Different techniques to measure intra-abdominal pr
reappraisal. Intensive Care Med 2004; 30(3):357-371.
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monitoring system in order to get the reading. When the readingthe 10 mL syringe from the drainage tubing and remember to d
hour’s urine output measurement. We will now show a step by stnique illustrated with photographs (Fig. 19, steps 1-8).
Advantages and DisadvantagesIt has the same inconveniencies related to a fluid-filled system
Iberti or Cheatham technique. This technique has the same advannique with a required nursing time less than 2 minutes per measu
urinary tract infection and sepsis since it is a closed sterile systemmeasurements and reduced cost. Since it is a needle-free system iculture aspiration port and the risk of injuries is absent. This teching or for monitoring for a longer period of time (2 to 3 weeks).
The Revised Closed System Continuous Measurement Tec(Malbrain and Sugrue)1
In an anuric patient continuous IAP recordings are possible vsystem connected to the Foley catheter after the culture aspirationcatheter using a conical connection piece connected to a standardsure tubing (Fig. 20).
After initial “calibration” of the system with 50 mL of saline apubis the transducer is taped at the symphysis or thigh and a conobtained. Daily calibration can be done in oliguric patients after
DescriptionSize 18 F standard three-way catheters is inserted into the p
measurement was performed via the irrigation port of the three-tinuous sterile normal irrigation was maintained at 2 mL/h and cstopcock and normal saline filled tubing to a pressure transducercrest at the mid axillary line. The transducer is zeroed and the conrecorded on the bedside monitor.
Advantages and DisadvantagesThis technique does not require any major change in the presen
f h i h Th i i i i d
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Figure 19. Step 1) Pthe T-piece and pr
monitoring. Step 2serted in sterile coFoley catheter and t3) A 2- or 3-way stLuer-lock connectiterial pressure tubitransducer. Step 4) Cand pressure transdmL of sterile salineeter clamped distalFigure continued o
1
2
3
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Figure 19. Continued. Step 6) IAP measurementshowing T-piece, pressure transducer and urinary
catheter. Step 7) The pressure transducer is posi-tioned at the midaxillary line and the reference pointis marked to reduce inter- and intra-observer vari-ability. Step 8) The transducer is positioned andzeroed with the patient in the supine position andthe actual reading is shown on the monitor. In thispatient with temporary abdominal closure the IAPvalue was 9 mm Hg.
6
7
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Figure 20. Close up view of a closed needle-free system for continuous intment in an anuric patients, using a conic connection piece (Conical Confitting, B Braun, Melsungen, Germany, REF: 4896629 or 4438450) ctransducer via pressure tubing. Reprinted with permission from ref. 1: Ma
to measure intra-abdominal pressure (IAP): Time for a critical reappra30(3):357-371.
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The IAP is indicated by the height (in cm) of the urine colummeniscus should show respiratory variations. This rapid estimatiocase of sufficient urine output. In an oliguric patient 50 mL salin
Advantages and DisadvantagesIt has all the inconveniencies that come along with a fluid-fille
However since it is needle-free it poses no risks for injuries. It allo
very inexpensive and fast with minimal manipulation. Harrahil which is a simpler method of IAP measurement. It resembles cenetry performed in the days before transducers. This technique haperformed by any member of the health care team at the bedside,care location. The diagnosis of raised IAP can be made quickly anhas the potential of being available worldwide. It is a cheaper methresource limited countries. However, care must be taken to ens
system used has an air inlet to avoid the generation of erroneoclosed system. If no air-inlet is available the drainage system needsincreasing the risk of infection. When using this technique a concm H2O to mm Hg and introduces the potential risk for error.37
Figure 24. The U-tube manometer technique.
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The FoleyManometer Technique (Holtech)1,39
DescriptionIn 2002 we tested a prototype (Holtech Medical, Copenhage
medical.com) for IAP measurement using the patients’ own urmedium.1,39 A 30 mL container fitted with a bio-filter for venting catheter and the drainage bag (Figs. 25-33).
The container fills with urine during drainage; when the conbetween the FoleyManometer and the biofilter is released and 30 patient’s bladder. The zero-reference mark is directly positionedIAP can be read from the position of the meniscus in the clear mcontainer and the Foley catheter. This manometer tube has unitH2O) (Fig. 28).
We found a good correlation between the IAP obtained via t
“gold standard” in 119 paired measurements (R 2 = 0.71, p<0.000
Figure 25. FoleyManometer first and second generation prototypes. ©Hpermission from ref. 1: Malbrain ML. Different techniques to measure Time for a critical reappraisal. Intensive Care Med 2004; 30(3):357-371
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Figure 28. Close up view of the fourth genera-tion FoleyManometer.
Figure 29. Patient mounted view of theFoleyManometer inserted between the Foley catheter and the urinary drainage bag.
Figure 27. Drainage with second Foley-Manometer prototype.
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122 cm, Maersk Medical A/S, Denmark) (Fig. 34). The intragaconfirmed by aspiration of gastric juice, auscultation of air insufftable chest/upper abdomen X-ray, and confirmation of a rise in IAtric pressure.
A three-way stopcock is connected to the nasogastric tube, on
sure transducer via arterial tubing and the other end is connected saline. All air is aspirated from the stomach and 100 mL of saline zeroed at the midaxillary line with the patient in the supinend-expiratory.
In case of head elevation, bladder trauma, peritoneal adhesiontures, abdominal packing, a contracted or neurogenic bladder, IBthe procedure used for the bladder can then be applied via the sto
Advantages and DisadvantagesSame inconveniences as with every fluid-filled system. Anothe
pressures might interfere with the migrating motor complex or wh ll i d b i d f h h b f
Figure 34. The classic Collee technique.
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regional pCO2 and intramucosal pH the balloon is filled with 6 mmeasurements are obtained via a tonocap monitor (Fig. 35).
To read IAP, 3 mL of air is withdrawn of the tonometer balloosampling cycle by turning the stopcock from “syringe off ” to “TmL of air from the balloon. Then the stopcock is turned back to end-expiratory after zeroing of the transducer at the mid-axillary
supine position. To measure prCO2 again the stopcock is turnethe 3 mL of air are reinjected into the balloon. The stopcock is thmeasuring pCO2.
We recently validated these results and found good correlatiomethod the tonometer method and IBP 43 Simultaneous IAP v
Figure 35. The tonometer technique.
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47-9005, see at www.ackrad.com/products/c-balloon_catheter.cfemale or male, International Medical Products BV, Zuthpen, Ne
legiance, REF: 84310). The intragastric position of the tube is cupper abdomen X-ray, and confirmation of a rise in IAP followinor by a rapid oscillation test. When the balloon is correctly in thetory IAP pressure wave will be positive and the positive pressure w
Figure 36. Simultaneous IAP tracings obtained from the stomach via a tovia the bladder (IAPves). Respiratory and ECG artefacts are more pronproximity of the heart and lungs. Correct IAP should be read at end-exp
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measurement, this might cause inaccurate measurement if threcalibration or if the reinstilled volume is not exactly the same time-consuming and has all the advantages of an air-filled system technique the cost of IAP is further reduced depending on thesemi-continuous measurement of IAP as a trend over time is possi
catheter price ranges from €15 (International Medical System(Ackrad, USA). This technique is ideal for monitoring for a lon
when using multiple tubes the risk of sinusitis or infection needs
The Continuous Fully-Automated Technique (Spiegelberg
Description
IAP Measurement with the Air-Pouch System (www.spiegelbintroduced like a nasogastric tube, it is equipped with an air poucone lumen that connects the air-pouch with the IAP-Monitor aguide wire for introduction. The pressure transducer, the electrof filli th i h i t t d i th IAP M it O
Figure 37. The revised semi-continuous technique. Reprinted with permiDifferent techniques to measure intra-abdominal pressure (IAP): Time foCare Med 2004; 30(3):357-371.
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Figure 4
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marker in IAH to titrate better our resuscitation in patients with Iend-organ failure and associated morbidity and mortality.17,46
Rectal Pressure47
DescriptionRectal pressures are used routinely as estimate for IAP during
late the transmural detrusor muscle pressure as IBP minus IAP.obtained by means of an open rectal catheter with a continuousbut special fluid-filled balloon catheters are used more routinely,
First the catheter has to be prepared by putting a 3-way stopcsaline on the “FILL” end of the catheter. This step is easily accompso that the balloon is pointed upward. Using the syringe, water is iaction forces the air inside to rise and then discharge out of the lumeONLY”. After all the air has been flushed through the balloon lumen extension labeled “PURGE ONLY” is closed. The balloonthe water from the catheter with the syringe.
The 3-way stopcock is then turned “OFF” to the catheter th
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Figure 45. A continuous trend of 24 hour IAP and APP recordings obtaintipped IAP catheter placed in the stomach. Note the absence of resorption of every hour. Note also the effect of CAPD fluid inflow on IAP. ReprintMalbrain ML. Different techniques to measure intra-abdominal pressurepraisal. Intensive Care Med 2004; 30(3):357-371. CAPD: chronic ambu
Figure 46. Optioning gastric nutritiomonitoring.
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is more difficult, implicates more manipulation, is intermittent with lower gastro-intestinal bleeding or profound diarrhoea. Thamong nurses to use it. Since it is fluid-filled it has all the problemstatic fluid column, but since it is needle free it decreases patient tions or injuries. The fluid-filled balloon catheters are more expentheoretically stay in place for a longer period of time, interfere withcan cause erosions and even necrosis of the anal sphincter and techniques have not been validated in the ICU setting. This techntions in the ICU setting.
Figure 48. Close-up view of the CiMON monitor (compartmental intrathing) displaying the intra-abdominal pressure (IAP); the intrathortransdiaphragmatic pressure (TDP).
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Uterine Pressure
DescriptionBasically this technique is mostly done with the same catheter
ine pressures are used routinely by gynaecologists during pregnacally a standard so-called “intrauterine pressure catheter” (IUPCUterine pressures are mostly obtained by means of a closed specia(as for rectal pressure).
Figure 50. Example of urodynamic investigation. Big rectal contraction
indicates well cancelled artefacts. Arrow 3 indicates genuine unstable contrcancellation.
Intra-Abdominal Pressure Measurement Techniques
connected to the distal lumen, one end is connected to a pressure and the other end is connected to a pressurized infusion bag of 100
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and the other end is connected to a pressurized infusion bag of 100
is zeroed at the midaxillary line with the patient in the supinend-expiratory as with CVP.
Advantages and DisadvantagesThe major disadvantage of this technique is the risk of (poss
stream infections and septic shock. The initial placement is morethe problems inherent to fluid-filled systems and poses potential in
workers. The major advantages are that a continuous trend can bfere with urine output, and that it could be used in bladder-traumnique has not been validated in specific ICU patient populationsing different methods of indirect IAP measurement Lacey foundbladder and inferior vena cava pressure with direct intraperitonea with gastric, femoral or rectal pressure.48 Lee also found a gooduring laparoscopy.38 A recent study in man, comparing superio
with common iliac venous pressure (CIVP) in various conditionthat the difference between CIVP and SVCP was not affected byCIVP does not reflect IAP correctly [32]. The most likely explanaand experimental model used to induce increased IAP in canine stand SVCP increase as IAP increases [32]. Recently Joynt also founSVCP and IVCP regardless of IAH.50 This technique has limitsetting.
Microchip Transducer Tipped Catheters
DescriptionDifferent types of catheters, tipped with microchip transduce
the market. They can either be placed via the rectal, uterine, vecatheters can either have a 360˚ membrane pressor sensor in the der, stomach) connected to an external transducer in a reusable cablin vivo pressure transducer in the tip of the catheter itself (Figs. 5
These catheters provide true zero in-situ calibration. By disczero on the monitor, clinicians can instantly validate and check th
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Cost-Effectiveness
Costs A cost estimation (in Euros) was performed for the different ind
niques, based on cost of disposables and nursing time. Costs were the cost for the first measurement and the cost evolution in a hypmeasurements were performed twice, six times or twelve times a d
were compared based on costs of initial set-up, the first and nextcosts based on the number of IAP measurements per day and duraThe initial setup cost was the highest for the microchip transduand the lowest for the manometry techniques (around 1 to 20€monitoring techniques varied around 20 to 40€ whereas the setutechniques was between 70 to 200€ (Fig. 53).
The cost for the first measurement was the highest for the
(Kron, Iberti, Collee) at around 2.5 to 3.5€. For the other techment varied between 0.5 and 1€ (Figs. 54, 55).
Figure 51. Microchip transducer. Close up view of an ultra-miniature mictechnologies). These transducers provide high fidelity, robustness and emance for in vivo catheter pressure applications.
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The total cost score was calculated as a percentage based on th
cost comparisons (setup, first measurement, further monitoring). least expensive followed by automated (semi-)continuous techniqbladder techniques. Finally the time-consuming techniques were mthe cost of nursing time (Fig. 56).
EffectivenessEffectiveness analysis was based on available literature informa
erties, the technique itself, whether the system is fluid or air-filcontraindications. Technique properties looked at the difficulty, sumption, as well as the possible interference with urine outpumaterial was needed. Measurement properties looked at the presen
Figure 53. Comparison of the initial set-up costs (in €) for different indirIBP: intrabladder pressure; IGP: intragastric pressure; IRP: intrarectal pressinferior vena cava.
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Again the fully automated technique via the stomach had thefollowed by the manometry techniques (Fig. 58).
Reproducibility of IAP Measurement As stated previously, the intravesical route evolved as the gold
able variability in the measurement technique has been noted abriefly addressed below.
1. Malpositioning of the pressure transducer with regard to th
Figure 54. Comparison of cost per measurement for different indirect IAP comparison has taken into account initial setup cost and cost per measure
where IAP is monitored 12 times a day together with urine output for
between 1 to 10€ per measurement. IBP: intrabladder pressure; IGP: intrpressure; MANO: manometry; IVC: inferior vena cava.
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4. An idea on how often IAP should be measured can be obtcoefficient of variation (COVA) during one 24 hour period.
the mean COVA (defined as the standard deviation divide which is comparable to daily fluctuations in other pressurespulmonary artery occlusion pressure. However, this coefficitween centres. Since the literature provides no data on 24-houin the ICU it is not possible to determine whether these vaduring one study day were normal or related to the measuremIAP should be monitored as often as possible. This implicadence of IAH and ACS is affected by the number of IAP mthe day.
Figure 57. Comparison of total effectiveness score (in %) of different indiIBP: intrabladder pressure; IGP: intragastric pressure; IRP: intrarectal presinferior vena cava.
Intra-Abdominal Pressure Measurement Techniques
5. As IAP is a physiologic parameter as any other “body presfluctuates during the day. Since the inception of IAP monit
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every four to twelve hours have been assumed to accuratelyduring the intervening time. It is now recognized however thments are only “snapshots” that poorly illustrate the “movinsponse to injury and subsequent resuscitation. A recent studvariance during different 24 hour periods showed that the dadivided by mean) was 18.7±7.4% for intragastric pressure (range 5-46%) and 17.5±12.4% for IBP (range 0-58%) (Fig
6. Intrinsic bladder compliance is important. In case of a lowamount of saline needs to be instilled into the bladder, otheintrinsic IBP and overestimate IAP. A common example of ais IAH or ACS, therefore the higher the previous IAP measurneeded for the next measurement (Fig. 62).
7. Baseline IAP and the volume instilled in the bladder are imprecently in an animal study that the IAP increase by instill
abdominal cavity correlated well with intravesical pressures.5an estimation for IAP is affected by the amount of fluid inexceed 10-15 mL. If baseline IAP is lower than 8 mm Hg a 1needed to increase IAP with 2 mm Hg, however if baseline extra bladder volume is needed for the same IAP increase.52
conclusions by analysing bladder pressure volume curves wincreased depending on the volume instilled. The IBP rose froto 6.9±5 mm Hg with 50 mL and 23.7±16.1 at 300 mL (p<If IBP is used as an estimate for IAP the volume instilled in t50 and 100 mL, however in some patients with a low bladdeat low bladder volumes. Ideally a bladder PV curve shouldvidual patient before using IBP as an estimation for IAP. Tcompare the literature data. It raises not only questions with
lished definitions and IAP cut-offs but it also puts the IBP instandard. Ideally the bladder should be fully emptied before can you be really sure?
8. The bladder “gold standard” measurement techniques reporh d i j 50 L1 h 0 L 32 100 L 3
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laparoscopy.56,57 He concluded that further research is needethat may play a role in the relationship between the urinary pressures, providing better means for diagnosing ACS. Furtheodology of this study was poor.
10.Although many articles have validated IBP against direct insuto extrapolate these single observer comparisons in patients and paralysis to a mixed ICU population of patients not undsubject to other confounding factors (nurse shifts, position,
measurement via a laparoscopic insufflator is prone to errorsrapid increases in pressure during insufflation. The Verres nby tissue or fluid leading to over- or underestimation of IAenced by muscle relaxation. Laparoscopy remains an artificeven more difficult to validate indirect IAP measurement m
Figure 61. Daily fluctuations in IGP measured via the Spiegelberg (triangvia a FoleyManometer. IGP: intragastric pressure; IBP: intrabladder press
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11.Body position is important. Putting a patient in different effects on IAP (Fig. 65). This is in contradiction with the hcompartment is primarily fluid in character and should follo
would then remain constant regardless of body position as abdomen should in fact be looked at as a “fluidlike” companents that may influence IBP (the intrinsic weight of the orgair in the bowel, …). Assessment of IAP should therefore a
i i i Th i h i i i ifi l i
Figure 63. Plot of the “insufflation” and “deflation” PV curve as a curve fit oin 6 mechanically ventilated patients. The Bladder PV curves were obtainthe bladder with 25 mL increments. A lower inflection point (LIP) can bmL to 100 mL and an upper inflection point (UIP) at a bladder volume of 2pressure was 2.7±3.3 mm Hg between 0 or 50 mL volume, 1.7±1.2 mm7.7±5.7 mm Hg between 50 and 200 mL and 16.8±13.4 mm Hg betweenpermission from ref. 1, Malbrain ML. Different techniques to measure Time for a critical reappraisal. Intensive Care Med 2004; 30(3):357-371
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patients, trauma patients, patients at risk for IAH (Tables 1-3) icontinuous method for IAP monitoring via the stomach and focuand APP.
AcknowledgementsI’m indebted to my wife Ms. Bieke Depré for her patience, ad
with the preparation of this manuscript, and to my 3 sons for pr
ronment.Part of this work was presented at the 14th Annual Congress
Intensive Care Medicine, Geneva, Switzerland, Sept. 30-Oct. 3,tional Symposium on Intensive Care and Emergency Medicine, Br2002; at the 13th Symposium Intensivmedizin and Intensivpfle19-21, 2003, on the 23rd International Symposium on Intensivecine, Brussels, Belgium, Mar. 18-21, 2003, at the 16th AnnuaSociety of Intensive Care Medicine, Amsterdam, The Netherlandthe 24th International Symposium on Intensive Care and Emergegium, Mar. 29-Apr. 1, 2004.
Figure 64. Instructions as found on the internet indicating that 200 mL ofIAP measurement.
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Commentary
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Michael L. Cheatham Accurate and timely assessment of intra-abdominal pressure (IA
and management of both intra-abdominal hypertension (IAH) asyndrome (ACS), conditions that have been increasingly recognizof all disciplines. There are few other disease processes where meologic parameter can have such a dramatic impact on patient reelevated IAP may occur insidiously and clinical examination is ntecting the presence of IAH, IAP measurements are an indispensasive care unit (ICU) setting. In this chapter, Dr. Malbrain and Mshensively describe not only when to determine IAP, but also the tsuch determinations. As they ably point out, IAP monitoring is astill in its infancy with numerous measurement techniques havin
Since IAH and ACS cannot be diagnosed by physical examina
measurements are essential to effectively resuscitating such patiening an IAP measurement technique in your ICU is paramount in and mortality. Obviously, the optimal measurement technique accurate, and cost-effective. While regional variations and financyour choice of technique to an extent, the best technique is the one use . Cumbersome, onerous, and/or frustrating techniques will resbeing performed, thus defeating the purpose of IAP monitoring
best. Begin IAP monitoring with one of the traditional techniques ment available in your ICU’s supply room. As you gain experimonitoring and its application in the management of IAH and Aor more of the other methods of IAP measurement to expand ycomplex patients. In the near future, continuous IAP monitoring teavailable further improving our ability to diagnose and treat thesecesses. In summary, choose an IAP measurement technique and u
life depends on it.
References1. Malbrain ML. Different techniques to measure intra-abdominal pr
Intra-Abdominal Pressure Measurement Techniques
12. Balogh Z, McKinley BA, Cocanour CS et al. Secondary abdominelusive early complication of traumatic shock resuscitation. Am J S
13. Balogh Z, McKinley BA, Cocanour CS et al. Supranormal trauma
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of abdominal compartment syndrome. Arch Surg 2003; 138(6):6314. Mayberry JC, Welker KJ, Goldman RK et al. Mechanism of acut
resuscitation. Arch Surg 2003; 138(7):773-776.15. Vincent JL, de Mendonca A, Cantraine F et al. Use of the SOFA
organ dysfunction/failure in intensive care units: Results of a multicing group on “sepsis-related problems” of the European Society oCare Med 1998; 26(11):1793-1800.
16. Bone RC, Sibbald WJ, Sprung CL. The ACCP-SCCM consensus
failure. Chest 1992; 101(6):1481-1483.17. Malbrain ML. Abdominal perfusion pressure as a prognostic mark
sion. In: Vincent JL, ed. Yearbook of Intensive Care and Springer-Verlag, 2002:792-814.
18. Van Mieghem N, Verbrugghe W, Daelemans R et al. Can abdoaccurate estimation of intra-abdominal pressure? Crit Care 2003; 7
19. Kirkpatrick AW, Brenneman FD, McLean RF et al. Is clinical exof raised intra-abdominal pressure in critically injured patients? Ca
20. Sugrue M, Bauman A, Jones F et al. Clinical examination intraabdominal pressure. World J Surg 2002; 26(12):1428-1431.
21. Castillo M, Lis RJ, Ulrich H et al. Clinical estimate compared tosurement. Crit Care Med 1998; 26[Suppl 1]:78A.
22. Platell CF, Hall J, Clarke G et al. Intra-abdominal pressure and reabdominal aorta. Aust NZJ Surg 1990; 60(3):213-216.
23. Del Peso G, Bajo MA, Costero O et al. Risk factors for abdominneal dialysis patients. Perit Dial Int 2003; 23(3):249-254.
24. Fischbach M, Terzic J, Gaugler C et al. Impact of increased intraance and dialysis effectiveness in children. Adv Perit Dial 1998; 1
25. Fischbach M, Terzic J, Provot E et al. Intraperitoneal pressure in cimpacted by body mass index. Perit Dial Int 2003; 23(4):391-394
26. Pouliart N, Huyghens L. An observational study on intraabdomipatients. Crit Care 2002; 6[Suppl 1]:S3.
27. Darovic GO, Vanriper S, Vanriper J. Dynamic response propertieIn: Darovic GO, ed. Hemodynamic monitoring. Philadelpjia: WB
28. Kleinman B, Powell S, Kumar P et al. The fast flush test measurentire blood pressure monitoring system. Anesthesiology 1992; 77
29. Kron IL. A simple technique to accurately determine intra-abdo1989; 17(7):714-715.
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CHAPTER 4
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Abdominal Perfusion PressureMichael L. Cheatham* and Manu L. N. G. Malbrain
Summary
Elevated intra-abdominal pressure (IAP) is commonly encand is associated with significant morbidity and mortality. Tend-organ dysfunction varies from patient to patient as
physiology and preexisting comorbidities. As a result, a single thre
globally applied to the decision making of all critically ill patientsperfusion pressure” (APP), defined as mean arte rial pressure (Monly the severity of IAP present, but also the adequacy of the pat APP is superior to both IAP and global resuscitation endpoints sucand arterial lactate in its ability to both predict patient outcome anfor guiding the resuscitation and management of the patient with
Introduction Although initially recognized almost 150 years ago, the path
elevated intra-abdominal pressure (IAP) have essentially been redidecade.1-15 Elevated IAP or “intra-abdominal hypertension” (IAHfied in the critically ill and acknowledged as a cause of significant mIAH has been recognized as a continuum of pathophysiologic chablood flow disturbances and ultimately culminating in the IAP-inknown as the “abdominal compartment syndrome” (ACS). A relogic study found IAH (defined as IAP ≥ 12 mm Hg) to be prmedical and surgical intensive care unit (ICU) patients and ACS (with one or more organ failures) to be present in 8% 16 The p
Abd70
As our recognition of the detrimental effects of elevated IAP hstanding of what constitutes IAH. Whereas early studies suggestedHg was acceptable, we now recognize that even small elevations inh d i d f i d i
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have a tremendous impact on end-organ perfusion and patient onition of IAH has required continual adjustment over the yearmandates intervention has been revised downward.5,7,18,22 The pdeveloping IAH and ACS have also been expanded. Originallytraumatically injured, IAH and ACS have now been recognized topopulations. The acuity of onset and presence of preexisting com
identified to exert a significant impact upon the presentation and Age, obesity, prior pregnancy, mechanism of injury, pulmonary, or failure, need for mechanical ventilation, and development osponse syndrome (SIRS) have all been recognized to modulate thate treatment of these critically ill patients.
During the early evolution of our understanding of IAH and identify a single threshold value of IAP that could be simply and
sion making of all critically ill patients with IAH. The “critical Ition may well be considered the “holy grail” of IAH and ACS reseoversimplifies what is actually a highly complex and variable physa major determinant of patient outcome during critical illness, th
ACS clearly varies from patient to patient and even within the process evolves. Within the clinically acceptable ranges, IAP ispredictor of illness and resuscitation adequacy. Improving the
would require allowing patients to maintain higher IAP values. Sare well-known to cause end-organ malperfusion and such a praacceptable given our current understanding of the morbidity aalthough a useful screening tool, IAP lacks sufficient sensitivity tendpoint. Given the marked variation in IAP values that may be it is unlikely that a single threshold value of IAP will ever be univcally ill patients.
An alternative approach to improving the sensitivity of IAP is ment of abdominal perfusion as a resuscitation endpoint. Analoand utilized concept of cerebral perfusion pressure (CPP), calcula(MAP) minus intracranial pressure (ICP), the abdominal perfusio
MAP i IAP h b d k
Abdominal Perfusion Pressure
Cardiovascular As originally described over 80 years ago by Emerson, rising
h h h l d d i i f h di h25
I
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pressure through cephalad deviation of the diaphragm. Increasnificantly reduces venous return and cardiac output and compressnary parenchyma raising systemic vascular resistance.13,26-30 Suchonstrated to occur at an IAP of only 10 mm Hg.26,30 Hypovolemic cardiac contractility, and those requiring positive pressure ventilations in cardiac output at lower levels of IAP than do normovolem
Pulmonary Increases in intrathoracic pressure, through cephalad elevationin extrinsic compression of the pulmonary parenchyma with devesis, decreased diffusion of oxygen and carbon dioxide across thebrane, and increased intrapulmonary shunt fraction and alveolarfunction begins at an IAP of 15 mm Hg and is accentuated by thIn combination, these effects lead to the arterial hypoxemia and h
ACS.7,26,30
Renal Elevated IAP significantly decreases renal artery blood flow an
leading to renal dysfunction and failure.31,32 Oliguria develops aanuria at 30 mm Hg in the presence of normovolemia and at lowe with hypovolemia.32 Renal perfusion pressure (RPP) and renal fbeen proposed as key factors in the development of IAP-induced mechanical force across the glomerulus and equals the difference btion pressure (GFP) and the proximal tubular pressure (PTP).
FG = GFP - PTP
In the presence of IAH, PTP may be assumed to equal IAP a
MAP - IAP. The FG can then be calculated by the formula:FG = MAP - 2 x IAP
Thus, changes in IAP have a greater impact upon renal functioill h i MAP I h ld b i i h f h
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Table 1. The cranial and abdominal compartments
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Hepatic Hepatic artery blood flow is directly affected by IAP-induced
while hepatic vein and portal vein blood flow are reduced by exchanges have been documented with IAP elevations of only 10 mboth normal cardiac output and mean arterial blood pressure.28
Theory
The perfusion pressure of any anatomic compartment is depe1. the arterial inflow pressure2. the venous outflow pressure3. the compliance or ability of the compartment to expand in r
Perhaps the most clinically accepted example of perfusion prtized brain. As the brain is enclosed within a bony “box” and genconfines of the skull, cranial compliance becomes a minor issue a
arterial inflow (MAP) minus venous outflow (ICP). MAP is deteume, cardiac contractility, and systemic vascular resistance whilerespective volumes of the brain, cerebrospinal fluid, intracranial blolesion such as hematoma or tumor. By the Monro-Kellie Doctrin
Cranium Abdomen
Organ(s) Brain Liver, spleenFluid(s) Cerebrospinal fluid Ascites, air, Enclosure Skull Abdominal cLesions Tumor, hematoma Blood, edem
Pressure ICP IAPPerfusion CPP = MAP - ICP APP = MAP
ICP: intracranial pressure; IAP: intra-abdominal pressure, CPP: cerebraarterial pressure, APP: abdominal perfusion pressure
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Table 2. Resuscitative endpoints in IAH / ACS stratified by s
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mm Hg achieved a sensitivity of 70% and specificity of 72%, thnow recognized as being clinically acceptable and its application wfor significant end-organ malperfusion. Within the currently advoHg, IAP was specific, but not sensitive for predicting patient ouclinically superior resuscitation endpoint and predictor of patientIAH and ACS as it addresses not only the severity of IAH, but alsperfusion.
To evaluate the clinical validity of various resuscitation endptients with IAH, Malbrain et al prospectively evaluated 8 patients an abdominal binder to reduce postoperative dehiscence and incisto increase significantly upon application of the abdominal bindecardiac output and increases in central venous and pulmonary apearing within 30 to 45 minutes. With elevations in IAP, viscer
denced by decreased APP, FG, arterial pH, intramucosal pH (pcosal carbon dioxide difference (CO2-gap). The addition of pos(PEEP) of 15 cm H2O in combination with elevated IAP had evon APP and visceral perfusion. These effects were reversible wb d ( k bd l d ) d d
Significance of MuSurvivors Non-Survivors
Hourly urine output (mL/h) 113 ± 112 79 ± 111APP (mm Hg) 69 ± 17 61 ± 18Arterial l actate (mmol/L) 2.9 ± 1.5 4.5 ± 2.5
MAP (mm Hg) 88 ± 15 85 ± 15Arterial pH 7.34 ± 0.08 7.27 ± 0.10Base deficit 3.6 ± 4.8 7.5 ± 5.6IAP (mm Hg) 20 ± 6 24 ± 8
MAP: mean arterial pressure; IAP: intra-abdominal pressure; APP: ab
Abdominal Perfusion Pressure
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visceral perfusion. Abdominal decompression increased APP anddominal perfusion. Regional markers of perfusion adequacy such as
were noted to change more rapidly than global indices such as Mand calculated bicarbonate (HCO3
-) suggesting that the regional tation endpoints.
Malbrain et al subsequently prospectively studied the develop
Figure 1. Receiver operator characteristic (ROC) curves for IAP and APpoints. IAP: intra-abdominal pressure; APP: abdominal perfusion pressu
Abd76
Table 4. Sensitivity and specificity for predicting patient sur
intra-abdominal hypertension and abdominal comp
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associated with the development of IAH included acidosis, hy
volume resuscitation, coagulopathy, sepsis, abdominal surgery, ileIAP was significantly correlated with the development of both org was significantly lower among nonsurvivors (54 ± 16 vs. 69 ± 2MAP (68 ± 15 vs. 81 ± 23 mm Hg; p<0.0001) while IAP was sign
intra abdominal hypertension and abdominal comp
Cheatham18 Malbrain24
SENS SPEC SENS SPEC
APP40 mm Hg 0.53 0.78 0.14 0.9850 mm Hg 0.76 0.55 0.39 0.9160 mm Hg 0.92 0.25 0.55 0.7670 mm Hg 0.97 0.18MAP60 mm Hg 0.23 0.87 0.34 0.87
70 mm Hg 0.57 0.60 0.58 0.6480 mm Hg 0.83 0.21 0.74 0.42IAP12 mm Hg 0.05 1.0 0.44 0.9315 mm Hg 0.05 1.0 0.23 0.9720 mm Hg 0.16 0.85 0.06 0.9925 mm Hg 0.32 0.86
30 mm Hg 0.70 0.7235 mm Hg 0.80 0.4740 mm Hg 0.89 0.32
MAP: mean arterial pressure; IAP: intra-abdominal pressure; APP: ab
Abdominal Perfusion Pressure
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6 mm Hg. IAH > 12 mm Hg within 48 hours of study inclusion Outcome data on 46 patients showed a 28-day mortality of 63%presence of IAH although nonsurvivors had a significantly higher
(Fig. 2). There was also a trend towards a more positive daily fluidfluid balance in nonsurvivors. Thus, the incidence of IAH is highassociated with significant mortality that is underestimated bySHARF-II score better predicts outcome in these patients. The p APP by day 3 was able to discriminate between survivors and nonof IAP and APP therefore seems warranted in patients with ARF.
Clinical ApplicationEarly goal-directed therapy to restore end-organ perfusion andlar level is essential to reducing patient morbidity and mortalitypatient to patient, IAP alone cannot serve as a therapeutic goal in
Figure 2. Evolution of IAP and APP in patients with acute renal failuresurvivors. IAP: intra-abdominal pressure; APP: abdominal perfusion pres
Abd78
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Abdominal Perfusion Pressure
Third, in patients with IAH not requiring immediate decomprtained above 50-60 mm Hg through a combination of volume medications. Intravascular volume status should be optimized, witfor those patients who continue to demonstrate an inadequate A
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p qume resuscitation. The use of volumetric measurements of intravthe right ventricular end-diastolic volume index (RVEDVI) or (ITBV) should be considered.40,41 Traditional intracardiac fillingas pulmonary artery occlusion pressure (PAOP) and central venourate in the presence of IAH and elevated intrathoracic pressure an
eters may lead to underresuscitation.
40
Fourth, inability to maintain an APP of at least 50 mm Hg idominal decompression and temporary abdominal closure until sucstatus improves. Once the patient’s abdomen is open, IAP shouldIAH and ACS, contrary to popular belief, can recur despite an op with an open abdomen, inability to maintain an adequate APP isthe patient’s abdomen further through either a larger laparotom
more compliant temporary abdominal closure.Fifth, attempts to close the patient’s abdomen following decomby the patient’s IAP and APP. APP can be utilized to guide not o when to perform a decompressive laparotomy, but also the frequesion of when and how to perform abdominal closure. Persistent ginal APP calculations should lead to a surgical decision for split-exposed viscera as opposed to attempts to close the patient’s abdom
latter will undoubtedly result in recurrent IAH, decreased visceralof incisional dehiscence.
In summary, the simple calculation of APP is superior to IAPpoint in patients with IAH or ACS as it assesses both the severityend-organ perfusion. APP is also superior to global markers of rearterial pH, base deficit, and arterial lactate in its ability to quicklyperfusion. An APP of 50 mm Hg or greater should be consideredthe patient with elevated IAP.
Commentary
Abd80
References1. Schein M, Ivatury R. Intra-abdominal hypertension and abdomin
Surg 1998; 85:1027-1028.
2. Bendahan J, Coetzee CJ, Papagianopoulos C et al. Abdominal co1995 38 152 153
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1995; 38:152-153.3. Schein M, Wittmann DH, Aprahamian CC et al. The abdomin
physiological and clinical consequences of elevated intra-abdominal180:745-753.
4. Ivatury RR, Diebel L, Porter JM et al. Intra-abdominal hypertensiment syndrome. Surg Clin N Am 1997; 77:783-800.
5. Burch JM, Moore EE, Moore FA et al. The abdominal compartm1996; 76:833-842.
6. Saggi BH, Sugerman HJ, Ivatury RR et al. Abdominal compartm45:597-609.
7. Cheatham ML. Intra-abdominal hypertension and abdominal comzons 1999; 7:96-115.
8. Mayberry JC, Mullins RJ, Crass RA et al. Prevention of abdomabsorbable mesh prosthesis closure. Arch Surg 1997; 132:957-962
9. Rotondo MF, Schwab W, McGonigal MD et al. Damage control:vival in penetrating abdominal trauma. J Trauma 1993; 35:375-3
10. Chang MC, Miller PR, D’Agostino R et al. Effects of abdominal nary function and visceral perfusion in patients with intra-abdomin44:440-445.
11. Ivatury RR, Porter JM, Simon RJ et al. Intra-abdominal hyperteetrating abdominal trauma: Prophylaxis, incidence, and clinical rand abdominal compartment syndrome. J Trauma 1998; 44:1016
12. Sugrue M, Buist MD, Hourihan F et al. Prospective study of inrenal function after laparotomy. Br J Surg 1995; 82:235-238.13. Cullen DJ, Coyle JP, Teplick R et al. Cardiovascular, pulmonary
increased intra-abdominal pressure in critically ill patients. Crit C14. Sugrue M, Jones F, Jangua KJ et al. Temporary abdominal closure
effects on renal and respiratory physiology. J Trauma 1998; 45:9115. Meldrum DR, Moore FA, Moore EE et al. Prospective characteriz
of the abdominal compartment syndrome. Am J Surg 1997; 174:6
16. Malbrain MLNG, Chiumello D, Pelosi P et al. Prevalence of icritically ill patients: A multicentre epidemiological study. Intensiv17. Cheatham ML, Safcsak K, Llerena LE et al. Long-term physical
quences of abdominal decompression. J Trauma 2004; 56:237-24218 Cheatham ML White MW Sagraves SG et al Abdominal perfus
Abdominal Perfusion Pressure
28. Diebel LN, Wilson RF, Dulchavsky SA et al. Effect of increased patic arterial, portal venous, and hepatic microcirculatory blood flo
29. Ridings PC, Bloomfield GL, Blocher CR et al. Cardiopulmonary
pressure before and after intravascular volume expansion. J Traum30. Simon RJ, Friedlander MH, Ivatury RR et al. Hemorrhage lowers t
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J, , y ghypertension-induced pulmonary dysfunction. J Trauma 1997; 42
31. Bradley SE, Bradley GP. The effect of increased intra-abdominaman. J Clin Invest 1947; 26:1010-1015.
32. Harman PK, Kron IL, McLachlan HD et al. Elevated intra-abdom Ann Surg 1982; 196:594-597.
33. Ulyatt DB. Elevated intra-abdominal pressure. Australian Anaes 19
34. Caldwell CV, Ricotta JJ. Changes in visceral blood flow with elevSurg Res 1987; 43:14-20.
35. Friedlander MH, Simon RJ, Ivatury R et al. Effect of hemorrhagflow during increased intra-abdominal pressures. J Trauma 1998;
36. Diebel LN, Myers T, Dulchavsky S. Effects of increasing airway pment of cardiac preload. J Trauma 1997; 42:585-591.
37. Diebel LN, Dulchavsky SA, Brown WJ. Splanchnic ischemia anabdominal compartment syndrome. J Trauma 1997; 43:852-855.
38. Gargiulo NJ, Simon RJ, Leon W et al. Hemorrhage exacerabtes baof intra-abdominal pressure. Arch Surg 1998; 133:1351-1355.
39. Smith ER, Carter BS, Ogilvy CS. Proposed use of prophylacticpoor-grade aneurismal subarachnoid hemorrhage patients presentihematomas. Neurosurgery 2002; 51:117-124.
40. Cheatham ML, Safcsak K, Block EFJ et al. Preload assessment in p J Trauma 1999; 46:16-22.
41. Rotondo MF, Cheatham ML, Moore FA et al. Abdominal compar
2003; 59:260-270.
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CHAPTER 5
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Prevalence and Incidenceof Intra-Abdominal HypertensioDries H. Deeren and Manu L. N. G. Malbrain*
Definitions
P revalence and prevalence rate are respectively the number anin a given population (an ICU for example) who have a p
IAH) at a specified point in time or over a specified peridistinct from incidence, which refers to the number of new caseperiod in a specified population. The incidence rate is the numbthis population per unit of person-time at risk (expressed as peincidence is defined as the proportion of persons at risk who devduring a specified period of observation (for example during thei
To Compare Cats and Dogs We are chiefly interested in the incidences of IAH and ACS
tients. However, even within the subgroups of trauma, burn, potients, a number of problematic issues may hamper the compariby different researchers. The study populations may differ in surgfascial closure, mesh closure, abdominal packing), resuscitation p
IV fluids administered), trauma severity, percentage total body sand emergency versus elective surgery. Using various techniquestinely in every patient, or only when clinically indicated. ACS canor based on IAP measurements. Likewise, IAH can be defined
Prevalence and Incidence of Intra-Abdominal Hypertension
Prevalence RateIn a multicentre, prospective one-day prevalence study, IAP w
bladder catheter according to the modified Krohn technique
2
evein all patients hospitalised for more than 24 hours in 13 ICU’s.3 IA
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IAP of 12 mm Hg or more, and ACS as a maximal IAP of 20 mmat least one organ failure. The mean IAP was 9.8 mm Hg (± 4.7 staICU patients, the prevalence rate of IAH was 54.4% (31/57), whigher (65% or 26/40) in surgical ICU patients. Overall the prevaor 58.8%, and 8.2% of all patients classified as ACS. The mean C
from 11.8% to 46.3% among different centres.4
Cumulative Incidence
Mixed ICU Population An international multicentre group recently performed an im
miologic study of IAH in a mixed ICU population.5 Two hund
tients (mean APACHE II score 17.4) who stayed more than 24 hpating ICU’s were followed until death, hospital discharge, or Medical patients accounted for 46.8%, whereas elective surgery, empatients accounted for 27.9%, 16.6% and 8.7% of all study patieIAP was measured in stable conditions. IAH was said to be presentwo daily IAP measurements was higher than 12 mm Hg. ACS above 20 mm Hg was associated with at least one organ failure.
On admission, 32.1% had IAH and 4.2% had ACS, althoughdecompressive laparotomy. Importantly, unlike the occurrence orence of IAH during ICU stay was an independent predictor of mtors of IAH at day one were liver dysfunction, abdominal surgery, than 3500 mL during the 24 hours before inclusion, and ileus.
Burn PatientsData on the cumulative incidence of IAH and ACS in burn pat
As expected, the occurrence of IAH was significantly correlated toinfused fluids.6-8 Interestingly, in Hobson’s study, patients with ACACS d l i ithi th fi t 24 h ft d i i ( l t d
Abd84
Cum
ulative
Incidence
36.7%
70%
20%
69%31%
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burnpatients
C
n
Age*
TBSABurned*
Period
Outcome
Criteri
a
I
30
5.5y
56%
burnunitstay
IAH
≥
30m
mHg†
3
10
48y
46%
burnresuscitation
IAH
≥
25m
mHg†
7
ACS
IAHpluspulmonary/
renalc
omplications
2
13
23y
57%
NR
IAH
≥
25m
mHg†
6
ACS
≥
30m
mHg†despite3
periton
ealcatheter
decom
pression
at25m
mHg
Prevalence and Incidence of Intra-Abdominal Hypertension
Cum
ulative
Incidence
33%
38.4
%
40.7
%
31.5
%
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ativepatients
n
Age*
A
PACHEII*
Perio
d
Outcome
C
riteria
88
63y
13.5
ICUstay
IAH
≥
20mmHg†
mergencysurgery)
73
62y
16
ICUstay
IAH
≥
20mmHg†
mergencysurgery)
263
61y
14.6
ICUstay
IAH
≥
18mmHg†
emergency
surgery)
108
54y
NR
≥
72
h
IAH
≥
25mmHg‡
Abd86
Cumulative
Incidence
15%14%
o-s3
2.9%
0.5%
50%
5.5%
us
33%
o-s
36%
Hg
2%
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traumapatients
n
Age*
ISS*
Period
Outcome
Criteria
y
10
7
32.1y‡
32.5‡
hospitalstay
ACS
Clinical
14
5
39y§
26
§
ICUstay
ACS
>20m
mHg†plus
pulmonary/renal/cardi
vascularcomplications
70
28.2y
21
,8
ICUstay
IAH
persistently%Q
>25cmH 2O
ury
1216
36y§
25
§
ICUstay
ACS
decom
pressive
laparotomyperformed
42
44y
36
first5days
IAH
>10m
mHg†
y
31
1
37.7y
29
.5
hospitalstay
ACS
clinica
l
y
52
33y
28
hospitalstay
ACS
>20cmH 2O†%Qplu
pulmonary/renal/cardio
vascularcomplications
y
77
35y
29
ICUstay
ACS
>20m
mHg†plus
pulmonary/renal
complications
70
6
42y
18
ICUstay
IAH
Persistently>20mmH
Prevalence and Incidence of Intra-Abdominal Hypertension
Consistently, studies demonstrated that primary fascial closurrisk of IAH.18-21 However, even with attempted prophylaxis by tplied, prosthetic mesh for temporary abdominal closure, 25%
abdominal trauma developed IAH.18
In a large review of the charts of trauma patients without abd
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In a large review of the charts of trauma patients without abdvery early in the time course of fluid resuscitation.22 The averdecompressive laparotomy was 18 hours in all patients, 3.1 hours nonsurvivors. Supranormal resuscitation, compared with normadelivery index of respectively > 600 mL/min/m2 and > 500 mL/m
an increased incidence of IAH and ACS.
23
Medical PatientsUnlike on prevalence, data on the incidence of IAH and ACS
been published yet. Medical reason for admission did however atients in the above mentioned mixed ICU study.5
ConclusionThe incidence of IAH is difficult to determine and dependent of IAP, the definition of IAH and the study population. Howetrauma and medical ICU patients, its incidence is high and it can the time course of resuscitation even when there was no primary aICU population, 32.1% developed IAH and 4.2% ACS on the f
Commentary Rao R. Ivatury
Deeren and Malbrain have discussed nicely the problems in estof IAH and ACS in our patients. They have underscored that it vpopulation, the method of measuring IAP and the definition of I
another important factor is the admission of the existence of theserized data in the Tables should convince the clinicians that the cuall surgical patients. The more one looks for these adverse events,
Abd88
10. Biancofiore G, Bindi ML, Romanelli AM et al. Intra-abdominal prplant recipients: A prospective study. Intensive Care Med 2003; 2
11. Sugrue M, Buist MD, Hourihan F et al. Prospective study of in
renal function after laparotomy. Br J Surg 1995; 82(2):235-238.12. Sugrue M, Jones F, Deane SA et al. Intra-abdominal hypertenspostoperative renal impairment Arch Surg 1999; 134(10):1082-10
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postoperative renal impairment. Arch Surg 1999; 134(10):1082-1013. Sugrue M, Jones F, Lee A et al. Intraabdominal pressure and gast
association? World J Surg 1996; 20(8):988-991.14. Meldrum DR, Moore FA, Moore EE et al. Prospective characteriz
of the abdominal compartment syndrome. Am J Surg 1997; 174(6)15. Raeburn CD, Moore EE, Biffl WL et al. The abdominal comp
complication of postinjury damage control surgery. Am J Surg 2016. Morris Jr JA, Eddy VA, Blinman TA et al. The staged celiotomy
and reconstruction. Ann Surg 1993; 217(5):576-584, (discussion 17. Ertel W, Oberholzer A, Platz A et al. Incidence and clinical pat
ment syndrome after “damage-control” laparotomy in 311 patientpelvic trauma. Crit Care Med 2000; 28(6):1747-1753.
18. Ivatury RR, Porter JM, Simon RJ et al. Intra-abdominal hyperteetrating abdominal trauma: Prophylaxis, incidence, and clinical r
and abdominal compartment syndrome. J Trauma 1998; 44(6):10119. Offner PJ, de Souza AL, Moore EE et al. Avoidance of abdom
damage-control laparotomy after trauma. Arch Surg 2001; 136(6)20. Hong JJ, Cohn SM, Perez JM et al. Prospective study of t
intra-abdominal hypertension and the abdominal compartment syndr596.
21. Balogh Z, McKinley BA, Holcomb JB et al. Both primary and secsyndrome can be predicted early and are harbingers of multiple
54(5):848-859, (discussion 859-861).22. Maxwell RA, Fabian TC, Croce MA et al. Secondary abdomin
underappreciated manifestation of severe hemorrhagic shock. J Tr23. Balogh Z, McKinley BA, Cocanour CS et al. Supranormal trauma
of abdominal compartment syndrome. Arch Surg 2003; 138(6):6324. Kirkpatrick AW, Brenneman FD, McLean RF et al. Is clinical ex
of raised intra-abdominal pressure in critically injured patients? C
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status.1-7 The advantages of this “early goal-directed therapy” arpatient with elevated intra-abdominal pressure (IAP) who may m
i di l l h i i i l d
Figure 1. Correlation between intra-abdominal and intrathoracic pressurelation (p<0.001) correlation has been demonstrated between intra-abdomracic pressure (Ppleural) in patients with elevated IAP.
Intra-Abdominal Hypertension and the Cardiovascular System
impacts upon all three of these interrelated components and reslevels is essential to improving systemic perfusion, oxygen transoutcome.
Preload Ad i l l l d h i h h i
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Adequate intravascular volume or preload to the right heart isof any critically ill patient who demonstrates malperfusion at eitheLoss of intravascular fluid volume may be either absolute, as occutive, where mechanical obstruction to blood flow impedes venoutients with IAH/ACS, elevated intra-thoracic pressure decreases brior vena cava (IVC) and limits blood return from below the diaphrmanner.9-11 IVC pressure increases significantly in the presence ostrated to parallel changes in IAP. IVC pressure has even been aintravesicular pressure monitoring.12,13 Cephalad deviation of thmechanical narrowing of the IVC as it passes through the diaphraing blood return to the heart.14,15 Richardson et al and Diamant strated in animal models that an IAP of only 10 mm Hg can sigflow and cardiac preload.11,16 These effects have been widely wiintroduction of laparoscopic surgery where abdominal insufflatiomonly causes decreased venous return and hypotension that are re As demonstrated by Bloomfield et al, reduced intra-thoracic prestomy or other method improves venous return and normalizes ca
Reduced preload to the heart will have the immediate effect
through decreased stroke volume. This can be especially pronounrent hypovolemia. Kashtan et al demonstrated that increasing IAcardiac output by 53% in hypovolemic and by 17% in normovolehave been demonstrated in humans where hypovolemic patients in cardiac output at lower levels of IAP than do normovolemicpatients actually demonstrate increased venous return in the princreases in IAP, suggesting that volume resuscitation may have a p
tenance of adequate intravascular volume will, to a point, overcoand anatomic restrictions to IVC blood flow, restoring systemic pever, abdominal decompression and treatment of the patient’s IAHnormal IVC blood flow and structural integrity Patients with u
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decrease in right ventricular ejection fraction (RVEF) and increasand myocardial oxygen demand. This increased oxygen requiremcrease in right ventricular work requirement, places the myocardi
ischemia and further reductions in right ventricular contractility. enlarges within a closed pericardium, the interventricular septum
l h b d l f l f h d
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tricular chamber impeding left ventricular function with decreasduced left ventricular output may contribute to the developme
worsening right coronary artery blood flow. Right ventricular dyin the presence of marked IAH leading to significant reductions inas a result of “ventricular interdependence”. Initially responsive tosupport at lower levels of IAH, the reduced biventricular contra
ACS can only be treated by decompressive laparotomy with its resintra-thoracic pressure.
Afterload Elevated intra-thoracic pressure and IAP can cause increased
(SVR) through direct compressive effects on the aorta and systemPVR through compression of the pulmonary parenchyma.15,17,31,
increased SVR occurs as compensation for the reduced venous retoutlined above. As a result of this physiologic compensation, mtypically remains stable in the early stages of IAH/ACS despite redcardiac output. These increases in afterload may be poorly toleratcardiac contractility or inadequate intravascular volume.5,20-23 Th
in patients who develop pulmonary hypertension as a result of intcompression of the pulmonary parenchyma and alveolar overdisterequirements. The resulting increase in PVR may lead to increaseand right heart failure as discussed above. Preload augmentationtion appears to ameliorate, at least partially, the injurious effects afterload.9-11,17,31,32
Hemodynamic MonitoringThe past decade has seen much debate as to the safety, efficac
namic monitoring in the critically ill. With increasing emphasis u
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Inaccuracy of Intracardiac Filling PressuresBy the Frank-Starling principle, ventricular preload is define
length at end-diastole (Fig. 2). Ideally, the appropriate clinical corlar end-diastolic volume (LVEDV), but this physiologic parameteserial basis. If we assume that a patient’s ventricular compliance rventricular volume should be reflected by changes in ventricular ing relationships:
Compliance = Δ Volume / Δ Pressure and Δ Volume = Δ Pr
Based upon the assumption of stable ventricular compliance, pas left ventricular end-diastolic pressure (LVEDP), left atrial preartery occlusion pressure (PAOP), obtained via a PAC, have lonsurrogate estimates of intravascular volume Although likely valid
Figure 2. “The PAOP assumption”: why intracardiac filling pressures dostatus. LVEDV= left ventricular end-diastolic volume; LVEDP= left veLAP= left atrial pressure; PAOP= pulmonary artery occlusion pressure. Right ventricular end-diastolic volume measurements in the resuscitationCare 2000; 7:165-176.)
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increase with rising intra-thoracic pressure despite the reduced veput that is characteristic of elevated intra-thoracic pressure.5,10,15
deviation from Starling’s Law of the Heart is due to the fact th
measured relative to atmospheric pressure and are actually the susure and intrapleural pressure. As a result, in the patient with IAHpressure PAOP and CVP tend to be erroneously elevated and no
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pressure, PAOP and CVP tend to be erroneously elevated and nocular volume status (Fig. 2: PAOP and CVP plots). Multiple stureliance on such measurements to guide fluid resuscitation in patienpressure may lead to under-resuscitation and inappropriate admintions.24,32,35,37,38 Attempts to correct for this measurement errotransmural pressure (i.e., PAOP minus pleural pressure) has idendecreases with rising intra-thoracic pressure, correctly reflecting and cardiac preload.39
Third, elevated IAP as a result of IAH/ACS has been documenpressure through cephalad elevation of the diaphragm and similapretation of PAOP and CVP measurements.5,24,30,32,37 Such althave been demonstrated with an IAP of only 10 mm Hg.36 Despitand CVP values, fluid resuscitation commonly results in improvperfusion in patients with IAH.5,24,32 Failure to appropriately erroneously elevated PAOP and CVP measurements may resul
worsened end-organ perfusion and failure as these elevated intrartificial and do not reflect the patient’s true preload status.
Fourth, mitral valve disease can confound the use of PAOP a
volume status. Mitral valve stenosis and regurgitation both interftween LAP and PAOP making the latter less indicative of left ventof mitral valve disease typically results in elevated PAOPunder-resuscitation.
Fifth, accurate PAOP measurements are dependent upon prCompression of the pulmonary parenchyma as a result of elevatenormal progression of alveolar distention and pulmonary capill
West’s lung zones I, II, and III.40
Loss of thoracic cavity volume tion of the diaphragm decreases the size of all three lung zones, buand basilar zone III. The use of positive pressure ventilation avolume oxygenation and ventilation increases the relative size of
Intra-Abdominal Hypertension and the Cardiovascular System
avoided as such a practice can lead to inappropriate therapeutic dand organ failure.
Use of Transmural Cardiac Filling Pressures Assuming proper placement of a PAC and the absence of othe
mural PAOP and CVP may be appropriately represented by the f
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mural PAOP and CVP may be appropriately represented by the f
PAOPtm = PAOPee - Ppl
CVPtm = CVPee - Ppl
where tm = transmural, ee = end-expiratory, and Ppl = pleural preIn patients with elevated intra-thoracic pressure due to acute
some authors have advocated the practice of measuring PAOP patient’s airway (the so-called “pop-off” PAOP) in an attempt tPpl.
43 Such a practice would not be valid in the patient with elreduce the contribution of IAP to the patient’s Ppl. Safcsak et al ctuting esophageal pressure for Ppl, but did not find this to improv
alone to predict preload recruitable increases in cardiac output.44 Mated four equations for determining PAOPtm in 5 patients with IA20 cm H2O.45
PAOPtm = PAOPee - Ppl
PAOPta = PAOPee - IAP
where ta = transabdominalPAOPtm = PAOPee - it x PEEP
where it = index of transmission calculated as:
ΔPAOP/DPalv = (PAOPei - PAOPee)/(Pplat - PEEP)
PAOPtm = 0.8 x PAOPee - 0.1 x PEEP - 0.6 x IAP + 0.02 x C
Confirming the findings of previous authors, a significant coIAP and Ppl with approximately 80% of the IAP being transmittpartment (Ppl = 0 8 x IAP + 1 6 (R2=0 8 p<0 0001) Malbrain co
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Figure 3. PAOP, CVP, and RVEDVI as estimates of intravascular preloadand inverse correlation between CI and PAOP or CVP respectively in the prepressure, apparently contradicting Starling’s Law of the heart. Figure 3Cbetween peak airway pressure and end-expiratory PAOP, demonstrating th
and intra-abdominal pressure on PAOP and CVP measurements and thePAOP calculations. Figure 3D depicts the strong correlation between CI andas described by Starling. (CI= cardiac index; PAOP= pulmonary artery ovenous pressure; RVEDVI= right ventricular end-diastolic volume index
Intra-Abdominal Hypertension and the Cardiovascular System
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mathematically coupled variables. Chang, Durham, and Nelson potential impact of mathematical coupling on the reliability of RVpreload adequacy.47,48,52 Chang independently measured cardiacetry and demonstrated a significant correlation between mathemthermodilution RVEDVI.48 Durham used mathematical modeli
measurement error introduced by mathematical coupling and foucorrelated with RVEDVI.47 Nelson compared CI with RVEDVusing two different thermodilution technologies and further conftion between mathematically uncoupled CI and RVEDVI 52
Figure 4. Continuous vs. intermittent cardiac output during patient reoutput (solid line) vs. intermittent cardiac output measurements (diamondof a critically ill patient. Continuous cardiac output technology provides signature of the critically ill patient previously unavailable with conventio(Adapted from Cheatham ML. Right ventricular end-diastolic volume mof trauma victims. Int J Crit Care 2000; 7:165-176.)
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Clinical experience with this new technology has further confstantly changing cardiopulmonary state exhibited by these criticahemodynamic changes may either be missed completely by interm
surements or not identified until potentially devastating events hogy is capable of identifying these potentially untoward changeallowing appropriate interventions to be made at an earlier point
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g pp p pmixed or central venous oximetry, CCO technology provides cupdated, on-line assessment of oxygen transport balance and sysguide patient resuscitation, reduce organ dysfunction and failurcome.
Pulse Contour Analysis and Volumetric Assessment viThermodilution
With the concern over the safety and efficacy of the PAC in maseveral less invasive hemodynamic monitoring technologies have bstroke volume based upon analysis of a patient’s arterial pressure w
proposed almost 100 years ago and is dependent upon stroke volof the arterial tree: resistance, compliance, and impedance. Overmathematical models have been suggested to improve the accuranation from the shape of the arterial pressure waveform. This tpulse contour analysis, has been proposed as a less invasive alternanamic monitoring as it requires only an arterial pressure catheter aboth of which are commonly present in most critically ill patient
Pulse contour analysis utilizes a bedside computer and dedicatcatheter to continuously analyze the patient’s heart rate and arcalculating the change in pressure over time from end-diastoleseveral assumptions regarding the elastic and mechanical propertinuous beat-to-beat SV can be estimated and CO calculated. Dcharacteristics of each patient’s arterial tree, initial calibration of the transpulmonary thermodilution technique and the Stewart
improves the accuracy of the stroke volumes subsequently calculchanging physiology and ventricular compliance of the critically ilbe performed at least every 8 hours and whenever patients demo
55
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pressure and IAP resulted in significant increases in PAOP and CVand ITBVI.59 Based upon these studies and others, it is clear thaintravascular volume and that these changes in preload status avolumetric measurements of intravascular volume such as RVEDnot by pressure-based measurements such as PAOP and CVP.
“Optimal” VolumesThe initial studies describing the use of volumetric preload m
mal” RVEDVI values of approximately 130-140 mL/m2, and optimmL/m2, above which patients were felt to no longer respond to fu with increases in CI.37,47,49,61 As clinical experience with these techoptimal values have been disputed and found to oversimplify wh
dynamic relationship between preload, contractility, and afterloaddemonstrated that the patient’s RVEF must be taken into consiadequacy of RVEDVI values as a resuscitation endpoint.4,50
d l h ll ll b d b d
Figure 5. Ventricular function curves by RVEF. RVEDVI must be interpatient’s RVEF (RVEF= right ventricular ejection fraction; RVEDVI=rigume index). (Adapted from Cheatham ML. Right ventricular end-diasto
resuscitation of trauma victims. Int J Crit Care 2000; 7:165-176.)
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an RVEDVI of 200 mL/m2 would be required for a RVEF of volume has not changed. Thus, since ventricular compliance (anto change in the critically ill, there cannot be a single value of RV
the goal of resuscitation for all patients. As GEF and GEDVI regarding a patient’s ventricular contractility and preload, a similand GEDVI likely exists, although not yet clinically documente
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when interpreting GEDVI measurements. Assuming a normal RVEF, what RVEDVI then is sufficient to o
volume status? Several studies have demonstrated that certain tcorrelate with improved patient outcome following surgery or inju
documented a decreased incidence of multiple organ failure and daggressive volume resuscitation with maintenance of an RVED(mean RVEF 0.39) compared to those resuscitated to an RVEDVRVEF 0.39).7 Miller et al similarly identified improved visceral peand a reduction in organ dysfunction, organ failure, and patient RVEDVI of 120 mL/m2 (mean RVEF 0.33) compared to 100 mCheatham et al identified significantly higher RVEDVI values inand abdominal decompression with a mean RVEDVI of 133 mL/0.37) compared to 105 mL/m2 for nonsurvivors (mean RVEF 0.
Based upon these studies, a reasonable resuscitation protocol patients to a “RVEF-corrected” RVEDVI of 100 mL/m2, assuminmately 0.40. In analogy one might postulate to resuscitate patients tof 575 mL/m2, assuming normal GEF is approximately 0.30. P
GEF measurements are then resuscitated to proportionally higherFigure 6 provides some general guidelines for RVEF and GEF correcand GEDVI in normal and critically ill conditions. A patient wample, would be considered to have a target RVEDVI of 150 mRVEF of 0.20, an RVEDVI of 200 mL/m2. In analogy, a patienhave a target GEDVI value of 650 mL/m2 whereas a patient witha GEDVI of 800 mL/m2.
If, after achieving such levels of intravascular volume, the patiesigns of malperfusion, the target RVEDVI or GEDVI should be intaneously initiating vasoactive medications as necessary to optimand afterload (Table 1) The RVEF or GEF measurement is usefu
Intra-Abdominal Hypertension and the Cardiovascular System
Table 1. Suggested RVEF- and GEF-corrected target values fnormal and critically ill patients
“Normal” “Critically Ill” “No
RVEF RVEDVI (mL/m2) RVEDVI (mL/m2) GEF GEDVI
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comorbidities. As a result, a single threshold value of IAP cannodecision making of all critically ill patients. Calculation of the papressure” (APP), defined as mean arterial pressure (MAP) minuseverity of IAP present, but also the adequacy of the patient’s systedemonstrated to be superior to both IAP and global resuscitatio
pH, base deficit, and arterial lactate in its ability to predict patienanother useful parameter for guiding the resuscitation and manIAH or ACS.63,64 Any resuscitative strategy should incorporate mmm Hg in the patient with elevated IAP.
ConclusionsIAH and ACS have been increasingly recognized as causes o
mortality in the critically ill. Cardiovascular dysfunction, as a result pressure and IAP, plays a major role in the organ dysfunction aIAH/ACS. Aggressive hemodynamic monitoring and optimizati
RVEF RVEDVI (mL/m ) RVEDVI (mL/m ) GEF GEDVI
.20 200 240 .10 8
.25 175 210 .15 8
.30 150 180 .20 7.35 125 150 .25 6
.40 100 120 .30 5
.45 75 90 .35 5
.50 50 60 .40 4
Target RVEDVI and GEDVI values must be considered in light ofcontractility.
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the abdominal cavity itself but also of the global patient. The futthese two important topics to improve the outcome for what is a habdominal compartment syndrome.
References1. Shoemaker WC, Appel PL, Kran HB et al. Prospective trial of su
therapeutic goals in high risk surgical patients Chest 1998; 94:11
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therapeutic goals in high-risk surgical patients. Chest 1998; 94:112. Boyd O, Grounds RM, Bennett ED. A randomized clinical t
perioperative increase in oxygen delivery on mortality in high-risk270:2699-2707.
3. Wilson J, Woods I, Fawcett J et al. Reducing the risk of majo
controlled trial of preoperative optimisation of oxygen delivery. B4. Miller PR, Meredith JW, Chang MC. Randomized, prospective c
versus inotropes in the resuscitation of trauma patients: Effects onvisceral perfusion. J Trauma 1998; 44:107-113.
5. Cheatham ML, Safcsak K, Block EFJ et al. Preload assessment in J Trauma 1999; 46:16-22.
6. Rivers E, Nguyen B, Havstad S et al. Early goal-directed therapy and septic shock. NEJM 2001; 345:1368-1377.
7. Chang MC, Meredith JW. Cardiac preload, splanchnic perfusionresuscitation in trauma patients. J Trauma 1997; 42:577-584.
8. Coombs HC. The mechanism of the regulation of intra-abdomin61:159-170.
9. Caldwell CV, Ricotta JJ. Changes in visceral blood flow with eleSurg Res 1987; 43:14-20.
10. Kashtan J, Green JF, Parson EQ et al. Hemodynamic effects of
Surg Res 1981; 30:249-255.11. Richardson JD, Trinkle JK. Hemodynamic and respiratory alterationpressure. J Surg Res 1976; 20:401.
12. Lee SL, Anderson JT, Kraut EJ et al. A simplified approachintra-abdominal pressure. J Trauma 2002; 52:1169-1172.
13. Malbrain ML. Different techniques to measure intra-abdominal prreappraisal. Intensive Care Med 2004; 303:357-371.
14. Schein M, Wittmann DH, Aprahamian CC et al. The abdomin
physiological and clinical consequences of elevated intra-abdominal180:745-753.15. Luca A, Cirera I, García-Pagán JC et al. Hemodynamic effects of a
pressure in patients with cirrhosis. Gastroenterology 1993; 104:22
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26. Goodale RL, Beebe DS, McNevin MP et al. Hemodynamic, resplaparoscopic cholecystectomy. Am J Surg 1993; 166:533-537.
27. Baxter JN, O’Dwyer PJ. Pathophysiology of laparoscopy. Br J Sur28. MacDonnell SPJ, Lalude OA, Davidson AC. The abdominal com
ological and clinical consequences of elevated intra-abdominal pr1996; 183:419-420.
29. Eddy AC, Rice CL, Anardi DM. Right ventricular dysfunction inS 1988 155 712 715
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Surg 1988; 155:712-715.30. Cullen DJ, Coyle JP, Teplick R et al. Cardiovascular, pulmonary
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eter: Society of Critical Care Medicine membership survey. New H35. Calvin JE, Driedger AA, Sibbald WJ. Does the pulmonary capil
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lar and alveolar pressures. J Appl Physiol 1964; 19:713-724.41. Iberti TJ, Fischer EP, Leibowitz AB et al. A multicenter study o
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43. Teboul JL, Pinsky MR, Mercat A et al. Estimating cardiac filling lated patients with hyperinflation. Crit Care Med 2000; 28:3631-44. Safcsak K, Fusco MA, Miles WS et al. Does transmural pulmonary a
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CHAPTER 7
Intra-Abdominal Hypertension
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Intra-Abdominal Hypertensionand the Respiratory SystemIngrid R. A. M. Mertens zur Borg,* Serge J. C. Verbrand Claudia I. Olvera
Abstract
Significant increases in intra-abdominal pressure (IAP) a
conditions commonly encountered in the intensive care ument syndrome (ACS) describes the combination of increa
and organ dysfunction.4-6 The incidence of intra-abdominal hyvaries with the case mix studied and the cut-off pressure used tCongress on Abdominal Compartment Syndrome (WCACS) 20mm Hg, associated with single or multiple organ system failurpresent. Some authors report pulmonary dysfunction as the ear
This chapter will discuss the pulmonary derangements in ACS treatment principles for mechanical ventilation and pulmonary t
IntroductionThe majority of studies suggest that the highest incidence of
who have undergone emergency laparotomy for abdominal tra
resuscitation is a major contributory factor,
1-15
because massive vdominal distension, lung compression and chest wall stiffening.15
matic lung injury, fluid resuscitation, and supine positioning resular collapse (de-recruitment), worsening gas exchange, and decli
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Pulmonary Dysfunction with Increased Abdomi
Pulmonary Dysfunction Due to Pneumoperitoneum
Surgery Some evidence for the causes of the pathophysiological pulm
comes from studies of induced pneumoperitoneum during lapar
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individual ranges from slightly sub-atmospheric to approximatelythe respiratory cycle.17 Patients whose lungs are being mechanicincrease in IAP due to transmission of pleural pressures across th
toneum (PP) for laparoscopic operations decreases functional thoracopulmonary compliance may be reduced by 30 to 50%,patients.24,25 Lung and chest wall mechanical impedances increthese are completely reversible.26 Nevertheless, diaphragmatic fuimpaired after laparoscopy.27-29 Recent studies demonstrate that eof 10-15 mm Hg significant alterations in organ function can be
Moreover, if a patient is immobilized in the supine position for
atelectasis is seen after several hours. Sedation and analgesia furtcause of cephalad movement of the diaphragm into the thoracidorsal/dependent lung regions. General anaesthesia exacerbates thof neuromuscular blockade worsens it further.33
Pulmonary Dysfunction in ACS Severely elevated IAP, as in ACS, can cause substantial alte
mechanics. Increased IAP displaces the diaphragm into the thoraclung segments. Chest radiography may show elevated hemi diaphume.34 Physiologically, this is manifested as a decrease in FRC,space (V DA ) and ventilation perfusion (V/Q) mismatch.35 The across the diaphragm, causing a smaller, but proportionate rise ina result, respiratory system and chest wall compliance, and tot
residual volume are reduced.1,15,19,21,23,35,37
Recent studies showtory system compliance is mainly due to a decreased chest wall cbeing unaffected. The resultant increase in ventilation-perfusiod d l d t h i h i d th d f h
Intra-Abdominal Hypertension and the Respiratory System
Physiological Derangements Due to Pulmonary Firstly, as discussed, the pulmonary effects of ACS include mec
ary compressive atelectasis and deteriorating lung dynamic compl
tilate the patient with high peak inspiratory pressures.43 The detmay be attributable to both decreased compliance of the lung andthe thoracic cage.44 Abdominal decompression by means of lapanegative abdominal pressure43,46 may alleviate such mechanical p
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negative abdominal pressure43,46 may alleviate such mechanical pcapnia and respiratory system compliance have been identified asnary failure that warrant emergent abdominal decompression in tpression of the abdominal cavity results in nearly immediate revPatients identified as being at risk of developing IAH and ACS, shing. A low threshold for reexploration and decompression of the ashould be employed. However, the timing, indications and thression are controversial, with very few large trials available to give fening hypercapnia, deteriorating respiratory system compliance a way pressures often warrant surgical decompression. These distur
comprise the least complex part of the pulmonary problem in IASecondly, as discussed, tissue hypoxia may result due to decreascontribute to a more complex pulmonary problem in ACS. Thischemia with abdominal wall ischemia/necrosis may provopro-inflammatory cytokines which may result in lung neuintra-pulmonary oxygen free radical production as shown in animelevation to 25 mm Hg for 60 minutes in rats decreased mucosa
bacterial translocation from the gut into the systemic circulationodes.50 Both such mechanisms may contribute to a situation syndrome which may evolve to multiple organ failure (MOF) of w/ acute respiratory distress syndrome (ARDS) is a part.4,51
Both experimental and human research in the past decade inMOF suggests that if systemic inflammation occurs, the lung becopart of the inflammation-induced systemic disease state that can
could than act as a propagator of the MOF syndrome52 rather thanorgan in ACS/IAH.53
Ph i l i l D C d b M h
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These “shear forces” tending to disrupt the lung tissue may betranspulmonary pressures of only 30 cm H2O.56 In this way a vicilung tissue disrupture, more protein infiltration, and more surfac
alveolar de-recruitment and the need for even higher ventilatorventilation. These ventilator-induced changes do not remain confhave “systemic consequences”.
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Ventilation-Induced Mediator TranslocationRecent studies suggest that the mode of mechanical ventilat
tumour necrosis factor (TNF) alpha translocation from the blood
sured by broncho-alveolar lavage in rats challenged intra-abdomride.57 Modes of mechanical ventilation that combine high peak iPEEP pressures, especially, resulted in TNF alpha translocation. Tnificantly reduced TNF alpha translocation. When rats were chlung, the same results were obtained for translocation from theSuch findings may be particularly relevant in IAH and ACS as mocal ventilation could reduce the extent to which the lung takes pa
tory disease state induced by IAH/ACS.The release of inflammatory mediators and the production o
result of mechanical ventilation has now been shown in both isvivo experiments.58-64 In humans, Ranieri et al showed that mechminimise ventilator-induced lung injury using high PEEP levels ancould markedly attenuate the cytokine response in ARDS patienventilation strategy.65 In contrast to ARDS, inflammatory mediatent forms of mechanical ventilation could not be shown in patiefunction.66 In some studies the lung appears to need a ‘first hit’provided by the systemic attack in IAH/ACS.
Ventilation-Induced Bacterial TranslocationBased on the observation that mechanically ventilated critica
pneumonia 67 and septicaemia, the question may be raised whethetilation can promote bacteremia and/or sepsis. Also, it is conceivtion in the patient with bacteremia/sepsis as a result of IAH/ACSfunction of the alveolo-capillary barrier with a resultant pneum
Intra-Abdominal Hypertension and the Respiratory System
The increase in intra-abdominal pressure in IAH/ACS will respiratory system-thoracic compliance, decreased FRC, atelectasistional right-to-left shunt, hypoxemia with anaerobic metabolism
pulmonary edema. The application of high inspiratory pressures asion of open alveoli for a long time is associated with an increaseOn the other hand, low levels of PEEP may contribute to ventilaallowing alveoli to collapse and reopen during each respiratory cy
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g p p g p y yBoth experimental and clinical data have demonstrated that
vent lung injury in both healthy and diseased lungs should prevenrecruit all alveoli and prevent their collapse at end-expiration.75
and the lung should be kept open with the least possible pressure sgas exchange. Hemodynamic side effects are thus minimized.56,80
ized by an optimal gas exchange.56 The intrapulmonary shunt is corresponds to a PaO2 of more than 450 mm Hg on pure oxygen
A rational treatment concept is the following:56,80
1. One must overcome a critical opening pressure during inspi2. This opening pressure must be maintained for a sufficiently3. During expiration, no critical time that would allow collaps
The goal of the initial increase in inspiratory pressure is to redetermine the critical lung opening pressure. Then, the minimulung from collapse are determined. Finally, after an active reopenisure is implemented to keep the lung open (Fig. 1).
A clinical study by Amato et al showed that a ventilation strat
tatic lungs and keeping them open at all times in combination permissive hypercapnia and a restriction on the size of tidal volumtory pressures, resulted in a higher rate of weaning from mechanibarotrauma, and improved 28 day survival in ARDS patients comlation.83 The authors stratified the patients according to PEEP levlevels higher than 12 cm H2O and especially higher than 16 cm survival of these ARDS patients.84
Alveolar recruitment should almost always be possible durinchanical ventilation (which may be more difficult if the disease time85). Even if not all of the lung tissue may be fully recruited fod i i hi il f h d
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been suggested that patients are more comfortable breathin
pressuretargeted ventilation. This may be due in part to the consand to the rate of deceleration that occurs between breaths. Becadent variable, inconsistent alveolar minute ventilation can occur. ventilation, the clinician must be aware that the tidal volume delilung and chest wall compliance and airway resistance.
In volume-targeted modes of ventilation, the controlled variaba function of inspiratory flow (not flow rate), and time. A goal wit
a preset minimum minute ventilation, which is usually a functiorespiratory rate. Along with delivering a preset tidal volume, withcian can select the inspiratory flow profile, which dictates whethh h h l d l
Figure 1. Schematic representation of the opening procedure for collapsedmark the treatment goal of each specific intervention. The bold words ma
At the beginning the precise amount of collapsed lung tissue is not know
Intra-Abdominal Hypertension and the Respiratory System
Spontaneous breathing with supporting ventilation significantly immatching, cardiac output, CO2 clearance, and renal blood flow.8
As previously discussed, PEEP should be applied to sustain re
as possible in order to maximize gas exchange and improve theLevels of PEEP required to maintain end-expiratory lung volume substantial (>20 cm H2O).
Despite the existence of different modes of mechanical ventil
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pthe same principle should be applied: open up the lung and keeadequate carbon dioxide exchange with the least possible pressucommonly achieved by applying modes of mechanical ventilatio
strategies and not by modes using volume-targeted strategies, asgional over inflation of compliant lung areas with under ventilati
Lung Function MonitoringLung function measurements should provide basic physiolog
transport from the air via the lung into the blood, and (2) shoul
care) provide techniques which may differentiate between causchange. Mechanical ventilation should overcome or prevent hypotant and life-threatening parameter during mechanical ventilatio
The oxygenation index (PaO2/FiO2) measured under standaused to define the state of impairment of the lung, although a lowindex does not differentiate between:
1. ventilation
2. perfusion3. diffusion, or4. ventilation/perfusion (V/Q) problems.
It is, however, the most reliable and routinely available tool toof the lung under standard ventilation conditions.88
Peak inspiratory pressure at flow-constant ventilation is a poorlar over-stretching as it is influenced by a number of factors inde
and does not allow to define the state of over-inflation and/or oeas.79
Total lung volume and functional residual capacity should a
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Organ Perfusion and Oxygen UtilisationBecause in patients with ACS especially the abdominal organs
is important to monitor organ function. Oxygen transport varia
deficit, and gastric intramucosal pH (pHi) are considered acceptsion and O2 utilisation.90 Currently, only the blood lactate level ainstances, O2 transport variables are used during surgery. Howevealimentary tract pHi, PCO2 or indocyanine green clearance may
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y p y g y
Cardiovascular Effects of Mechanical VentilationPositive pressure ventilation (PPV) causes a decrease in cardi
uted to at least three mechanisms: (1) decreased venous return (tion, and (3) alteration of left ventricular distensibility. Decreasthe most significant factor causing decreased cardiac output withpressure results in decreased end-diastolic volume and stroke volu
Augmenting preload with additional intravascular fluid willsecond mechanism, PPV increases pulmonary vascular resistanc
ventricular afterload.
93,94
This effect is most pronounced in paventricular dysfunction.95 The third mechanism by which PPV coutput is alteration of left ventricular distensibility. Elevated pulmelevation in right ventricular end-diastolic volume, resulting in a ltricular septum.96 This shift limits left ventricular distensibility anoutput.96,97
Weaning and Extubation Weaning and extubation can be considered if the cause for thIAP is normalized. Fluid and electrolyte balance should be optimpatients have been ventilated for several days and first a period of during the period of weaning it is important that atelectasis is avoilevels.
Ventilator weaning and extubation are important to decrease
chanical ventilation such as ventilator-associated pneumonia (Vcreased costs.98 These risks must be balanced against the risk of pmay lead to difficulty reestablishing endotracheal intubation, h
Intra-Abdominal Hypertension and the Respiratory System
around the scheduled mandatory breaths in order to synchronizethe patient’s inspiratory effort, which might vary the machine cycltory effort is detected within the time window, the machine deliv
though SIMV improves patient/ventilator interaction at low (ratean unanticipated amount of energy, which may contribute to failPressure support ventilation (PSV) is a “spontaneous” mode of b
inspiratory effort is assisted with a set level of inspiratory pressure PSV i d d d i i il i
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PSV is a pressuretargeted mode and is very similar to pressureassiIn a pressurecontrol mode, the variable is time; in a pressuresuppoPSV allows the patient to control his or her respiratory rate, insp
flow rate. The tidal volume achieved is a function of the respiraresistance. Several factors may influence the effects of pressure suthe level of inspiratory pressure support and the pressure rise timused mode during the weaning of patients who require prolongventilation.
Bi-level positive airway pressure (BiPAP) is nearly identical tpressure level. CPAP is the mode of conventional ventilation th
support. Like PSV, it is classified as a spontaneous breathing mopressure that is maintained throughout the respiratory cycle durihas been used synonymously with PEEP, expiratory positive airwatinuous positive-pressure breathing (CPPB). This mode is typicareadiness in an intubated patient.
Clinical trials to determine the best mode of ventilator wean
Esteban and colleagues
106
compared techniques of weaning patietion. They found that daily spontaneous breathing trials (SBTs) lmore quickly than weaning with intermittent mandatory ventilatias weaning with pressure support ventilation. In contrast, Brocported that weaning was significantly faster with pressure suppormittent mandatory ventilation or SBT. In summary, weaning protidentify patients who are ready for extubation, and unless contrain
pass the protocol should proceed to extubation. Patients who fatreated for any reversible causes and reassessed the next day for an
C l i
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29. Sharma RR, Axelsson H, Oberg A et al. Diaphragmatic activity aft Anesthesiology 1999; 91(2):406-413.
30. Gargiulo NJ IIIrd SR, Leon W, Machiedo GW et al. Hemorrhagtion at low levels of intra-abdominal pressure. Arch Surg 1998; 13
31. Malbrain MLNG. Effects of abdominal compression and decomprtion and regional perfusion. Intensive Care Med 2000; 26:S264.
32. Bongard F, Pianim N, Dubecz S et al. Adverse consequences of inon bowel tissue oxygen. J Trauma 1995; 39(3):519-524, (discussio
33. Brismar B, Hedenstierna G, Lundquist H et al. Pulmonary densitie
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33. s a , ede st e a G, u dqu st et a . u o a y de s t elar relaxation—a proposal of atelectasis. Anesthesiology 1985; 62(4
34. Williams M, Simms H. Abdominal compartment syndrome: Camanagement in critically ill patients. Am Surg 1997; 63(6):555-55
35. Puri GD, Singh H. Ventilatory effects of laparoscopy under general68(2):211-213.
36. Kelman GR, Swapp GH, Smith I et al. Caridac output and alaparoscopy. Br J Anaesth 1972; 44(11):1155-1162.
37. Johannsen G, Andersen M, Juhl B. The effect of general anaestheduring laparoscopy with CO2-insufflation. Acta Anaesthesiologica Sc
38. Cullen DJ, Coyle JP, Teplick R et al. Cardiovascular, pulmonaryincreased intra-abdominal pressure in critically ill patients. C17(2):118-121.
39. Richardson J, Trinkle J. Hemodynamic and respiratory alterationspressure. J Surg Res 1976; 20(5):401-404.
40. Saggi B, Sugerman H, Ivatury R et al. Abdominal compartme45(3):597-609.
41. Ayres SM GA, Holbrook PR, Shoemaker WC. Textbook of Criticdelphia: WB Saunders, 1995.
42. Sugrue M, Jones F, Janjua KJ et al. Temporary abdominal closureeffects on renal and respiratory physiology. J Trauma 1998; 45(5)43. Bloomfield G, Saggi B, Blocher C et al. Physiologic effects of exte
tive abdominal pressure for intra-abdominal hypertension. J Traumcussion 1014-1006).
44. Quintel M, Pelosi P, Caironi P et al. An increase of abdominal prein oleic acid-induced lung injury. Am J Respir Crit Care Med 20
45. Biffl WL, Moore EE, Burch JM et al. Secondary abdominal com
lethal event. Am J Surg 2001; 182(6):645-648.46. Valenza F, Bottino N, Canavesi K et al. Intra-abdominal pressure by continuous negative extra-abdominal pressure (NEXAP)29(11):2063-2067.
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57. Haitsma JJ, Uhlig S, Goggel R et al. Ventilator-induced lung injusystemic compartmentalization of tumor necrosis factor-alpha26(10):1515-1522.
58. Cheng KC, Zhang H, Lin CY et al. Ventilation with negative air
response in isolated mouse lung. Anesth Analg 2002; 94(6):1577-59. Chiumello D, Pristine G, Slutsky AS. Mechanical ventilation affe
in an animal model of acute respiratory distress syndrome. Am 160(1):109-116.
60. Ricard JD, Dreyfuss D, Saumon G. Production of inflammatory
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J y ylung injury: A reappraisal. Am J Respir Crit Care Med 2001; 163
61. Tremblay L, Valenza F, Ribeiro SP et al. Injurious ventilatory sc-fos m-RNA expression in an isolated rat lung model. J Clin Inv
62. Verbrugge SJ, Uhlig S, Neggers SJ et al. Different ventilation stratenot increase tumor necrosis factor-alpha and prostacyclin producti Anesthesiology 1999; 91(6):1834-1843.
63. von_Bethmann AN, Brasch F, Nusing R et al. Hyperventilation inperfused mouse lung. American Journal of Respiratory and Criti Journal of the American Thoracic Society, Medical Section of the A157(1):263-272.
64. Haitsma JJ, Uhlig S, Verbrugge SJ et al. Injurious ventilation strIL-6 and MIP-2 in rats in vivo. Clin Physiol Funct Imaging 2003
65. Ranieri VM, Suter PM, Tortorella C et al. Effect of mechanical vdiators in patients with acute respiratory distress syndrome: A ran1999; 282(1):54-61.
66. Wrigge H, Zinserling J, Stuber F et al. Effects of mechanical veninto systemic circulation in patients with normal pulmonary f93(6):1413-1417.
67. Fabregas N, Torres A, El-Ebiary M et al. Histopathologic ventilator-associated pneumonia. Anesthesiology 1996; 84(4):760-7
68. Tilson MD, Bunke MC, Smith GJ et al. Quantitative bacteriologexperimental Pseudomonas pneumonia treated with positive end-egery 1977; 82(1):133-140.
69. Nahum A, Hoyt J, Schmitz L et al. Effect of mechanical ventilatiintratracheally instilled Escherichia coli in dogs. Crit Care Med 19
70. Verbrugge SJ, Sorm V, van ‘t Veen A et al. Lung overinflation
pressure promotes bacteremia after experimental Klebsiella pneumoMed 1998; 24(2):172-177.71. Murphy DB, Cregg N, Tremblay L et al. Adverse ventilatory strate
translocation of endotoxin. Am J Respir Crit Care Med 2000; 162
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81. Sjostrand UH, Lichtwarck-Aschoff M, Nielsen JB et al. Differentthe lung open. Intensive Care Med 1995; 21(4):310-318.
82. Kesecioglu J. Mechanical ventilation in ARDS. Adv Exp Med Bio83. Amato MB, Barbas CS, Medeiros DM et al. Effect of a protective-
in the acute respiratory distress syndrome. N Engl J Med 1998; 384. Barbas CSV, Medeiros D, Magaldi RB. High PEEP levels impro
AM J Resp Crit Care Med 2002; 165:A 218.85. Grasso S, Mascia L, Del Turco M et al. Effects of recruiting m
respiratory distress syndrome ventilated with protective ventilatory
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96(4):795-802.86. Alvarez A, Subirana M, Benito S. Decelerating flow ventilation ef
J Crit Care 1998; 13(1):21-25.
87. Putensen C, Rasanen J, Lopez FA. Ventilation-perfusion distribution with superimposed spontaneous breathing in canine lung inju1994; 150(1):101-108.
88. Bohm S, Lachmann B. Pressure-control ventilation. Putting a mosive Care 1996; 3:12-27.
89. Bhavani-Shankar K, Moseley H, Kumar AY et al. Capnometry 1992; 39(6):617-632.
90. Porter JM, Ivatury RR. In search of the optimal end points of resreview. J Trauma 1998; 44(5):908-914.
91. Leithner C, Podolsky A, Globits S et al. Magnetic resonance imagend-expiratory pressure ventilation in normal subjects. Crit Care M
92. Huemer G, Kolev N, Kurz A et al. Influence of positive end-expiventricular performance assessed by Doppler two-dimensional 106(1):67-73.
93. Robotham JL, Lixfeld W, Holland L et al. The effects of positive and left ventricular performance. Am Rev Respir Dis 1980; 121(4
94. Pinsky MR, Desmet JM, Vincent JL. Effect of positive end-expiratfunction in humans. Am Rev Respir Dis 1992; 146(3):681-687.
95. Brooks H, Kirk ES, Vokonas PS et al. Performance of the right vright coronary flow. J Clin Invest 1971; 50(10):2176-2183.
96. Jardin F, Farcot JC, Boisante L et al. Influence of positive end-explar performance. N Engl J Med 1981; 304(7):387-392.
97. Terai C, Uenishi M, Sugimoto H et al. Transesophageal echocardi
four cardiac chambers during positive end-expiratory pressure. Anes98. Ely EW, Baker AM, Evans GW et al. The distribution of costs opatients with chronic obstructive pulmonary disease. Crit Care M
99. Epstein SK, Ciubotaru RL, Wong JB. Effect of failed extubation
CHAPTER 8
Intra-Abdominal Hypertensiond h Kid
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and the Kidney Michael Sugrue,* Ali Hallal and Scott D’Amours
Abstract
I
ntra-abdominal hypertension (IAH) has been associated wit150 years. It is only recently however, that a clinically reco
found. An increasing number of large clinical studies have idHg) is independently associated with renal impairment and increcomes from both animal and human experiments. It is related todominately related to renal perfusion, coupled with reduced abreduced cardiac output and increased systemic vascular resistancalteration in humoral and neurogenic factors aggravating renalimpairment with IAH is further exacerbated by hypovolaemia an
In summary, intra-abdominal pressures of ≥15 mm Hg exerton renal function.
IntroductionRenal impairment and renal failure are one of the commonest
to ICU. The treatment of renal impairment and its preventiondecades with an increasingly physiological approach to patient r
awareness of the importance of intra-abdominal hypertension (IAabout the adverse effects of raised intra-abdominal pressure (IAP150 years, there are many practicing clinicians who remain una
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This chapter will attempt to answer these questions while expl
ing relationship between IAH and its progression into ACS on re
Is There Supportive Evidence from Human Expe
Figure 1. Tight abdominal closure and resultant IAH seen occasionally.
Intra-Abdominal Hypertension and the Kidney
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Does It Make Physiological Sense?
We have known about compartment syndromes in various bparticular importance raised intracranial pressure and limb compingly however, unusual compartment syndromes are being repopartment syndromes10 and visceral compartment syndromes incpartment syndrome following trauma.11 It makes sound physio
Figure 2. First day at which IAH occurred after abdominal surgery. Figure Arch Surg 1999; 134:1082-1085.
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areas in the body a rise in IAP will have adverse effects not just on but on all the intra-abdominal organs, with progression of local Iconcepts are being continuously proposed as scientific basis of th
concept of abdominal perfusion pressure proposed by Cheatham interesting.2,12 Cheatham has defined the abdominal perfusion pressure minus IAP (MAP-IAP). The concept of perfusion pressuabdomen to be considered part of the whole person physiologicalcavity. It makes sense that the abdominal perfusion pressure is im
f d b l 13 14 h h
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perfusion pressure proposed by Ulyatt.13,14 Cheatham’s suggestperfusion pressure of 50 mm Hg or more as an endpoint of resusc
Pathophysiology of Renal Impairment and IAHThe pathophysiology of renal dysfunction with IAH is multifa
be through one or more of the following: (1) part of the systemicdrome (SIRS) and late multiple organ failure (MOF),15 (2) redelevated renal venous pressure (RVP)18 and (4) elevated renal pareOne or more of these factors can lead to a reduction in renal per
quent drop in the glomerular filtration rate and urine output.Elevated IAP reduces cardiac output by two mechanisms. A f
vena cava and increased intrathoracic pressure reduce venous retcreasing preload and cardiac output. The second mechanism insystemic vascular resistance leading to an increase in afterload anoutput. A drop in cardiac output will cause a drop in the renal blo
cause a drop in the renal perfusion pressure and a correspondinpressure. The juxtaglomerular cells perceive this change as a decafferent arteriolar walls, which results in the release of more renThis results in the formation of angiotensin I, which is convertedally to angiotensin II by angiotensin converting enzyme. Angiotconstriction of efferent arterioles. As a result, intraglomerular prfraction of plasma flowing through glomerular capillaries that is f
fraction), and glomerular filtration rate (GFR) is preserved. Dhypoperfusion, these compensatory responses are overwhelmed andacute renal failure. Angiotensin II also influences sodium homeo
Intra-Abdominal Hypertension and the Kidney
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trauma centers.29,30 The concept that intravenous fluid resuscitatin the presence of IAH is not new, as Thorington very eloquen
Figure 4. Possible mechanism of renal derangement in patients with IAH
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widely practiced but fell out of favour because of its morbidity. Oshowed that high renal parenchymal pressure induced by compretwo acrylic plates alone did not lead to similar results, and concl
compression plays a much less role than renal venous compressiorangement in ACS.19
Little is known about the molecular events that mediate IAH. light on the subject.36 In a rat model of IAH they demonstrated gene expression response to early IAH. The molecular changes
i f i d i f IAH F h h i i f h
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minutes after induction of IAH. Further characterization of the gby IAH may help in the future to develop a better understanding
ology.The most likely direct effect of increased IAP is an increase in
coupled with a moderate reduction in cardiac output. Ulyatt has filtration gradient (FG) is a key to renal impairment in intra-abdfiltration gradient is the mechanical force across the glomerulus between the glomerular filtration pressure (GFP) and proximal FG = GFP - PTP. Where IAP is elevated PTP can be equated with
the difference between mean arterial pressure (MAP) and IAP. Filbe calculated by the formula FG = MAP - 2 (IAP). Therefore chagreater effect on urine formation than the effect of a correspondisure on the ureter is not a key factor in renal impairment as renal simprove urinary output.31 Shenasky used an external abdominalto demonstrate decreases in renal blood flow.37 McDougall hasrenal venous flow during pneumoperitoneum also.38 These decrGFR have been confirmed by laser Doppler flow studies.39 Chiurenal parenchymal blood flow from the cortex to the medulla althnot seen by McDougall.38
Is There a Strong Association That Is Consistentto Study?
The first prospective study of 88 patients by Sugrue and colleation between increased IAP and renal impairment. It was not desrelationship however6 and did not account for confounding va
Intra-Abdominal Hypertension and the Kidney
Table 1. An analysis of renal function for different categoriepressure
IAP n=263 Renal Impairment n=57 Norm
< 18 mm Hg n=156 22 (14%)18-25 mm Hg n=86 22 (26%)
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Is There a Dose Response Relationship and Is It Studies have supported the concept that renal impairment is
dence of renal impairment doubling once IAP goes above 25 mmOther cut-off values for IAH have been used ranging from 12mm
have advocated earlier abdominal decompression to avoid irrevehas been claimed that abdominal decompression reverses the sequseries of small numbers of patients have shown that decompressionrenal and cardiovascular physiology in patients with IAH and ACnot universal, Meldrum et al reported a 100% response with dcolleagues reported a success of only 20%, although the cohortdefined.45 In addition, the series reported by Sugrue et al, like ma
tion to treat study. Few conclusions, therefore, can be establishedother than to confirm that timely decompression of the abdomention in some subgroups (as yet to be defined). It is importanover-enthusiastic approach to abdominal decompression as renalimproved, although current literature suggest that 85% of patien
Is the Association Independent of Other ConfouThe evidence that IAP is an independent causal factor of renalthe strong clinical association between IAH and renal impairmen
60 d IAH ll bli h d f l i i
g> 25 mm Hg n=21 13 (62%)
x
2=26.06; df=3; p< 0.001
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Table 2. Comparison of the prevalence of risk factors for rewith normal and impaired renal function
Risk Factors Normal Renal RenalAssessed Function (n=206) Impairment (n=57)
Increased IAP 72 (35%) 35 (61%)*
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Hypovolemia 44 (21%) 20 (35%)Aminoglycosides 77 (37%) 33 (58%)*
Radiocontrast 23 (11%) 12 (21%)Sepsis 76 (37%) 37 (65%)*Hypotension 84 (41%) 42 (74%)*CCF 7 (3%) 3 (5%)Hypertension 49 (24%) 24 (42%)*Diabetes 15 (7%) 5 (9%)Age 60+ 114 (55%) 47 (82%)*
NSAIDS 27 (13%) 13 (23%)ACE Inhibitors 18 (9%) 6 (11%)Diuretics 23 (11%) 13 (23%)Gout 7 (3%) 3 (5%)Aortic Clamping 35 (17%) 19 (33%)*Dehydration 7 (3%) 2 (4%)
* p < 0.01 (bivariate, chi squared);
#
p < 0.05 (unadjusted); Table reprinSurg 1999; 134:1082-1085.
Table 3. Forced entry logistic regression model of clinical farenal impairment
Variable Wald Statistic Significance Adju
Intra-Abdominal Hypertension and the Kidney
Commentary
Rao R. Ivatury
One of the most dramatic sequelae of increased IAP is the effecoutput. Sugrue and colleagues review the current evidence that ethis chapter. An increasing number of large clinical studies have idHg) is independently associated with renal impairment and increof these changes are not entirely well established, however it ma
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renal perfusion, reduced cardiac output and increased systemic vations in humoral and neurogenic factors. The risk of renal impexacerbated by hypovolaemia and other factors such as sepsis. It hthe case of cirrhotic patients with ascites that renal function may of the ascitic fluid and reduction in the IAP. The benefits of promquite dramatic in patients with primary and secondary IAH after tus as clinicians to be cognizant of the elevated IAP and its effect first sign of impending ACS.
References1. Sugrue M. Intra-abdominal pressure: Time for clinical practice g
28:389-391.2. Malbrain ML. Is it wise not to think about intra-abdominal hyper
Crit Care 2004; 10(2):132-45.3. Fischer M. Raised intra-abdominal pressure, renal failure, and the b
16:285-286.
4. Carmichael p, Carmichael AR. Acute renal failure in the surgic73:144-153.5. Sugrue M, Balogh Z, Malbrain M. Intra-abdominal hypertension
2004; 74:78.6. Sugrue M, Buist MD, Hourihan F et al. Prospective study of in
renal function after laparotomy. Br J Surg 1995; 82:235-238.7. Sugrue M, Jones F, Deane SA et al. Intra-abdominal hypertensi
post-operative renal impairment. Arch Surg 1999; 134:1082-1805.
8. Biancofiore G, Bindi ML, Romanelli AM et al. Postoperative intrfunction after liver transplantation. Arch Surg 2003; 138:703-6.
9. Bradley SE, Bradley GP. The effect of increased intra-abdominaJ Cli I 1947 26 1010 1022
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21. Lindstrom P, Wadstrom J, Ollerstam A et al. Effects of increasevolume expansion on renal function in the rat. Nephrol Dial Tran
22. Bloomfield GL, Blocher CR, Fakhry IF et al. Elevated intra-abdorenin activity and aldosterone levels. J Trauma 1997; 42:997-1005
23. Kotzampassi K, Metaxas G, Paramythiotis D et al. The influence ointra-abdominal pressure in the renal perfusion in cirrhotic rats. J
24. Vargas JC, Fields D, Razvi I. Direct parenchymal compression to Urol 1995; 153:514.
25. Caldwell CB, Ricotta JJ. Changes in visceral blood flow with eSurg Res 1987; 43:14-20.
l h l d bd
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26. Hamilton BD, Chow GK, Inman SR et al. Increased intra-abdomitoneum stimulates endothelin release in a canine model. J Endour
27. Mikami O, Fujise K, Matsumoto S et al. High intra-abdominaecholamine concentrations during pneumoperitoneum for laparosco133:39-43.
28. London ET, Ho HS, Neuhaus AM et al. Effect of intravascular vtion during prolonged CO2 pneumoperitoneum. J Trauma 2000;
29. Rivers E, Nguyen B, Havstad S et al. Early goal-directed thegoal-directed therapy in the treatment of severe sepsis and septi8(345):1368-77.
30. Miller PR, Meredith JW, Chang MC. Randomized, prospective cversus inotropes in the resuscitation of trauma patients: Effects onvisceral perfusion. J Trauma 1998; 44:107-13.
31. Thorington JM, Schmidt CF. A study of urinary output and bloexperimental ascites. Am J Med Sc 1923; 165:880-889.
32. Toomasian JM, Glavinovich G, Johnson MN. Haemodynamic chneum and graded haemorrhage in the dog. Sur Forum 1978; 29:3
33. Malbrain ML, Cheatham ML. Cardiovascular effects and optimal prhypertension. In: Vinent JL, ed. Yearbook of intensive Care anSpringer-Verlag, 2004, in press.
34. Balogh Z, McKinley BA, Cocanour CS et al. Patients with impsyndrome do not respond to early volume loading. Am J Surg 20
35. Stone Hh, Fulenwider JT. Renal decapsulation in the prevention Surg 1977; 186:343-355.
36. Edil BH, Tuggle DW, Puffinbarger NK et al. The impact of ingene expression in the kidney. J Trauma 2003; 55:857-9.
37. Shenasky JH, Gillenwater JY. The renal hemodynamic and counterpressure. SGO 1972; 134:253-258.
38. Mc Dougall Em, Monk TG, Wolf JS. The effect of prolonged pn
CHAPTER 9
Intra-Abdominal Hypertensionand the Splanchnic Bed
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and the Splanchnic BedRao R. Ivatury* and Lawrence N. Diebel
Abstract
I
ntra-abdominal hypertension has profound effects on splanchnperfusion, mucosal acidosis and setting the stage for multiple IAH will result in abdominal compartment syndrome and inc
ity. The pathologic changes are more pronounced after sequential inand IAH. It appears that IAH and ACS may serve as the second inenon of the causation of multiple-organ dysfunction syndrome.
Intra-abdominal hypertension (IAH), as elucidated throughoprofound physiologic effects that may culminate in organ dysfabdominal compartment syndrome (ACS) is a constellation of tIAH. The effects of IAH on the splanchnic circulation has been krecently, they have been identified as a potential mechanism for tSyndrome (MODS) following IAH and ACS.
IAH and Splanchnic Flow In animal experiments Diebel and associates11 showed a de
gastro-intesinal mucosal blood flow with an IAP above 20 mm H
flow diminished to 61% of the baseline at an IAP of 20 mm Hg aIAP of 40 mm Hg (Fig. 1). Corresponding to these changes, the by tonometer, showed severe acidosis. These changes were disprop
di i d i h i i IAP Th i i
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observed between these various pressures. Gastric tissue pH level GP of 20 cm H2O and IAP of 10 mm Hg, to 6.8 at 30 cm H2O acm H2O and 30 mm Hg, respectively. The authors suggested thain association with increased IAP may be an early indicator of impment syndrome. In fact, Pusajo and colleagues15 and Sugrue etpostoperative patients with IAP and gastric mucosal pH (pHi) m
tients with normal pHi, patients with a pHi < 7.32 were 11timevated IAP. Ivatury et al noted that IAH was associated with guseries of patients with catastrophic penetrating abdominal traum
Figure 1. Effect of increasing abdominal pressure on cardiac output (CO),(SMA) and laser doppler mucosal flow in the gut (LDF). Data from DiebIvatury RR, Cayten CG: The Textbook of Penetrating Trauma, Williams
Intra-Abdominal Hypertension and the Splanchnic Bed
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anastomoses were then analyzed and compared. The bursting pconcentrations had good correlation (P<0.001, r = 0.76). 4 to 6 mmuch as fecal peritonitis. More elevated IAP delayed healing even
Laparoscopy and IAHThe widespread application of laparoscopic surgery also spur
effects of increased IAP on cardiopulmonary and visceral functioperitoneum.20-26 Eleftheriadis and coauthors20 studied 16 women eight by an open technique and eight laparoscopically. In all patie
Figure 2. Effects of increased abdominal pressure on bowel tissue oxygen1995. (Reprinted from: Ivatury RR, Cayten CG: The Textbook of Pen
Wilkins, Baltimore, 1996.)
Abd132
pressure increased in parallel with the IAP but the transmural posures decreased (p < 0.01), indicating decreased venous filling. Pomm Hg but decreased at 14 mm Hg from 474 +/- 199 to 395
whereas hepatic arterial flow remained stable. Hepatic superficialinsufflation and increased after desufflation. Intestinal, portal adecreased significantly at an IAP of 14 mm Hg. The authors concand metabolic derangement in the splanchnic beds is dependent ide pneumoperitoneum.
I d IAH I d d S l h i H
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Inotropes and IAH-Induced Splanchnic Hypope
The exact mechanism of the diminished splanchnic perfusionknown. but may involve a direct effect of increased IAP on mesemoral factors or a combination of the two.1-23 The changes in inassociated with IAH could be reversed by low dose dobutamine bstrated by Agusti and associates.27 They studied 25 pigs. IAH wasflation of CO2 to an IAP of 15 mm Hg. Low dose Dopamine min), was administered 60 minutes later. A perivascular flow p
superior mesenteric artery to measure arterial flow. Mucosal flow wpler probe positioned in the lumen of the ileum. Peritoneal CO2
cant increases in heart rate, arterial pressure, and systemic vasculardecreases in cardiac output and superior mesenteric arterial and mdobutamine infusion reversed the decrease in cardiac output, it senteric artery blood flow. Intestinal mucosal blood flow, howeveDopamine also attenuated the decrease in cardiac output, but had nnic hemodynamic variables.
The aforementioned studies only investigated the effect of IAHnic flow and visceral organ function : a scenario quite different frothe trauma patient, who undergoes sequential insults of initial hytation and subsequent IAH. Several authors investigated whetheramplify the ill effects of IAH and also lower the level of IAH c
function. Simon et al
28
noted
that in animals subjected to a 20resuscitation and then an increase in the IAP to 10 and 20 mm Hgsignificantly lower than in a control group of animals without prif ll d d i il i d l
Intra-Abdominal Hypertension and the Splanchnic Bed
significant E.coli counts in the mesenteric lymph nodes, liver aabdominal deflation. The authors argued that these findischemia-reperfusion injury, and that increased IAP caused signiflowed by reperfusion injury after abdominal decompression.31 noted bacterial translocation during IAH in a murine experiment.rily to the mesenteric lymph node in the animals with increased IAcation did not occur in the sham control group (p < 0.05). The mcultured from the rats with increased IAP was Escherichia coli . Oththe tissues harvested included Enterobacter, Enterococcus, PseudoGargiulo and colleagues34 used a rodent model of hemorrhage re
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Gargiulo and colleagues3 used a rodent model of hemorrhage, reto 10 mm Hg to study the phenomenon of bacterial translocationtion alone did not increase bacterial translocation to the mesenspleen. An increase in IAP to 10 mm Hg resulted in a significantnodes and liver. Hemorrhage and resuscitation did increase the liver and spleen when IAP was increased to 10 mm Hg. The autrhage and resuscitation, in association with an IAP of 10 mm Hg, tion. Other authors could not demonstrate evidence of transloc
experimental studies.
33
Against this background of conflicting data, we35 hypothesizestrate bacterial translocation in these experimental models may beand that the demonstration by PCR of bacterial DNA products mteen swine were divided into two groups. In the experimental grou were hemorrhaged to a mean arterial pressure (MAP) of 25-30minutes and resuscitated to baseline MAP. Subsequently, intra-ab
increased to 30 mm Hg above baseline by instilling sterile normcavity. The IAP was maintained at this level for 60 minutes. Acidph (pHi), superior mesenteric artery (SMA) blood flow, and hemmeasured and recorded. Blood samples were analyzed by polymerthe presence of bacteria. Spleen, lymph node, and portal venous bat 24 hours. The second group was the control. These animals dresuscitation, or intra-abdominal hypertension (IAH) but were ot
mental group in terms of laparotomy and measured parameters. (baseline of 0.87 +/- 0.10 L/min) decreased in response to hemorr= 0.0001) and remained decreased with IAH (0.63 L/min +/- 0.10
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IAH and Multi-Organ Dysfunction Syndrome (MRecent clinical and laboratory studies suggest that splanchnic
role in the causation of MODS.36-40 Uncontrolled inflammatoryrelease of cytokines has been implicated as an important pathodrome of multiple organ dysfunction is also seen in the clinicaleading to hemorrhagic shock and subsequent resuscitation, either a
phenomenon. In fact, one of these second hits may be IAH andrecent study, we hypothesized that sequential hemorrhagic shockin greater cytokine activation and polymorphonuclear neutroph
Figure 3. Effects of sequential hemorrhage-reperfusion (circles) and IAH o(p < 0.01) as compared with the either of the insults alone. Data from O
Intra-Abdominal Hypertension and the Splanchnic Bed
animals were used as controls. Hemodynamic response was monidure. Cytokine levels were assessed in the plasma. Remote organ inthology and myeloperoxidase activity. IAH caused a significant increand IL-6, 30 minutes after abdominal decompression. Plasma coelevated after 60 minutes of IAH. Abdominal decompression, howcant increase in the levels of this cytokine. Lung neutrophil accelevated only after abdominal decompression. Histopathological monary inflammatory infiltration including atelectasis and alveocluded that IAH provoked the release of pro-inflammatory cyto
d i lt f th i d ti f MOF I b t t d 43
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second insult for the induction of MOF. In a subsequent study,43
tors attempted to develop a clinically relevant two-event animausing the ACS as a second insult. Male adult rats underwent hem45 min) and were resuscitated with crystalloids and shed blood. Ttemic neutrophil (PMN) priming was determined by the surface ecytometry. Finding maximal PMN priming at 8 h, but no prim(late), ACS (25 mm Hg x 60 min) was introduced at these time poinjury was assessed by lung elastase concentration and Evan
bronchoalveolar lavage. Liver and renal injuries were determined bferase, serum creatinine, and blood urea nitrogen. The ACS duritemic PMN priming (8 h) provoked lung and liver injury, but didh postshock when there was no evidence of systemic PMN primintwo-event model was 33%. These findings corroborate the potenmultiple organ injury when occurring at the time of systemic PMis consistent with the clinical course of a severly injured patient das the second precipitating event.
In summary, these clinical and experimental observations illutions of IAH on the splanchnic bed, even at very low levels of IAP. and aggressive intervention to prevent IAH are crucial to avoid the dand mortality.
Commentary Michael Sugrue
Abd136
References1. Ivatury RR, Diebel L, Porter JM et al. Intra-abdominal hypertensi
ment syndrome. Surg Clin North Am 1997; 77:783-800.2. Ivatury RR, Simon RJ. Intraabdominal hypertension: The abdomi
Ivatury RR, Cayten CG, eds. The Textbook of penetrating 1996:939-951.
3. Ivatury RR, Porter JM, Simon RJ et al. Intra-abdominal hypertedominal trauma: Incidence, prophylaxis and clinical relevance to gnal compartment syndrome. J Trauma 1998; 44:1016-1021.
4. Ivatury RR, Simon RJ, Islam S et al. A prospective randomized stuafter major trauma. Global oxygen transport indices versus organ
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after major trauma. Global oxygen transport indices versus organ Amer Coll Surg 1996; 183:145-154.
5. Saggi BH, Sugerman HJ, Ivatury RR et al. Abdominal compartm45:597-609.
6. Schein M, Rucinski JR, Wise L. The abdominal compartment sytient. Current opinion in critical care 1996; 2:287-294.
7. Schein M, Wittmann DH, Aprahamian CC et al. The abdominphysiological and clinical consequences of elevated intra-abdomin1995; 180:747-753.
8. Burch JM, Moore EE, Moore FA et al. The abdominal compartm Amer 1996; 76:833-842.
9. Widergren JT, Battisella FD. The open abdomen treatment for indrome. J Trauma 1994; 37:158.
10. Meldrum DR, Moore FA, Moore EE et al. Prospective characterizof the abdominal compartment syndrome. Am J Surg 1997; 174:6
11. Diebel LN, Dulchavsky SA, Wilson RF. Effect of increased intra-aarterial and intestinal mucosal blood flow. J Trauma 1992; 33:45-
12. Diebel LN, Wilson RF, Dulchavsky SA. Effect of increased intrarterial, portal venous, and hepatic microcirculatory blood flow. J
13. Bongard FB, Ryan M, Dubecz. Adverse consequences of increased itissue oxygen. J Trauma 1995; 39:519-525.
14. Engum SA, Kogon B, Jensen E et al. Gastric tonometry and directoring in abdominal compartment syndrome. Pediatr Surg 2002;
15. Pusajo JF, Bumaschny E, Agurrola A et al. Post-operative intra-absplanchnic perfusion, sepsis, multiple organ failure and surgical r
Care Digest 1994; 13:2-4.16. Sugrue M, Jones F, Lee A et al. Intraabdominal pressure and gassociation? World J Surg 1996; 20:988-991.
17 Toens C Schachtrupp A Hoer J et al A porcine model of the ab
Intra-Abdominal Hypertension and the Splanchnic Bed
26. Junghans T, Bohm B, Grundel K et al. Does pneumoperitoneum tions, and intraperitoneal pressures influence renal and hepat121:206-211.
27. Agusti M, Elizalde JI, Adalia R et al. Dobutamine restores inte
porcine model of intra-abdominal hyperpressure. Critical Care Me28. Simon RJ, Friedlander MH, Ivatury RR et al. Hemorrhage lowers thypertension (IAH) induced pulomnary dysfunction. J Trauma 19
29. Friedlander M, Simon RJ, Ivatury RR et al. The effect of hemorcreased intraabdominal pressure. J Trauma 1998; 45:433-439.
30. Varela JE, Cohn SM, Giannotti GD et al. Near-infrared spectrosteric and systemic perfusion during abdominal compartment syndroEl f h i di E K i K P K l G i h i
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31. Eleftheriadis E, Kotzampassi K, Papanotas K et al. Gut ischemi
translocation in elevated abdominal pressure in rats. World J Surg32. Diebel LN, Dulchavsky SA, Brown HJ. Splanchnic ischemia and bnal compartment syndrome. J Trauma 1997; 43:852-855.
33. Jacobi CA, Ordemann J, Bohm B et al. Does laparoscopy increasea peritonitis model? Surg Endosc 1997; 11:235-238.
34. Gargiulo IIIrd NJ, Simon RJ, Leon W et al. Hemorrhage exacerbalevels of intra-abdominal pressure. Arch Surg 1998; 133:1351-5.
35. Doty J, Oda J, Ivatury RR et al. The effect of hemorrhage follow
sion on bacterial translocation. J Trauma 2002; 52:13-7.36. Biffl WL, Moore EE, Burch JM et al. Secondary abdominal com
lethal event. Am J Surg 2001; 182:542-6.37. Raeburn CD, Moore EE, Biffl WL et al. The abdominal comp
complication of postinjury damage control surgery. Am J Surg 2038. Offner PJ, de Souza AL, Moore EE et al. Avoidance of abdom
damage-control laparotomy after trauma. Arch Surg 2001; 136:67639. Balogh Z, McKinley BA, Cox Jr CS et al. Abdominal compartmen
of post injury multiple organ failure. Shock 2003; 20:483-492.40. Balogh Z, McKinley BA, Holcomb JB et al. Both primary and se
syndrome can be predicted early and are harbingers of multTrauma-Injury Infection & Critical Care 2003; 54:848-861.
41. Oda J, Ivatury RR, Blocher CR et al. Amplified cytokine responshemorrhagic shock and abdominal compartment syndrome in a reperfusion. J Trauma 2002; 52:625-31.
42. Rezende-Neto JB, Moore EE, Melo de Andrade MV et al. Systemic
ary to abdominal compartment syndrome: Stage for multiple o53:1121-8.
43. Rezende-Neto JB, Moore EE, Masuno T et al. The abdominal com
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CHAPTER 10
Intra-Abdominal Hypertension a Julia Wendon,* Gianni Biancofiore and Georg Auzin
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There is increasing awareness of the deleterious consequenctension (IAH) and the abdominal compartment syndfunction in critically ill patients. The pathophysiological i
in regard to functional impairment of the renal, cardiovascular anas the brain and intestine, are well reported, however our knowledcations is limited.
This is surprising given that the incidence of significant elevat
sure (IAP) in patients with end stage liver disease,1
acute liver following liver transplantation3 is high.Patients with end stage cirrhosis due to chronic liver disease f
volume tense ascites. Despite a significantly raised IAP these patiatic due to adaptive processes of the abdominal wall occurring overHowever any additional insult such as variceal hemorrhage or sebacterial peritonitis) requiring aggressive fluid resuscitation is like
virtue of capillary leak and consequent tissue edema. This can quiof ACS in an already stressed noncompliant system. At the same tmm Hg was found to augment variceal pressure, radius, wall tensia consequently high risk of variceal rupture and hemorrhage,4 theing a vicious cycle. Relieving raised IAP in turn via total paracenteeffects and will lead to a significant drop in portal pressure, hepand azygos blood flow while increasing cardiac output.5
Hyperacute liver failure is more likely to present with the acu ACS due to frequently encountered high cardiac output, low pem i pill r l k r irin l r fl id l m dmini tr t
Intra-Abdominal Hypertension and the Liver
Intra-Abdominal Pressure (IAP) and PortosystemDysfunction
Blood flow abnormalities resulting from IAH may severely affe
tion. For example IAP levels of 15-20 mm Hg can cause oliguria, anuria if the pressure reaches 30 mm Hg; an IAP of 20 mm Hglomerular filtration rate (GFR) by up to 25%.6 From an intestindemonstrated that abdominal pressure values of 20-40 mm Hg rby 40-70%, and that IAP levels of less than 20 mm Hg can redubowel perfusion has been linked to abnormalities in the physiolog
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of the gut, resulting in an increased risk of bacterial translocation ing to septic complications and multi organ dysfunction or failuverse effects of IAH on hepatic blood flow have been pointed outsonic flow probes to continuously monitor hepatic arterial and platter being more susceptible to increases in IAP: in this pig modflow were seen at 10 mm Hg IAP whereas portal venous flow wasdespite “normal” cardiac output and systemic blood pressure.8 In
the hepatic artery and portal venous blood flow were decreased tocompared to their control values. As with the gut, a reduced bloometabolic liver function. In a rabbit model, using indocyanine grketone body ratio as indicators of liver function, an IAP of 20 mmin sinusoidal blood flow but did not affect hepatic energy status.ever reduced the hepatic mitochondrial redox status and a decreadent despite sufficient oxygenation of arterial blood.9 Such deran
centuated if patients are hypovolemic. Therefore the combinatieffective intravascular blood volume and IAH can be extremely dsion and metabolism. Finally, elevated IAP has been questioned aplained” postoperative liver function test disturbances after laparocharts of patients undergoing open or laparoscopic cholecystectopared retrospectively, and altered alanine transaminase levels wereof the patients undergoing the procedure via the laparoscopic apprin the “open” group. The biochemical derangements did not tranificant complication. The reason for this phenomenon was attribi d d IAH i h l i bl i h
Abd140
The incidence of raised intracranial pressure is high in this patcant increase in IAP can further raise ICP to critical levels. Highpressure, which in turn can impede venous outflow from the brainsion pressure is often low due to reduced preload, inadequate stvasodilatation all of which contribute to arterial hypotension.
Increase of IAP above 10 mm Hg reduces cardiac output (CO) and reduction in preload. This might not become apparent in acuthe frequently present significant peripheral vasodilation. Venousnic bed might cause a degree of congestion within the liver. A dirabdominal segment of the inferior vena cava has also been repo
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g p
Budd Chiari like syndrome.
13
Any drop in CO and hence forwardamaged liver acutely ischaemic. Similar complications can be obse where expanding hematomata or tight surgical packing can lead tcially in the presence of inadequate CO.
IAP above 15-20 mm Hg can significantly reduce thoraco abdof a cephalad movement of the diaphragm. This can be accentuattion and development of abdominal and chest wall edema. The c
and rise in pulmonary vascular resistance can lead to significanmatch. Ventilation with low tidal volumes and limitation of airwresults of the ARDS network trial, in the absence of transpulmosurements, is potentially harmful in patients with acute liver failunot practical in patients with raised ICP and high FiO2 requiremecontraindication for liver transplantation. We tend to routinely
water index (EVLWI) in this patient group, which might help dis
injury and restricted thoracoabdominal compliance as the mainThe latter tends to improve rapidly after relief of intra-abdomintheatre or the ICU.
Many patients with acute liver failure present with acute renacant IAH develops, due to mainly prerenal causes. However, espeundergoing liver transplantation, perioperative rise in IAP is of
ARF.
Intra-Abdominal Pressure in Liver Transplant Rd d Cl l l
Intra-Abdominal Hypertension and the Liver
bladder technique. With the primary aim to emphasize the possevated intra-abdominal pressure, IAH was defined as an abdominat least two consecutive measurements. The mean IAP of the stud23, 21 and 20 mm Hg (range 4-65 mm Hg) respectively in the fdure and on the following 2 days. Thirty-four patients (31.5% ofound to have elevated IAP as per study criteria. Their mean IAmm Hg during the 3 days of observation as opposed to 18, 18 andstudy patients with normal or only sporadically elevated abdom0.001). Among the studied individuals, those who developed ren27.9 ± 9.9 mm Hg whereas it measured 18.6 ± 5.2 mm Hg in su
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g g
ment. IAH was associated with a relative risk for ARF of 9.8, whicrenal failure due to sepsis, respiratory failure, congestive cardiac fanal packing and significant intraoperative blood transfusion reqthis setting the calculation of the Filtration Gradient, as propouseful discriminator for renal dysfunction as its values were signinormal IAP (p< 0.001 on the first two days and p< 0.01 on the thof primary graft dysfunction did not differ in patients with elevat
group showed better hepatic function, as assessed by the aPTT raated with a lower PaO2/FiO2 ratio, measured before patients weventilation, less frequent early extubation following the transplmortality. Although the incidence of IAH appears to be similarcritically ill patient groups, the intra-abdominal pressure values re were significantly higher when compared both to surgical and mefrequently found to be less then 20 mm Hg:16,17 the accumulati
abdominal cavity, intestinal edema or congestion due to portal hyrequirement for massive infusion of fluids and blood componentthis finding.
Haemodynamic Monitoring in Patients with LivThe use of filling pressures, such as central venous pressure
occlusion pressure (Paop) as markers of preload can be misleadingsure ventilation with high positive end expiratory pressure (PEEP)or rapidly changing myocardial compliance or in the context o
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tidal volume administered.21 The accuracy of SVV as a functionfar not been validated in patients with multiple organ failure or s
ConclusionThe liver appears to be particularly susceptible to injury in t
Animal and human studies have shown impairment of hepatic celeven with only moderately elevated intra-abdominal pressure. Fudecompensated chronic liver disease and liver transplantation arIAH and the ACS. Significant IAH correlates with extra-hepatictality in patients undergoing liver transplantation. Thus close m
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tion of IAH, followed by aggressive treatment of IAH and ACS min patients with liver disease.
Commentary
Michael Sugrue
Perfusion is key to the liver’s physiological performance. Liver
nal compartment syndrome, may be related to alterations in gldominal perfusion and end organ perfusion itself. Obviously cardiacare crucial as systemic regulators of liver perfusion. Local intra-abprogressing to the abdominal compartment syndrome may resuingly we are recognising that within the capsule of the liver itselfmay have an adverse affect on tissue perfusion. With increasing I
arterial flow, decreased venous portal flow and increase in the pexert physiological effects with decreased lactate clearance, glucosdrial function. This is evidenced by cytochrome p450 abnormaexpression. The exciting recent work from Biancofiore and colleidentified how crucial IAH is in patients undergoing liver transp
References
1. Malbrain MLNG, Wyffels E, Wilmer AP et al. Effects of raisedand subsequent abdominal decompression on cardiovascular and patients. Canada, Ottawa: Abstract book of the 7th World Congr1997 75
Intra-Abdominal Hypertension and the Liver
12. Jalan R. Intracranial hypertension in acute liver failure: Pathophyagement. Semin Liver Dis 2003; 23:271-282.
13. Wachsberg RH. Narrowing of the upper abdominal inferior venaintraabdominal pressure: Sonographic observations. J Ultrasound M
14. Auzinger G, Sizer L, Bernal W et al. Incidence of lung injury in acof extravascular lung water index. Critical Care 2004; 8(Suppl 1):P15. Sugrue M, Jones F, Deane SA et al. Intra-abdominal hypertensi
postoperative renal impairment. Arch Surg 1999; 134:1082-1085.16. Malbrain MLNG. Abdominal pressure in the critically ill: Meas
Intensive Care Med 1999; 25:1453-1458.17. Pelosi P, Malacrida R, Oggioni M et al. Intra abdominal pressur
prospective, observational, multicentre study. Procedings 9th ESA
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p p y g
18. Cheatham ML, Safcsak K, Block EF et al. Preload assessment in p J Trauma 1999; 46:16-22.19. Sutcliffe R, Meares H, Auzinger G et al. Preload assessment in sev
intraabdominal hypertension. Intensive Care Medicine 2002; 28(S20. Auzinger GM, Tilley R, Sizer L et al. Markers of preload in patie
intraabdominal hypertension. Intensive Care Medicine 2002; 28(S21. Reuter DA, Bayerlein J, Goepfert MS et al. Influence of tidal vo
volume variation measured by pulse contour analysis in mechanica
Care Med 2003; 29(3):476-80.
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CHAPTER 11
Intra-Abdominal Hypertensionand the Central Nervous System
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Giuseppe Citerio* and Lorenzo Berra
Abstract
I
n animal studies, increases in intra-abdominal pressure (IAP)(CVP) and pleural pressure (PP) and, eventually, result in elev(ICP) and decrease of cerebral perfusion pressure (CPP). Clinic
correlations. Particularly, in patients with an intracranial hypertecompensatory capacities of accepting intracranial volumes are exhmay induce a further harmful increase in ICP.
In head trauma victims with associated intra-abdominal lesionis recommended, particularly if HICP is recorded. The cornerstonehypertension (IAH) and abdominal compartment syndrome (Apatients at risk and the early recognition and treatment of its hapressive laparotomy can be a useful adjunct in the treatment oexclusion of other removable causes, while the use of laparoscoabsolute contraindication in HICP patients and should be avoideinjury.
Further laboratory and clinical investigation and a strict monpatients will allow us a better understanding and treatment of
burden of IAP on CNS.
Introduction
Intra-Abdominal Hypertension and the Central Nervous System
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mented abruptly when the peritoneal cavity was insufflated duritomy. Bloomfield et al showed the successful management of a patinjury in whom abdominal decompression, indicated only by the cally reduced high ICP, previously unresponsive to medical meas
Since then, many laboratory and clinical investigators are tenrole of the IAH and abdominal compartment syndrome (ACS) o
(CNS), and to answer relevant questions, as:1. What is the physiological response of the CNS to variation 2. How is the IAP variation transmitted to the ICP and CPP?3. What is the role of the IAP, IAH, and ACS on CNS in prese4. What are the maneuvers that may cause a secondary dama
ACS?5. How can we prevent an increase in ICP and a decrease in C
6. And, what should we know about the CNS approaching a pout head injury?
Regardless of improvements in the understanding and treatm
Figure 1. Effect of 15 mm Hg pneumoperitoneum in an animal modehypertension. Modified from Josephs LG et al, J Trauma 1994; 36(6):81
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Table 1. Average values from the five pigs for each experim
Standard Stan15 mm Hg PneuBasal Pneumoperitoneum High ICP + Hi
ICP 13.46 ± 0.68 18.72 ± 1.5 22.6 ± 1.75 27.4MAP 81.92 ± 9.81 86.78 ± 7.75 85 ± 8.26 81.6PaCO2 37.82 ± 2.23 40.52 ± 0.95 41.20 ± 1.43 39.0
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before, during, and after establishment of 15 mm Hg CO2 pneumthen raised by inflating the epidural balloon to an ICP between ments were repeated before, during, and after pneumoperitoneum
dard pneumoperitoneum increases ICP; in particular in the unicreased from a baseline of 13.46 ± 1.01 mm Hg to 18.7pneumoperitoneum (p = 0.0001). In the head injury model (epmoved from 22 ± 1.75 mm Hg to 27.40 ± 0.93 mm Hg (p = significantly from 62.46 to 55.02 mm Hg (Table 1).
The authors hypothesized, according to the modified Monro-Knism through which pneumoperitoneum increases ICP is simply m
doctrine recognizes three main contents in the cranial space: vascuand parenchyma. The doctrine states that, in adults, changes in oresult in reciprocal changes in the remaining compartment. Thproduces, when buffers mechanisms are exhausted, an ICP increflects the relationship between the volume of intracranial contenchyma) and the volume of the cranial vault. In their brain injucreased directly the intracranial volume by inflating the epidural bthe pneumoperitoneum, they indirectly increased the vascular cobral blood outflow, due to the decreased thoracoabdominal comICP i
PaO2 99.2 ± 13.22 105.35 ± 8.85 108.8 ± 9.5 115
All values are expressed in mm Hg. Modified from Josephs LG et al;
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103.4 ± 8.9 mm Hg) and CPP (75.6 ± 9.0 mm Hg). Abdominal toward baseline (11.2 ± 1.8 mm Hg) and further increased CPP (
The authors concluded that elevated IAP increases CVP, PP,
and CPP. Moreover, volume expansion, in the presence of elevateand, because of a larger increase in MAP, CPP. An interesting finthan or equal to 25 mm Hg produces a statistically significant dec without head injuries.
Figure 2. Study design for elucidating effects of elevated IAP upon ICP ancular volume resuscitation. Details described in the text. Modified from Blo40: 936-941.5
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The results of this study confirm that the mechanism of inc
chanical (at PaCO2 < 45 mm Hg, and arterial pH > 7.35). Accdoctrine, the authors demonstrated that cerebral venous outflow is impeded by a significant rise in the CVP. This phenomenon wasion, due to the additional rise in CVP. They suggested that the
jugular venous system and the ensuing obligatory increase in the lar space, are the mechanisms responsible for the increased ICP c
Evidence that Increased IAP Produces a Raise in CVPand Decreases CPP
Furthermore in 1997, Bloomfield et al5 in order to better clathe PP, ICP and CPP in presence of IAH, repeated the animal-stuGroup 1 animals had IAP increased to 25 mm Hg above baseline, prevent a rise in PP, animals underwent a sternotomy and pleurop
ing IAP (Fig. 4). As predicted, in the first group IAP rising to 25 mm Hg abovincreases in ICP, PP, PAOP, CVP and decreases in CI and CPP
Figure 4. Scheme of the Bloomfield’s study design.
Intra-Abdominal Hypertension and the Central Nervous System
group, sternotomy and pleuropericardotomy abolished all the effthe decreased CI (Fig. 5).
In conclusion, these laboratory studies clearly showed thathoracic-abdominal compliance and increases the mean intrathor
reduce cerebral venous outflow, causing an ICP elevation.
Clinical StudiesDespite those laboratory investigations providing evidence ab
the IAH, ICP and CPP, only recently some investigations focussuch findings.
As previously mentioned, in 1995, two case reports simultane
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p y , 995, ptory results. Yet, no clinical trial was performed in the clinical wincreased IAP on CNS.
In 2001, the first clinical study evaluating IAP and ICP was San Gerardo Hospital, Monza, Italy. We designed a prospectivestudy to systematically measure the effects of artificially increasedtients and to clarify the pressure transmission modalities betwe
ments (abdomen, chest and head). IAP was increased by positionthe patient’s abdomen. Strict inclusion criteria were implementedventilated head injury adult patients were considered eligible foracute phase, after the evacuation of surgical masses and when no irecorded (ICP < 20 mm Hg and CPP > 70 mm Hg) throughoutenrollment. Many parameters were monitored: IAP,7 MAP, CVP,sure (IJP), jugular bulb oxygen saturation (SjO2), cerebral oxygen
nial compliance measured as pressurevolume index (PVI8
), comptem divided into its pulmonary and chest wall components and g were carried out before and 20 minutes after the IAP rise. MAP, recorded continuously, as shown in Figure 6.
We found that placing weights upon the abdomen generated which rose from 4.7 ± 2.9 to 15.5 ± 4.1 mm Hg (p <.001) (Figconcomitant and rapid increases in CVP from 6.2 ± 2.4 to 10.4
from 11.9 ± 3.2 to 14.3 ± 2.4 mm Hg (p <.001), and ICP from Hg (p <.001).
All these changes required only seconds to reach a plateau an
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We speculated that probably in the presence of an intracranihigh IAP may induce a more profound and harmful increase in ICICP position on the Starling curve owing to the reduction/absence
Based on those results, our recommendations were:
1. Routine assessment of IAP could help clinicians to identify ICP,
2. Laparoscopic techniques causing IAP rise should be used concomitant head and abdominal injury.11
Figure 9. Effect of PEEP on intracranial pressure in dogs with intracranHuseby, J Neurosurg 1981; 55:704-707. See text for details.
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These suggestions are of a great importance for patient care, bcommonly associated with head trauma. The Major Trauma Outhat up to 40% of patients with major abdominal trauma had anBoston University Medical Center Trauma Registry described aptients who are victims of blunt trauma have an intracranial injury.
head trauma victims
12
showed the presence of associated severe 8% of the ICU admitted patients (90 patients out of 1086).Recently, an interesting paper has been published by the Ad
Figure 11. Scattergram of IAP versus ICP (positive correlation). From: DeCorrelation between intra-abdominal and intracranial pressure in nontraumMed 2005; 31(11):1577-81.
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Specifically, Deeren et al15 found significant correlations betw< 0.01), and ΔIAP and ΔICP (r = 0.69; p < 0.01), IAP and CPP (rand ΔCPP (difference between two consecutive CPP measureme
Overall, the clinical reports and clinical investigations confi
validating the modified Monro-Kellie doctrine. In adults, intracrationship between intracranial contents: osseous, vascular, cerebrmal.16,17 Importantly, the intracranial pressure-volume curve is nrange, small volume increases do not cause substantial pressure iompensation, after which each small increase in volume results inial pressure.
If traumatic or nontraumatic brain injury causes an increase oif i dd l i i l li
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partments or if it adds an extra volume, intracranial compliance ction, it seems plausible that even minor congestion with a smavolume may lead to a marked increase in ICP.
Summary Summarizing the evidence presented in this chapter, we can i
• The effects of intra-abdominal hypertension (IAH) and abdo(ACS) on the central nervous system (CNS) have not been eremain a challenging area for laboratory and clinical investilaboratory investigations tried to describe the effects of intra-aand abdominal compartment syndrome (ACS) on the centrdata, utilizing mainly a pneumoperitoneum model, demonhigh IAP on ICP, generating an increase in ICP. This effect
pressure transmission through an intact rib cage. The incretransmitted to CVP and, therefore, to the cerebral venous oing, at the end, a rise in ICP.
• Seminal clinical study demonstrated the same phenomena inon traumatic brain damaged population. Due to the Monrdepends in its expression intensity upon the position of the CNS. If the compliance of the system is reduced, small chan
impact on ICP. The opposite in a normal, compliant, ICP sFor these reasons:
A d h l d
Intra-Abdominal Hypertension and the Central Nervous System
We will welcome further experimental and clinical studies thincreased IAP on cerebral dynamics. At this point we know that IAas a possible extracranial cause of intracranial hypertension in critphysiologic mechanisms have been already established but need
pressive laparotomy has been recently pointed out as a measure tIAP on CNS but further work is needed to identify its correct timday patient.
Commentary
Michael L. Cheatham
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While the effects of elevated intra-abdominal pressure (IAP)renal function are well-recognized, the significant implications osion (IAH) on intracranial pressure (ICP), cerebral blood flow, an(CPP) are frequently not. As stated by Drs. Citerio and Berra, commonly considered to be two distant and unrelated organ systin this chapter, however, demonstrates that this is not the case. IA
tion of the diaphragm and increased intrathoracic pressure (ITP), doutflow, decreasing CPP and raising ICP. These potentially danthe presence of brain injury and decreased cerebral compliance, catal effects on patient morbidity and mortality.
Due to the potential for IAH-induced secondary injury, cliniciold for initiating serial IAP measurements in the head injured patclearly indicated in the patient with concomitant abdominal inj
considered in the isolated head injury patient with refractory intients with evidence of IAH and inadequate CPP despite approparterial pressure should undergo either immediate decompressiveabdominal fluid drainage depending upon the etiology of the praise ITP such as positive end-expiratory pressure (PEEP) and mothat result in elevated inspiratory pressures should be judiciouslyabdomen in the head injured patient must be cautiously considerthe patient is clinically ready to tolerate any resultant increase in Imeasures will serve to minimize IAP, improve cerebral venous outflo
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9. Huseby JS, Luce JM, Cary JM et al. Effects of positive end-exppressure in dogs with intracranial hypertension. J Neurosurg 1981
10. Athanassiou L, Citerio G, Pesenti A. Laparoscopy is contraindicatedis certainly a doubt! Crit Care Med 2002; 30(10):2402-3, (author
11. Gennarelli TA, Champion HR, Copes WS et al. Comparison of mof 59,713 head injured patients with 114,447 patients with extrac37(6):962-8.
12. Citerio G, Stocchetti N, Cormio M et al. Neuro-Link, a comput jury in intensive care. Acta Neurochir (Wien) 2000; 142(7):769-7
13. Joseph DK, Dutton RP, Aarabi B et al. Decompressive laparotomhypertension after traumatic brain injury. J Trauma 2004; 57(4):6
14. Malbrain ML, Chiumello D, Pelosi P et al. Prevalence of intra-abdill patients: A multicentre epidemiological study. Intensive Care M
15 D DH Di H M lb i ML C l i b i bd
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15. Deeren DH, Dits H, Malbrain ML. Correlation between intrabdin nontraumatic brain injury. Intensive Care Med 2005; 31(11):1
16. Andrews PJ, Citerio G. Intracranial pressure. Part one: HistoricIntensive Care Med 2004; 30(9):1730-3.
17. Citerio G, Andrews PJ. Intracranial pressure Part two: Clinical appliCare Med 2004; 30(10):1882-5.
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human studies demonstrate that an increase in IAP to 15 mmremote organ dysfunction.8-10 Increased IAP is graded as follows: mm Hg, III = 26-35 mm Hg and IV = >35 mm Hg.10 As the
number of organs adversely effected. Animal studies have demonorrhage lowers the threshold at which increased IAP induces remOvert impairment of renal, pulmonary and cardiac function in t
Figure 1. The bloody vicious cycle. Hemorrhagic shock induces many acidosis, core hypothermia and progressive coagulopathy which combine
Abdominal Compartment Syndrome Provokes Multiple Organ Failure
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pulmonary or cardiac dysfunction. Of 77 patients who underwenP i h d l d ACS i ifi l diff f
Figure 2. The salt water vicious cycle. Crystalloid resuscitation initially imping cardiac preload; however, prolonged shock results in gut ischemia/repinterstitial matrix of the bowel. Further crystalloid administration overwleading to bowel wall edema and net fluid loss into the bowel lumen, “filincrease in intra-abdominal pressure (IAP) causes venous compression whincreases interstitial pressure in the gut. This further increases transcapillaand lumen which, if unchecked, results in abdominal compartment synd
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Table 1. Effect of ACS on outcome in patients undergoing d
ACS No A
Ventilator days 22 ± 3 15 ± ICU days 26 ± 3 18 ± Hospital days 40 ± 3 26 ± Number of complications/patient 3.2 ± 0.4 1.9 ±
ARDS 39% 18%
ARF 32% 12%MOF 32% 8%
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intervals, 3.5-20.6; p < 0.0001). In this study, the amount of crysL) in the first 24 hours was an important independent predictor
The University of Texas-Houston group has also reported t
volume infusion associated with supranormal trauma resuscitati ACS.26 In this study, a computerized protocol was used to guitrauma patients presumed to be at high risk for MOF. They cresponses and outcomes of patients resuscitated to a supran(DO2I>600 mL/min/m2) versus a normal goal (DO2I>500 mL/patients had equivalent demographics and injury/shock severity exhibited similar responses in terms of cardiac index and mixed v
optimization of base deficit and serum lactate levels occurred duorder to achieve the supranormal DO2I goal, patients received nei h fi 24 h f ICU (13 2 7 1 L 0 05)
ARF 32% 12%MOF 32% 8%Mortality 43% 12%
Effect of abdominal compartment syndrome (ACS) on outcome in patiesurgery. Despite similar demographics, injury/shock severity and emcare unit (ICU) parameters, patients who developed ACS followingsignificantly worsened outcome compared to patients who did not deve
organ failure (MOF) was four times higher in the ACS compared torespiratory distress syndrome; ARF: acute renal failure.
Abdominal Compartment Syndrome Provokes Multiple Organ Failure
Table 2. Independent predictors of ACS
Independent 95% ConfidencePredictor Odds Ratio Interval SE
All ACS GAP CO2 ≥ 16 >999.9 22.1->999.9Crystalloid ≥ 7.5L 166.2 4.76->999.9UO ≤ 150 mL 89.8 4.49->999.9Hb ≤ 8 g/dL 252.5 9.89->999.9Cl ≤ 2.6 L/min/m2 12.5 1.02-153.64
1˚ ACS Temp ≤ 34˚C 22 9 1 39-378 25
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function following decompression of ACS, 50% of these patientsobservation suggests that ACS may act as a second-insult in a two
The two-event model of MOF postulates that the trauma patieprimed by the inciting event (hemorrhagic shock and/or direct tissresponse to a subsequent systemic inflammatory stimulus27 (Fig. 3that neutrophils obtained from injured patients at risk for MOF exproduction in response to the agonist FMLP compared to normastudies,29 we have shown that the postinjury neutrophil priming alsrelease for membrane degradation, increased CD11b/CD18 expre
1 ACS Temp ≤ 34 C 22.9 1.39 378.25GAPCO2 ≥ 16 54.3 2.15->999.9Hb ≤ 8 g/dL 206.1 7.41->999.9BD ≥ 12 mEq/L 3.5 1.37-839.50
2˚ ACS GAPCO2 ≥ 16 >999.9 <0.001->999.9 1Crystalloid ≥ 7.5L 38.7 3.19-469.55UO ≤ 150 mL 64.1 5.48-749.68
Independent predictors of abdominal compartment syndrome (ACSanalysis was used in a prospective examination of severely injuindependent predictors of ACS. GAP CO2: gastric regional mucosal ccarbon dioxide; UO: urine output; Hb: hemoglobin; CI: cardiac indexdeficit. Reprinted with permission from Balogh et al, J Trauma 2003.
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Table 3. Effect of supranormal oxygen delivery directed trau
GAP CO2
(mm Hg) IAH (mm Hg) ACS (m
DO2>600 (mL/min/m2) 16 ± 2* 42%* 16%DO2>500 (mL/min/m2) 7 ± 1 20% 8%
Effect of supranormal oxygen delivery (DO2I ) directed trauma resuscitwas used to direct resuscitation of severely injured patients at high risk foPatients resuscitated to a supranormal oxygen delivery goal (DO
significantly more crystalloid volume than patients resuscitated to a no2) Thi i t d d t i f i d
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lavage fluid) and liver injury (ALT concentration). Lung PMN
when ACS was induced at 8h after HS which is the time point wmally primed. Accordingly, lung injury occurred when ACS was inot when ACS was induced at 2h or 18h following HS/R (Fig. 4maximal when ACS was induced 8h after HS. 24h mortality was 18h-ACS, 16% when ACS was induced 2h after HS and 33% in following HS/R.
In this study, HS/R alone did not result in histologic or biocliver injury; however, the addition of ACS during the “vulnerablephil priming resulted in MOF and increased mortality. This studindeed act as a second-event to trigger MOF. Furthermore, the obeffect of ACS occurred only when neutrophils were primed stronas a key mediator in ACS-induced MOF.
g y y pm2). This was associated was worsened mesenteric perfusion and anabdominal hypertension (IAH), abdominal compartment syndrome (Amortality. (* P < 0.05 vs. DO2I>500 mL/min/m2). Data from Balogpermission.
Abdominal Compartment Syndrome Provokes Multiple Organ Failure
It is well established that cytokines are important mediators of that precipitates post-injury MOF. To further examine the role of we examined the effect of ACS on systemic cytokine levels and lmodel.32 In this study, rats were subjected to ACS by increasing IA
or 90 min followed by decompression. MAP was reduced by 4turned to baseline with decompression. We determined the effecelevated IAP on systemic levels of the pro-inflammatory cytoki(TNF), interleukin (IL)-6 and IL-1β. All three cytokines increaslowing decompression. Lung myeloperoxidase (MPO) activity wathe effect of ACS on lung neutrophil sequestration. Lung MPO wthe animals that underwent 60 min of ACS followed by decompdence of lung injury (lung neutrophil/macrophage accumulatio
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g j y g p p gobserved in these animals.
An interesting finding in this study is that both the increase in occur until the ACS was decompressed (Fig. 5). This suggests thtion of neutrophils in the lung, perhaps via induction of adhesiontrophil and pulmonary endothelium. Both animal and human stu
mesenteric blood flow is dramatically reduced during ACS and imsion.8,9,33,34 Consequently, we hypothesize that the developmentpression allows a “bolus” of inflammatory agents to enter the lun which is analogous to what occurs following an ischemia/reperfFurther, we propose that mesenteric lymph is the conduct for these agents (Fig. 6).
Some investigators36-38 but not all39 have reported that the de
during ACS results in bacterial translocation from the gastrointesttency in these observations is likely due to inter-species variabilitof bacterial translocation in the pathogenesis of MOF in humanscal studies have demonstrated that bacterial translocation occurs orrhagic shock and does not correlate with the development of Mclinical studies to confirm a causative role for bacterial translocatioby many to play an important role in the pathogenesis of MOF.4
neutrophil-mediated lung injury following hemorrhagic shock istoxic lipid moieties present in mesenteric lymph.42 This observa
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tissue GSH levels and prevented the rise in serum AST, BUN angest that the mechanism of remote organ injury following ACS ischemia and reperfusion and that interventions aimed at limitingto reperfusion can limit organ injury. We have previously repo
oxidase prior to splanchnic ischemia/reperfusion (temporary occlartery) attenuates oxidative injury in the liver and lung;53 howeverfirst to report similar findings in ACS and decompression The e
Figure 5. Enzyme-linked immunosorbent assay was used to measure serumlevels in rats (black bars) during (60 min at 20 mm Hg) and after decompartment syndrome (ACS). The serum TNF level did not increase un(* P <0.05 vs. sham and ACS). Myeloperoxidase (MPO) activity was exa
ACS and decompression on lung neutrophil accumulation (grey bars). Aclung paralleled TNF levels; no increase in lung neutrophils occurred until Avs. sham and ACS).
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Figure 6. Mesenteric lymph is the conduit for gut-derived mediators oHemorrhagic shock provokes mesenteric ischemia/reperfusion which resudamage to the interstitial matrix of the bowel. Whether gut barrier failurein humans is controversial. Comparison of portal vein and systemic cytoconsistent increase in portal vein levels following hemorrhagic shock. Tosenteric lymph obtained from animals following hemorrhagic shock indsponse (SIRS). We hypothesize that the abdominal compartment syndromischemia/reperfusion, serves as a second-event to exacerbate the systemic in
leading to multiple organ failure.
Abdominal Compartment Syndrome Provokes Multiple Organ Failure
While decreasing crystalloid administration during resuscitatiof ACS, it will not entirely prevent it. Early recognition and promremain the mainstay of treatment for ACS. Monitoring of gastricsubset of patients with increased IAP and mesenteric ischemia
ACS.9
These patients might benefit from earlier abdominal decosuggested that anti-oxidant therapies initiated prior to decompreremote organ injury. Specific identity of proinflammatory agenprovide additional therapeutic strategies. While we now recognizfects of intra-abdominal hypertension in the injured patient, we the fundamental mechanisms that will be key to ultimately reducquences of the abdominal compartment syndrome.
Commentary
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Commentary
Manu L. N. G. Malbrain
With the advent of new studies, the correlation between intrintramucosal pH (pHi) and increased gut permeability (as demons
tion) seems to become stronger and stronger every day. The assocpermeability and the subsequent development of multiple organ also been recently demonstrated. With regard to the abdominal cothe question still remains whether the intra-abdominal hypertenan epi-phenomenon in the emergence of MOF. What is the chNonbelievers will indeed point towards increased IAP as a mere sstrategies in trauma, septic or burn patients, whereas believers w
negative effects of IAH on organ perfusion increasing intestinal anrequiring further and ongoing resuscitation that will eventually ongoing IAH and ACS. This chapter will take the reader throughfollowed by the association between and the cause and effect of A
References1. Kron IL, Harman PK, Nolan SP. The measurement of intra-abdo
abdominal reexploration. Ann Surg 1984; 199:28-30.2. Moore FA, Moore EE, Seagraves A. Nonresectional managemen
evolving concept Am J Surg 1985; 150:725-9
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13. Simon RJ, Friedlander MH, Ivatury RR et al. Hemorrhage lowers hypertension-induced pulmonary dysfunction. J Trauma 1997; 42:3
14. Varela JE, Cohn SM, Giannotti GD et al. Near-infrared spectroscoand systemic perfusion during abdominal compartment syndrome.
15. Peppriell JE, Bacon DR. Acute abdominal compartment syndrome
during colonoscopy with conscious sedation. J Clin Anesth 2000; 116. Gorecki PJ, Kessler E, Schein M. Abdominal compartment syndrom
Am Coll Surg 2000; 190:371.17. Gecelter G, Fahoum B, Gardezi S et al. Abdominal compartment sy
tis: An indication for a decompressing laparotomy? Dig Surg 2002;18. Balogh Z, McKinley BA, Cocanour CS et al. Secondary abdomin
elusive early complication of traumatic shock resuscitation. Am J Su543-4.
19. Balogh Z, McKinley BA, Holcomb JB et al. Both primary and secsyndrome can be predicted early and are harbingers of multiple
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syndrome can be predicted early and are harbingers of multiple 54:848-59, discussion 859-61.
20. Biffl WL, Moore EE, Burch JM et al. Secondary abdominal comparevent. Am J Surg 2001; 182:645-8.
21. Ivy ME, Possenti PP, Kepros J et al. Abdominal compartment synBurn Care Rehabil 1999; 20:351-3.
22. Tremblay LN, Feliciano DV, Rozycki GS. Secondary extremity co2002; 53:833-7.
23. Hong JJ, Cohn SM, Perez JM et al. Prospective study of the incidencehypertension and the abdominal compartment syndrome. Br J Surg
24. Raeburn CD, Moore EE, Biffl WL et al. The abdominal compartmplication of postinjury damage control surgery. Am J Surg 2001; 1
25. Offner PJ, de Souza AL, Moore EE et al. Avoidance of abdomdamage-control laparotomy after trauma. Arch Surg 2001; 136:676
26. Balogh Z, McKinley BA, Cocanour CS et al. Supranormal trauma rabdominal compartment syndrome. Arch Surg 2003; 138:637-42, d
27. Moore FA, Moore EE, Read RA. Postinjury multiple organ failure:sepsis in adult respiratory distress syndrome. New Horiz 1993; 1:53
28. Botha AJ, Moore FA, Moore EE et al. Postinjury neutrophil primingable window. Surgery 1995; 118:358-64, discussion 364-5.
29. Biffl WL, Moore EE, Zallen G et al. Neutrophils are primed for cyinjured patients at risk for multiple organ failure. Surgery 1999; 12
30. Zallen G, Moore EE, Johnson JL et al. Circulating postinjury neutof proinflammatory cytokines. J Trauma 1999; 46:42-8.31. Rezende-Neto JB, Moore EE, Masuno T et al. The abdominal com
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CHAPTER 13
Postinjury Secondary AbdominaCompartment Syndrome
Zsolt Balogh* and Frederick A. Moore
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Definition and Historical Perspectives
P
ostinjury ACS is defined by the presence of intra-abdominintra-abdominal pressure (IAP) greater than 25 mm dysfunction(s) such as cardiac, respiratory and renal.1 ACS
when there are no intraperitoneal injuries. To avoid misclassificatclarified. Patients whose abdominal parenchymal organ injuries should not be categorized as secondary ACS since they have infracture related retroperitoneal hematomas without intraperitoneondary ACS. However, retroperitoneal vascular, renal, duodenal, ing laparotomy with and without packing should not be classifiedrows et al reported the first trauma related secondary ACS case
cases in 1998.2 The terminology (“secondary ACS”) was attribuscribed 6 cases and mentioned the potential connection with ma
Epidemiology
IncidenceIt is difficult to determine the true incidence of postinjury seco
nature. Maxwell et al reported 13% incidence among trauma patimesh closure.3 Based on a prospective shock trauma database, B
Postinjury Secondary Abdominal Compartment Syndrome
Table 1. Demographics, injury characteristics and outcome and without ACS
Primary ACS Second(n = 11) (n
Demographics:Age (years) 36 ± 5 45Gender (male %) 73Injury mechanism (blunt %) 82Severity of shock:Initial ED BD (mEq/L) 11 ± 1 9
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Initial ED BD (mEq/L) 11 ± 1 9Lowest ED SBP (mm Hg) 79 ± 3a 8212 hrs PRBCs (Units) 14 ± 4a 11% of urgent interventions (IR/OR) 82Injury severity and pattern:ISS 29 ± 3 28
ATI 18 ± 1a,b 4 ±GCS 13 ± 1 13AIS head 1.3 ± 0.4 1.2AIS face 0.8 ± 0.1 0.7AIS chest 2.7 ± 0.3 2.4AIS abdomen 3.9 ± 0.2a 0AIS extremity 2.7 ± 0.1 4.1 ±
AIS external 1.1 ± 0.2 1.3Times from ED admission:ED discharge (hours) 0.9 ± 0.1a,b 3 ±ICU admission (hours) 3.7 ± 0.5a,b 6.2Outcome:Mechanical ventilation (days) 13 ± 3a 14ICU LOS (days) 14 ± 5 16
MOF (%) 55a 5Mortality (%) 64a 5
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severe pelvic fractures or penetrating chest injuries or extremity vamajor vascular injuries presenting in shock undergo massive resusrelated to secondary ACS. Trauma patients with multiple pelvic aout obvious abdominal or chest injuries undergo extended diagn
include pelvic angiography which is reflected in their significa82% of primary ACS patients had hemorrhage control in the Otaken to interventional radiology (IR) while in secondary ACS
was attempted in the IR in 47% and in the OR in 40% of the case(6.2 vs 3.7 hours) results in longer periods of less controlled resumary ACS patients, secondary ACS patients received significan(32 vs. 20 Liters in first 24 hours) and had a much higher ratio
PRBCs (1.92 vs 0.55). Primary and secondary ACS patients are bhours of hospital admission, but because of longer pre ICU time
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p g pICU phenomenon (~6 hours) than primary (~10 hours). Anothetime is that primary ACS patients arrive from the OR after damrary abdominal closure prevents the very early development of Atime to definitive fascial closure is shorter in secondary ACS patiethey are less likely to develop abdominal abscesses. The outcome
MechanismThe pathologic mechanisms of postinjury 2˚ ACS should be se
response of patients arriving with exsanguinating hemorrhage (sand subsequent standard of care resuscitation leads to whole bodydue to effects of inflammatory cells and mediators. The hemodilu
resuscitation together with the increased permeability and hydrostdriving forces for interstitial fluid accumulation. The edematouscontent) and the retroperitoneal hematoma (decreasing peritoneaelements of the intra-abdominal hypertension. The elevated intravenous and lymphatic outflow from the gut, and thus worsens gulary filtration pressure. Therapeutic interventions initiated to revther fluid resuscitation, increased positive pressure ventilation)
already developed IAH. In secondary ACS patients pelvic fracturand retroperitoneal hematoma are common findings, these as mh k d b d i i l l ib IA
Postinjury Secondary Abdominal Compartment Syndrome
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hemorrhagic shock and coexisting cirrhosis. These reports also ecut-points above which IAP monitoring is recommended.3 BaseMaxwell recommended 10 liters of crystalloid or 10 units of PR
Figure 1. The proposed mechanism of postinjury secondary abdominalischemia/reperfusion; PMN= neutrophil leukocytes; PEEP= positive inta-abdominal hypertension.
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Table 2. Summary of the reported postinjury secondary abdsyndrome patients
Mortality UBP TNo. ISS (%) (mm Hg) All
Maxwell 19997 6 25 67 33 18Kopelman 20008 6 17† 67 30.5 108Biffl 20019 8‡ 20 38 30 10Balogh 2002 11 28 54 34 12
No: the number of postinjury secondary abdominal compartment patUBP: urinary bladder pressure at the time of decompression; h: hours;
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independent risk factors for ACS. The receiver operator charac ACS in general can be predicted with 0.88 accuracy at the timdischarge and surprisingly with 0.99 accuracy one hour after ICmonitoring.
Clinical IndicatorsThe clinical indicators of secondary ACS are elevated IAP, e
(PAP), poor cardiac index and low urine output. It is importan
should be evaluated in the context of the magnitude of the reput of ~ 1 mL/kg could be a sign of impaired renal function inof ~ 2 L crystalloids/h.8
UBP: urinary bladder pressure at the time of decompression; h: hours; from the injuries listed in the paper; ‡: 7 of 8 patients were decompre
Table 3A. Emergency department model: independent predi
IndependentPredictor Odds Ratio 95% Conf SENS
Postinjury Secondary Abdominal Compartment Syndrome
Diagnosis of Secondary ACSPostinjury secondary ACS is an elusive potentially lethal syndr
is the key to achieve optimal outcome and to terminate causative fcrystalloid resuscitation of uncontrolled bleeding. Since physical
determine IAP,14,15 measurement of IAP is required to define theaccepted method is the intravesical technique via the urinary cathrence of the postinjury secondary ACS, intermittent IAP measuremadequate. In cases with ongoing massive resuscitation the continustandard three-way catheter is warranted (Balogh-Sugrue techniq
Treatment
Decompression
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To date the standard treatment of secondary ACS is surgical dcation of a temporary abdominal closure. The previously recommelenges in patients with impending ACS generally do not improharmful.19 Earlier decompression was associated with better outsion happened after 24 hours from the initial signs of the IAH.3,4
ACS patients decompressed within 24 hours there was no differedecompression.6,8 Critically ill secondary ACS patients on aggressgood candidates for operating room trips. If suspicion of life threating is low, these patients can be safely decompressed in the ICU wdraping.8 The regular 48-72 hours temporary abdominal closuformed by the bedside ICU procedure team. This helps to adh
closure without competing with other cases in the operating roomsecond most common finding after bowel edema is ascites. This drainage to relieve the IAH. This method is well described in thsecondary ACS but not in postinjury scenarios.13,20
Response to DecompressionUnless the decompression is performed in the terminal phase
responses to decompression are reported in the literature.5,21
Unforesponse to decompression does not insure a better outcome. In
d d d d
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Postinjury Secondary Abdominal Compartment Syndrome
IAP monitoring, (preferably continuous IAP) and gastric tonomvaluable ICU predicting tool). Given the difficulty demonstratearly decompression, the concept of early presumptive decomp with IAH must be prospectively assessed with careful documentat
open abdomen management.
Commentary
Andrew Kirkpatrick
See “Commentary” section at the end of Chapter 14.
References1. Balogh Z, McKinley BA, Cocanour CS et al. Secondary abdomin
elusive complication of traumatic shock resuscitation Am J Surg 2
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elusive complication of traumatic shock resuscitation. Am J Surg 22. Burrows R, Edington J, Robbs JV. A wolf in wolf’s clothing: Th
drome. South Afr Med J 1995; 85:46-48.3. Maxwell RA, Fabian TC, Croce MA et al. Secondary abdomin
underappreciated manifestation of severe hemorrhagic shock. J Tra4. Kopelman T, Harris C, Miller R et al. Abdominal compartment
lated extraperitoneal injuries. J Trauma 2000; 49:744-749.5. Burch JM, Moore EE, Moore FA et al. The abdominal compartm
Am 1996; 76:833-842.6. Biffl WL, Moore EE, Burch JM et al. Secondary abdominal com
lethal event. Am J Surgery 2001; 182:645-648.7. Johnson JW, Gracias VH, Schwab CW et al. Evolution in dam
penetrating abdominal injury. J Trauma 2001; 51:261-9.8. Balogh Z, McKinley BA, Holcomb JB et al. Both primary and sec
syndrome (ACS) can be predicted early and are harbingers of m2003; 54:848-861.
9. Rezende-Neto JB, Moore EE, Masuno T et al. The abdominal cominsult during systemic neutrophil priming provokes multiple organ
10. Oda J, Ivatury RR, Blocher CR et al. Amplified cytokine responshemorrhagic shock and abdominal compartment syndrome in a reperfusion. J Trauma 2002; 52:625-631.
11. Rezende-Neto J, Moore EE, Melo de Andrade MV et al. Systemic
ary to abdominal compartment syndrome: Stage for multiple organ f1128.
l h l l bd l
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Secondary Abdominal Compartment Syndrome in Burns
patients who developed elevated IAP underwent reexploration anand they all improved; unfortunately two of the four later died of sundergo decompressive laparotomy all died in the early postopetients who developed ACS had undergone major abdominal surge
tic aneurysm repair, major oncologic surgery, portosystemic shunlar injury. The authors concluded that an IAP greater than 25 mneed for reoperation or death. Over the next ten years, the occurrabdominal trauma became widely recognized by trauma surgeon was noted to be a complication occurring primarily in patientssurgery who were in profound shock and required massive fluid r
Several years later, the initial reports of ACS in patients wi
injury began appearing. Burrows reported a patient with abdom who had not sustained abdominal trauma.2 Maxwell and colleaexperience in 1999.3 Of 1216 consecutive trauma admissions to
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p went temporary abdominal closure because of edema in the abdtients had not sustained significant abdominal trauma, but had bemassive fluid resuscitation. They reported that survivors were, ohours earlier than nonsurvivors, which led them to suggest that
might improve patient outcomes. They recommended measurintients who receive 10 liters of crystalloid resuscitation or who areunits of packed red blood cells.
The Burn LiteratureIn 1994, Greenhalgh and Warden reported four cases of elevate
unit, which prompted the prospective trial reported in the same
measured IAP in all children (30 patients) admitted with burns lacitation and placement of a foley catheter. They noted that 11 of 3one reading of more than 30 mm Hg, their working definition osion (IAH). The average total body surface area (TBSA) burn siz was 67%; in contrast, the patients who did not develop IAH ha50%. The mortality of the group with IAH was 55%, which was 16% mortality in the group without IAH. Nearly half of the patieseries who developed the IAH did so during their initial burn resuIAH during subsequent bouts of sepsis Two patients who develo
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percutaneous catheter but did respond to a second catheter placedied several days later from progressive pulmonary failure. Thedominal compartment syndrome during a bout of candida sepspercutaneous but did improve with laparotomy and open decom
died from recurrent sepsis.This article established that abdominal compartment syndrvery large burns during their initial burn resuscitation and also osodes of sepsis. The article provides evidence that burn patients wrisk of mortality, and it suggests that part of the risk is due to the dsive operative decompression seemed to improve their patients’ Intra-abdominal hypertension was shown to occur more frequen
managed successfully with a variety of nonoperative techniquedominal escharotomy, use of nondepolarizing paralytic agents ancompression of the peritoneal cavity.
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co p ess o o t e pe to ea cav ty.In 1998 we reported 3 cases of ACS in adult burn patients
resuscitation.5 All of the patients had sustained greater than 70%associated inhalation injuries. Their intra-abdominal pressures a49, 50 and 36 mm Hg. All three of the patients subsequently d
patients had received more than 20 liters of crystalloid prior to ddeveloped recurrent ACS after the initial decompression.
After the case report, we conducted a prospective study of Aevaluate the frequency of intra-abdominal hypertension and ACprospectively recorded intra-abdominal pressures (IAP) in patiento our burn unit. Our cutoff for IAH was 25 mm Hg, which devereserved the diagnosis of abdominal compartment syndrome for decreased pulmonary compliance or oliguria despite adequate filliput. Only two patients, (20%) developed ACS. One patient with Athat was essentially all full-thickness. He developed an IAP of 3liters of fluid resuscitation. He was decompressed with a laparotonal wall closure. He responded well to decompression and was evThe other patient with ACS had a similar 80% TBSA burn. He w
38 liters of fluid resuscitation and similarly responded well to dedied from recurrent sepsis on post-burn day 86.A linear regression analysis demonstrated that IAP correlates
Secondary Abdominal Compartment Syndrome in Burns
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Figure 2. Decompression laparotomy for IAH.
Secondary Abdominal Compartment Syndrome in Burns
IAH after placement of the dialysis catheters. The adult patient 1800 mL in the first hour after placement. They noted a survivaTBSA burn was 60%.
More recent articles on ACS in burn patients include a report
and colleagues.
8
They conducted a retrospective review of over tween 1998 and 2000. They diagnosed 10 patients with ACS. Thnonoperative methods including NG decompression, bowel caparalysis and abdominal wall escharotomy when indicated. The asix children and four adults, who developed an IAP > 30 mm Hcompromise consistent with ACS that required a procedure to dTBSA burn of patients who developed ACS in this series was 7
decompressive laparotomy on eight patients. Two of their patientsment of a large-bore hemodialysis catheter. They noted two dist were at risk for ACS; 6 patients developed ACS during their inid l d i d i l i i d Th IV fl id i
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developed it during a later septic episode. The IV fluid requiremenoped ACS during their initial resuscitation were 237 mL/kg in thtion. While the numbers are very small, they noted a 50% survivasurvival rate in adults.
Latenser and colleagues at Cook County prospectively studied thneal lavage (DPL) catheter decompression of the abdominal c(> 40% TBSA) burn patients.9 While 22 patients met criteria for were excluded because they were “comfort care only”. This left which 9 (69%) developed IAH. They attempted to treat all occurIAP > 25 mm Hg, with percutaneous decompression. ConsequenIAH, five patients improved with DPL catheter decompression a
despite percutaneous DPL decompression. The patients requirinvery large burns with a mean TBSA burn of > 80% in addition to patients requiring laparotomy after failed DPL decompression dfor the group that responded to DPL decompression was 40%.
Tsoutsos and colleagues recently have studied the role of todevelopment of IAH.10 They studied patients with > 35% TBSAThey performed a standardized set of escharotomy incisions and
crease in abdominal pressures. Clearly a nearly circumferential abevate IAP as patients are resuscitated. Consequently, escharotomy
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Table 1. Characteristics of burn patients with IAH or ACS
Series # Pts TBSA Burn Inhalation
Greenhalgh case series4 4 47% N/AGreenhalgh prospective4 11 67% N/AIvy5 3 87% 1/3Latenser9 9 59% 7/9Hobson8 10 71% N/ACorcos7 3 60% 2/3
Ivy6 7 47% 28%Tsoutsos10 10 57% 60%
# pts number of patients in series that developed IAH and or ACS TBSA
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in 16 patients at 8 hours, it actually increased by 47% in the patients that were successfully managed with a lower rate of IVsevere injuries with a mean area of full-thickness burn of only 3%,had full-thickness burns covering 14% of their TBSA. The groupThe mean 24 hour fluid resuscitation volume in the group whe
5.6 mL/kg/%TBSA and was 7.7 mL/kg/%TBSA in the other grstudy is that a 70 kg patient with a 50% TBSA burn with more being full-thickness will receive approximately 27 liters over thabsence of an inhalation injury.
A survey conducted by Engrav et al reviewed data on 50 patreceived more than the 4.3 mL/kg/% TBSA compared with theBaxter.13 These studies corroborate the suspicion of Dr Pruitt ancantly more aggressive with our fluid resuscitation than in yeavolume of fluid resuscitation probably does contribute to the rela
# pts: number of patients in series that developed IAH and or ACS; TBSAbody surface area burned in patients with IAH or ACS; Inhalation: premean IAP; Early: development of IAH or ACS within 72 hours of burn inor ACS during sepsis episode later in hospitalization; N/A: not availablein mm Hg
Secondary Abdominal Compartment Syndrome in Burns
Table 2. Characteristics of patients with burns and ACS
Series # pts TBSA Burn Inhalation IA
Latenser9 4 83% 4/4 34Hobson8 10 71% N/A 40Corcos7 3 60% 2/3 52Ivy5 3 87% 1/3 45Ivy6 2 80% 1/2 40Total 22 75% 8/12 41
# pts: number of patients; TBSA: % Total body surface area burned; Inhinjury; IAP: mean intra-abdominal pressure of patients in that series; from hospital; IAP: intra-abdominal pressure in mm Hg
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sustained an inhalation injury.5-9 In the general trauma populatiotalloid resuscitation utilizing protocols has been shown to drop
50%.14 Hopefully, the incidence of IAH and ACS in patients wdecreased by a resuscitation that utilizes a very tightly titrated florder to maintain a urine output greater than 0.5 mL/kg/h buthypothesis can only be evaluated by a prospective trial performedburn centers.
An aggressive approach to IAH and ACS emphasizing early diaof benefit to some burn patients, but this has not been clearly declinical trial. A variety of techniques have been used to decreasincluding sedation, use of paralytic agents, diuresis, abdominal wneous catheter drainage of intraperitoneal fluid.4-10 While severalincreased risk of mortality in patients who develop IAH, most ponto develop full-blown ACS.4-10 Some patients with ACS seem tcatheter decompression, but often patients with ACS will require d
Burn patients with ACS universally benefit from decompression tive period.4-6,8,9 Unfortunately, most burn patients who require dACS d i di h 4-6 8 9 Th ll f i
from hospital; IAP: intra abdominal pressure in mm Hg
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Commentary
Andrew Kirkpatrick
Tremendous progress has been made in the last century in treat
and injured. This progress has often been necessitated by both huof previously unknown complications unmasked by prior advancfirst half of this century led to the discovery that shock resultedeficits and that colloid and blood should be administered preopeof the last century, the frequent complication of early renal failure wthe administration of aggressive crystalloid fluid resuscitation in bumes administered sometimes seemed enormous (especially buUnfortunately, this practice was followed by the acute respiratorycause of morbidity and mortality in the third quarter.5 Dedicatedter has led to efficient trauma systems providing early hemorrh
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ter has led to efficient trauma systems providing early hemorrhdamage control surgery to reduce exsanguinating deaths. Thimulti-disciplinary care to alleviate single system organ failure, wibecoming a leading cause of in-hospital trauma death.6 The last
have now seen a description of another post-injury complicationtreatment of hemorrhagic shock and severe burns. This is the secment syndrome (SACS). It is likely that this syndrome, closely assocshock and multi-system organ failure, is related to our current resresuscitate shock (either traumatic or burn-related), as well as insult is addressed, may be important in the pathophysiology of
Dr Balogh et al, from the University of Texas have published m
SACS, and the world literature on this subject is thus greatly inThey have described the syndrome as an elusive, but very early coand resuscitation.7 While pressure thresholds and definitions are intra-abdominal pressures greater than 25 mm Hg accompaniedrenal function as being diagnostic. They refer to SACS when theries, and specifically consider pelvic fracture related intraperitoneperitoneal injury to be secondary,7,8 in consensus with other auth
point as this particular injury comprises 73% of the SACS groupsidered SACS to apply only to those without injury or disease in
Secondary Abdominal Compartment Syndrome in Burns
Linear regression predicts elevated intra-abdominal pressure to 25requires intervention,15 after 250 mL/kg or a burn injury of 63% Bresuscitation formula. This syndrome has been variably described tially reflects clinically evident end-organ dysfunction on the basis
intra-abdominal pressures.
16,17
It also likely that raised intra-abdomaffect the course of critically injured patients through impaired vtiation of multi-organ dysfunction, even if the full-blown syndrothe SACS does develop, it typically has a dramatic response toalthough the presence of SACS after burn injury has ominous icharge (29% survivors).
Fluid resuscitation has been defined as a treatment regimen
intended to minimize the effects of (hemorrhagic) shock and toresponse.2 The goal being to maintain perfusion to each and evecially to the penumbra of injury. In contradistinction to previouunder resuscitated patients though we appear to have entered an
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under-resuscitated patients though, we appear to have entered an crystalloid fluids administered in excess of that required, so that pare not increased, but are actually paradoxically decreased due effects of SACS.22,23
Precedent has shown that identified limitations and problems tby conditions now successfully treated, quickly become topics for nfully the SACS will be as well.4 Many anti-inflammatory approainvestigated to ameliorate the primary insult, including hypertongies. Closed loop computer-driven resuscitation using fluid adminmeasured value of a predefined end-point may achieve favorablefluid administration and avoidance of over-resuscitation,24 althou
end-point is still critical in avoiding over-resuscitation and the ACare proven though, due diligence will be required of all clinicianshemorrhage control and to optimize the fluid resuscitation to theing a continued presence at the foot of the bed.
Commentary References1. Cannon WB. Traumatic shock. New York: D Appelton Co, 1923
2. Introduction. Pope A, French G, Longnecker DE, eds. Fluid ResusTreating Combat Casualties and Civilian Injuries. Washington,
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13. Ivy ME, Atweh NA, Palmer J et al. Intra-abdominal hypertensiosyndrome in burn patients. J Trauma 2000; 49:387-91.
14. Hobson KG, Young KM, Ciraulo A et al. Release of abdominal survival in patients with burn injury. J Trauma 2002; 53:1129-34
15. Nathens AB, Brenneman FD, Boulanger BR. The abdominal com
1997; 40:254-8.16. Schein M, Wittman DH, Aprahamian CC et al. The abdominphysiolgical and clinical consequences of elevated intra-abdominal 180:745-52.
17. Kirkpatrick AW, Brenneman FD, McLean RF et al. Is clinical exof raised intra-abdominal pressure in critically injured patients. Ca
18. Ivatury RR, Porter JM, Simon RJ et al. Intra-abdominal hyperteetrating abdominal trauma: prophylaxis, incidence, and clinical r
and abdominal compartment syndrome. J Trauma 1998; 44:101619. Diebel LN, Dulchavsky SA, Brown WJ. Splanchnic ischemia anabdominal compartment syndrome. J Trauma 1997; 43:852-5.
20. Engrav LH, Colescott PL, Kemalyan N et al. A biopsy of the useb d d l k h l d d h
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citate burns or do we do it like Charlie did it? J Burn Care Reha21. Pruitt BA. Protection from excessive resuscitation: “Pushing the pe
49:567-8.22. Balogh Z, McKinley BA, Cocanour CS et al. Supranormal trauma
of abdominal compartment syndrome. Arch Surg 2003; 138:637-423. Balogh Z, MooreFA, McKinley BA. Supranormal trauma resusciment syndrome: In reply [letter]. Arch Surg 2004; 139:226-7.
24. Chaisson NF, Kirschner RA, Deyo DJ et al. Near-infrared spectrostation of hemorrhage. J Trauma 2003; 54:S183-S192.
References1. Kron IL, Harman PK, Nolan SP. The measurement of intra-abdo
abdominal reexploration. Ann Surg 1984; 199:28-30.2. Burrows R, Edington J, Robbs JV. A wolf in wolf’s clothing-th
drome. S Afr Med J 1995; 85:46-48.3. Maxwell RA, Fabian TC, Croce MA et al. Secondary abdomin
underappreciated manifestation of severe hemorrhagic shock. J Tr4. Greenhalgh DG, Warden GD. The importance of intra-abdominal p
children. J Trauma 1994; 36:685-690.
5. Ivy ME, Possenti PP, Kepros J et al. Abdominal compartment synBurn Care Rehabil 1999; 20:351-353.
CHAPTER 15
Morbid Obesity and ChronicIntra-Abdominal HypertensionGiselle G. Hamad* and Andrew B. Peitzman
Abstract
Mbid b i h hi d id i i i h
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Morbid obesity has achieved epidemic proportions in theber of comorbid conditions are associated with morbidsyndrome, which consists of central obesity, insulin r
hyperlipidemia. An association between obesity and intra-abdomdemonstrated, which explains the predisposition to pseudotumomonary disorders, stress urinary incontinence, gastroesophageal remorbid obesity. Weight loss results in a reduction in intra-abdomof comorbidities.
Morbid Obesity and Weight-Related Comorbidi
Morbid obesity has achieved epidemic proportions in the Unpercent of American adults are overweight and 31 percent are oobesity-attributable medical expenditures reached $75 billion peduces a multitude of chronic illnesses affecting virtually every or weight-related comorbidities account for the heightened mortalit
Two types of obesity have been described: peripheral, or gynecCentral obesity has been linked to an elevation in intra-abdomin
chronic intra-abdominal compartment syndrome.3
Central obesithe metabolic syndrome, whose major components include insu
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Table 1. Obesity-related comorbidities
Neurologic Hypercoa
Migraine headaches Deep venPseudotumor cerebri Venous sRespiratory PulmonaObstructive sleep apnea GenitourAsthma Stress incObesity hypoventilation syndrome Renal insCardiovascular Reproduc
Hypertension AmenorrhHyperlipidemia DysmenoCongestive heart failure PolycystiCoronary artery disease Connecti
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correlated significantly with sagittal abdominal diameter (r = 0.obese patients with intra-abdominal pressure-related comorhypoventilation, gastroesophageal reflux, venous stasis, stress inconia, bladder pressures were significantly elevated comparedpressure-related comorbidity (19 ± 0.8 vs 15 ± 1.3, P < 0.05). T
obesity elevates IAP, which then induces the comorbidities relateAdditional studies have demonstrated the relationship betwee
Left ventricular hypertrophy DegeneraMetabolic syndrome GoutVaricose veins Incisiona
Venous stasis disease PsychiatrGastrointestinal DepressioGastroesophageal reflux AnxietyCholelithiasis MalignanNonalcoholic steatohepatitis ColorectaEndocrine EndometType II diabetes mellitusHypothyroidism
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abdominal pressure device designed to alleviate the effects of IAfiberglass shell that was applied to the abdomen vacuum tubin
Table 2. Initial effect of ABSHELL™ on symptoms of pseudoobesity
Headache
Before ABSHELL™ 6.8 ± 0.85 min after ABSHELL™ 4.2 ± 0.8*1 h after ABSHELL™ 2.2 ± 0.8†
* p < 0.05; ** p < 0.02; †p < 0.01. Reprinted with permission from: Sug
Metab Disord 2001; 25:486-90. ©2001 Nature Publishing Group.
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fiberglass shell that was applied to the abdomen, vacuum tubinHeadache and pulsatile tinnitus resolved within five minutes (Tathe patients wore the devices. Symptoms gradually returned oncPatients who wore the device as they slept awoke without headac
For more durable control of symptoms, surgically induced wtoms of PTC. Sugerman and colleagues demonstrated a reduction18 out of 19 patients with PTC within four months of bariatric
Intra-abdominal hypertension causes disturbances in cranial hal reported significant increases in intracranial pressure and pleuof abdominal hypertension, while cerebral perfusion pressure d
data suggest that an elevation in intra-abdominal pressure causesure, which induces an increase in intracranial pressure and a dpressure.
Pulmonary Abnormalities and Obesity The morbidly obese suffer from a higher risk of pulmonary
explained by the adverse effects of IAH on the mechanical proper
and pulmonary hemodynamics in association with obesity. intra-abdominal balloon experiment in swine by Bloomfield et al
Morbid Obesity and Chronic Intra-Abdominal Hypertension
Gastroesophageal Reflux Gastroesophageal reflux disease (GERD) and hiatal hernia ar
bidly obese. Factors that promote GERD include a short intra-sphincter (LES), reduced LES pressure, elevated intra-abdomina
ageal clearance, and impaired gastric emptying. The IAH assocpressure gradient between the stomach and the gastroesophageal placement of the LES above the diaphragm. A sliding hiatal herGERD.25 In a study of 345 patients with morbid obesity who undprior to undergoing gastric bypass, hiatal hernia was present in 5 was diagnosed in 31.4%.26 Twenty-four pH monitoring was aEverhart published the results of the National Health and Nu
(NHANES I), in which approximately 12,000 patients were folyears.27 The data suggested that hospitalization for reflux was assment in BMI.
Obese patients undergoing traditional antireflux operations h
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p g g pthan normal weight or overweight patients. Patients with docummedical management were classified into groups based on their BMobese.28 Following laparoscopic Nissen fundoplication or Belsey M
patients had recurrent reflux, while only 4.5% of the normal grou8% of the overweight group (p = 0.001 vs obese) recurred. Theincrease in IAP in obesity contributes to the failure of antireflux surepair and fundoplication.
In light of the failure of traditional antireflux surgery in obesihas been recommended for treatment of GERD in this populatbanded gastroplasty is not only unsuccessful at controlling GERreflux.33
Genitourinary SystemThe pathogenesis of hypertension and renal dysfunction in o
IAH. In a porcine model, elevated IAP caused an elevation in rconcomitant reduction of urine output, an increase in plasma reni
one.
34
Therefore, sodium and water are retained and vasoconstglomerulopathy and proteinuria may result from the increase in rb d h ( )
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ileal pouch-anal anastomosis (IPAA) for ulcerative colitis.39 Amon20% subsequently developed incisional hernia, compared to 4% ofFive out of 7 IPAA patients with incisional hernia were obese (Bonly 1% of the nonobese IPAA patients developed an incisionaltients undergoing laparoscopic ventral hernia repair, Raftopouloaccording to BMI.40 The surface area of the hernia correlated wit
Following incisional herniorrhaphy, obesity is an importanrence.39,41,42 Sauerland et al found a recurrence rate increase of study of 160 patients undergoing open incisional herniorrhaphy.
In Sugerman’s hernia study, the rate of recurrent hernia was 4patients.39
ConclusionThe comorbid illnesses of obesity adversely affect virtually eve
genesis of many of these conditions may be related to intra-abdo
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loss results in resolution of the majority of these comorbidities.
Commentary
Michael L. Cheatham
Intra-abdominal hypertension (IAH) has been increasingly doccur in a wide-variety of critically ill patient populations. In thPeitzman identify and describe a clinical scenario in which IAHchronic setting: the morbidly obese patient. As with IAH i
intra-abdominal pressure (IAP) in the morbidly obese patient cancerebral, cardiac, pulmonary, and renal physiology and function. disease processes common to the morbidly obese such as pshypoventilation syndrome, gastroesophageal reflux, and stress urecognized as being caused, in large part, by the IAH incurred index (BMI). Further, the propensity to poor fascial healing anrates among the obese has been established as being due to IAH
dominal wall and rectus sheath blood flow, pathophysiologic chcan lead to outcome-altering therapeutic interventions.
Morbid Obesity and Chronic Intra-Abdominal Hypertension
References1. Hedley AA, Ogden CL, Johnson CL et al. Prevalence of overweig
dren, adolescents, and adults, 1999-2002. JAMA 2004; 291:2847-2. Finkelstein EA, Fiebelkorn IC, Wang G. State-level estimates of
tributable to obesity. Obes Res 2004; 12:18-24.
3. Sugerman HJ. Effects of increased intra-abdominal pressure in seve2001; 81:1063-1075.
4. Carr DB, Utzschneider KM, Hull RL et al. Intra-abdominal fatNational Cholesterol Education Program Adult Treatment Panel IIdrome. Diabetes 2004; 53:2087-2094.
5. Janssen I, Katzmarzyk PT, Ross R. Waist circumference and obesity-related health risk. Am J Clin Nutr 2004; 79:379-384.
6. Sugerman H, Windsor A, Bessos M et al. Intra-abdominal pressu
and obesity comorbidity. J Intern Med 1997; 241:71-79.7. Sanchez NC, Tenofsky PL, Dort JM et al. What is normal intr
2001; 67:243-248.8. Noblett KL, Jensen JK, Ostergard DR. The relationship of body
pressure as measured by multichannel cystometry Int Urogynecol
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pressure as measured by multichannel cystometry. Int Urogynecol8:323-326.
9. McIntosh S, Drinnan M, Griffiths C et al. Relationship of abdoindex in men with LUTS. Neurourol Urodyn 2003; 22:602-605.
10. Sugerman H, Windsor A, Bessos M et al. Effects of surgically bladder pressure, sagittal abdominal diameter and obesity comorbDisord 1998; 22:230-235.
11. Bloomfield GL, Sugerman HJ, Blocher CR et al. Chronically incproduces systemic hypertension in dogs. Int J Obes Relat Metab D
12. Bloomfield GL, Ridings PC, Blocher CR et al. A proposed rintra-abdominal, intrathoracic, and intracranial pressure. Crit Care
13. Kanai H, Matsuzawa Y, Kotani K et al. Close correlation of intra
hypertension in obese women. Hypertension 1990; 16:484-490.14. Hayashi T, Boyko EJ, Leonetti DL et al. Visceral adiposity and th
Japanese-Americans. Circulation 2003; 108:1718-1723.15. Kanai H, Tokunaga K, Fujioka S et al. Decrease in intra-abdomin
pressure in obese hypertensive women. Hypertension 1996; 27:12516. Prior DL, Sprung J, Thomas JD et al. Echocardiographic and hem
vascular performance during laparoscopy of morbidly obese patient17. Sugerman HJ, DeMaria EJ, Felton III WL et al. Increased intra-
filling pressures in obesity-associated pseudotumor cerebri. Neurol18 Sugerman HJ Felton 3rd WL Sismanis A et al Continuous negat
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28. Perez AR, Moncure AC, Rattner DW. Obesity adversely affects ttions. Surg Endosc 2001; 15:986-989.
29. Jones Jr KB. Roux-en-Y gastric bypass: An effective antireflux proobese. Obes Surg 1998; 8:35-38.
30. Smith SC, Edwards CB, Goodman GN. Symptomatic and clinical
patients with gastroesophageal reflux disease following Roux-en-Y 7:479-484.31. Di Francesco V, Baggio E, Mastromauro M et al. Obesity and gas
iopathological mechanisms and Role of gastric bariatric surgery. O32. Ortega J, Escudero MD, Mora F et al. Outcome of esophageal f
pH monitoring after vertical banded gastroplasty and roux-en-Y g14:1086-1094.
33. Schauer P, Hamad G, Ikramuddin S. Surgical management of g
obese patients. Semin Laparosc Surg 2001; 8:256-264.34. Bloomfield GL, Blocher CR, Fakhry IF et al. Elevated intra-abdorenin activity and aldosterone levels. J Trauma Inf Crit Care 1997
35. Dwyer PL, Lee ETC, Hay DM. Obesity and urinary incontinence 1998; 95:91-96.
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;36. Bai SW, Kang JY, Rha KH et al. Relationship of urodynamic pa
with stress urinary incontinence. J Reprod Med 2002; 47:559-56337. Noblett KL, Jensen JK, Ostergard DR. The relationship of body
pressure as measured by multichannel cystometry. Int Urogyneco8:323-326.38. Bump RC, Sugerman H, Fantl JA et al. Obesity and lower urinary
of surgically induced weight loss. Am J Obstet Gynecol 1992; 1639. Sugerman HJ, Kellum Jr JM, Reines HD. Greater risk of incisio
than steroid-dependent patients and low recurrence with prefascial 1996; 171:80-84.
40. Raftopoulos I, Vanuno D, Khorsand J et al. Outcome of lapar
correlation with obesity, type of hernia, and hernia size. J Lapar12:425-429.
41. Anthony T, Bergen PC, Kim LT et al. Factors affecting recurrencephy. World J Surg 2000; 24:95-101.
42. Langer C, Schaper A, Liersch T. Prognosis factors in incisional heence. Hernia 2004, [Epub ahead of print].
43. Sauerland S, Korenkov M, Kleinen T et al. Obesity is a risk factohernia repair. Hernia 2004; 8:42-46.
Miscellaneous Conditions and Intra-Abdominal Hypertension
CHAPTER 16
Miscellaneous Conditionsand Intra-Abdominal Hypertens
Ari Leppäniemi, Andrew Kirkpatrick, Anastazia SalaSavvas Nicolaou and Martin Björck
Intra-abdominal hypertension and the abdominal compartme
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Iyp p
recognized in non-traumatic conditions in the critically ill pathree of those situations: acute pancreatitis, renal transplant
rysm (the condition in which some of the very early cases of ACS
Part A: Severe Acute Pancreatitis
Ari Leppäniemi*
Abstract Under-diagnosed and untreated abdominal compartment syncontributing factor to the development of early organ failure seenpancreatitis, and warrants routine measurement of intra-abdomtreated for severe pancreatitis. The current estimate of the prevalpertension (IAH) in severe acute pancreatitis is about 40%, withing to ACS associated with increased hospital mortality rates. I
development of IAH is rapid and mainly due to the combined effcitation and the inflammatory process in the retroperitoneum lea
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IntroductionThe mortality rates for severe acute pancreatitis have shown s
in 1978-1982 to 12-18% in 1993-1997.1 Aggressive fluid resu
prophylactic antibiotic treatment, more accurate indications and tiadvances in the monitoring and management of organ dysfunctnutrition and early endoscopic sphincterotomy in patients with compancreatitis have been major factors contributing to improved sucharacterizing patient reserves, such as age or previous cardiovascument of multiple organ dysfunction or failure is the major detRecent data from the Meilahti Hospital, University of Helsinki,
the mortality rates in patients with severe acute pancreatitis and mhave improved considerably in the last 15 years (Fig A1) the cum
Figure A1. Hospital mortality rate (%) in patients treated for severe acHospital, University of Helsinki, Finland in 1967-2003. (Halonen and Lepp
Miscellaneous Conditions and Intra-Abdominal Hypertension
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grade B)”. Rapidly accumulating evidence supports the inclusion oment of abdominal compartment syndrome in the managementsevere acute pancreatitis.
PrevalenceThe true prevalence of IAH in patients with severe acute pan
study of 41 patients with severe acute pancreatitis, 44% of the pthan 12 mm Hg, and 4 patients (10%) had IAP levels higher than dysfunction and undergoing abdominal decompression.6 In anothin the ICU for severe acute pancreatitis, 10 patients (27%) had IA
Hg, with an overall frequency of 10/120 (8%) if all patients wtreated in other units (surgical ICU high dependency unit) wer
Figure A2. Cumulative mortality rate (%) at 14, 30, 60 and 180 days post-severe acute pancreatitis at the Meilahti Hospital, University of Helsinki, Fand Leppäniemi 2004, unpublished data.)
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pancreatitis without early organ dysfunction.3 Another study f with severe acute pancreatitis complicated with ACS showed thdeveloped at a later stage of the disease and was associated with the prenecrosis.11
ACS and Organ DysfunctionSeveral studies show the association between IAH and develop
severe acute pancreatitis.6,7,12 De Waele et al6 showed that there wratory failure, 94% cardiovascular and 89% renal failure rate in p12 mm Hg.
Because the pathophysiological responses to the cellular even
disease have the ability to induce organ dysfunction even withoustudies are needed to characterize the exact mechanisms, role and early organ failure in severe acute pancreatitis.
Diagnosis
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DiagnosisCurrently, there is no evidence suggesting that the standard
IAP could not be applicable and reliable in patients with severe
commonly used technique is the bladder pressure measurement t Due to the nature of the development of ACS in patients w
with other potential causes for organ dysfunctions, the routinepatients with severe acute pancreatitis is warranted.
Treatment The treatment of ACS in patients with severe acute pancreatit
of the principal cause of the IAH. If an ultrasound examination cvolumes of pancreatic ascites, the first line treatment would be tthe intraperitoneal exudate which can lead to a significant dropstract). In most cases, however, visceral edema is the principal factopment of ACS, and decompressive laparotomy and temporary abdbag or equivalent is the most effective way of decreasing the IAP.
During the last 10 years, the proportion of patients with infetions for surgical necrosectomy in severe acute pancreatitis has d
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rapidly reversed with aggressive management of the fluid balance,severe acute pancreatitis usually continues for several weeks prohiabdominal wall due to the risk of developing recurrent ACS. The nique and the one used by the author is the utilization of the vnique aiming for gradual closure of the abdominal wall. If not pobowel and late abdominal wall plastic surgical reconstruction 9-option, although associated with considerable morbidity and disc
Mortality
Figure A3. Proportion of patients undergoing operative or nonoperative tratitis at the Meilahti Hospital, University of Helsinki, Finland in 1989-22004, unpublished data.)
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3. Tao H-Q, Zhang J-X, Zou S-C. Clinical characteristics and manacute severe pancreatitis: Experience from a medical center in Chin10:919-921.
4. Navarro S, Hidalgo JM, Bejarano N et al. Intra-abdominal pressurity in acute pancreatitis. Inaugural World Congress Abdominal C Australia, 2004.
5 Uhl W W h A I i C l IAP G id li f h i l
Figure A4. Maximum IAP value and mortality rate in 37 patients treapancreatitis.7
Miscellaneous Conditions and Intra-Abdominal Hypertension
Part B: The Renal Allograft Compartmentin Perspective: An Organ Specific Comparwith Illustrative Pathophysiology
Andrew Kirkpatrick,* Anastazia Salazar, Davis Elliot
Abstract Renal allograft compartment syndrome (RACS) is a specific e
planted kidney due to closure of fascia with excessive force and mdonors and small recipients, and adult kidneys transplanted in chopening the compartment. Diagnosis is by sonography of the allcuss this special variant of abdominal compartment syndrome.
Introduction
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Abdominal compartment syndrome (ACS) affects every humanized clinically as cardiac, respiratory, and renal dysfunction.1-3 A
100 years ago, these adverse effects, to which the kidneys are partirecently been widely appreciated, in no small measure due to theone of the editors of this volume. IAH has been statistically assdysfunction, multi-system organ failure, and death.5,7 Untreateddeath in it’s fully developed form,8 and it is assumed that either prtion to reduce IAH might improve the previously dismal outcomeRoutine IAP measurements are now easily obtained and should be
patients.3,11 Raised intra-abdominal pressure (IAP) may begin to10 mm Hg and markedly impairs renal function at pressures as lcally ill populations may have a 50% incidence of raised IAH (IAPrenal function has not been shown to improve with decompressioneal cavity,6 other markers are needed to identify which patients on to develop the ACS from those who will not, and thus could b
The Renal Allograft Compartment SyndromeA ifi l ll f d (RACS) h
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technically, extraperitoneal, but intra-abdominal.19,20 The relatikidney syndrome, wherein chronic extrinsic compression of the rlateral renal ischemia and increased renin release with potential scurrently unknown.
All cases diagnosed postoperatively have been suspected on th
and confirmed through postoperative Doppler US demonstratinginterlobar and segmental arteries and absent venous flow.15,16 Of eratively in London, Ontario three underwent early reexploration one with a delayed reexploration was lost. In cases of graft survivaimmediately improved visual and Doppler findings. Treatment ouse of a prosthetic mesh, skin-closure only, or intraperitoneal reloour centre, out of 458 renal transplants, there were 11 diagnoses(2.4% incidence). Six cases were diagnosed intra-operatively baseperfusion. There were five postoperative diagnoses based on graft the vascular parameters of Doppler ultrasound. All cases were re-exgrafts were relocated to the peritoneal cavity, and in two cases ki l l I ll i f f i d
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skin-closure only. In all instances graft function was recovered athis limited experience with a few cases of RACS important so
speculated upon. It has been simply stated that, “reversal of diaarteries or absence of flow in the renal veins may be a sign of insyndrome.”15 Might this simple bed-side technology offer a non-risk from the ACS?
Sonography of the Renal Allograft There is great clinical experience with renal sonography in
sonographic examination being a basic technique of examining graation of the course of the main renal arteries in their entirety is uthe intrarenal vasculature can be detected in virtually all patients. with slowed systolic acceleration and low amplitude is sought asstruction. Renal vascular indices are commonly calculated after not discriminate the actual pathology, the finding of diminishedflow in renal allografts almost always indicates pathologically in
ance, except when severe hypotension is present.24,25 The resistivel t d f m th int l b t t i nd th d n t m
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are available for reversing the endocrinological abnormalities of rof renal perfusion abnormalities is required.12,28-31 Resistive indsonography show very close correlation when intraperitoneal presto 30 mm Hg in anesthetized swine (Figs. B2-B4). To date though
reports regarding the utility of renal sonography in evaluating nai ll h l i IAP
Figure B1. Renal duplex image of a patient with renal allograft comparreversal of diastolic flow in the interlobar renal arteries.
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Figure B2. Renal duplex image of a porcine kidney subjected to an intra-aResistive index = 0.556 (see text).
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blood cells can be used as sonographic contrast media.42,43 Thesefemoral venous line, demonstrating excellent correlation (r = 0.8range of renal blood flow changes in swine.42
Future DirectionsThe early appreciation of RACS should be facilitated by a gre
tion, supplemented by the liberal use of renal sonography. Both inperitoneal pressures should be measured and correlated with grcorrelation of the sonographic findings of the transplant kidney su
will lead to both a physiologic and technical appreciation of thenative kidney subjected to similar adversity.
References1. Schein M, Wittman DH, Aprahamian CC et al. The abdomin
physiolgical and clinical consequences of elevated intra-abdominal 180:745-52.
2. Nathens AB, Brenneman FD, Boulanger BR. The abdominal com
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1997; 40:254-8.3. Kirkpatrick AW, Brenneman FD, McLean RF et al. Is clinical ex
of raised intra-abdominal pressure in critically injured patients. Ca4. Sugrue M, Buist MD, Hourihan F et al. Prospective study of inrenal function after laparotomy. 1995; 82:235-8.
5. Sugrue M, Jones F, Lee A et al. Intraabdominal pressure and gastassociation? World J Surg 1996; 20:988-91.
6. Sugrue M, Jones F, Janjua KJ et al. Temporary abdominal closureeffects on renal and respiratoy physiology. J Trauma 1998; 45:914
7. Sugrue M, Jones F, Deane SA et al. Intra-abdominal hypertens
postoperative renal impairment. Arch Surg 1999; 134:1082-5.8. Burch JM, Moore EE, Moore FA et al. The abdominal compa Amer 1996; 76:833-42.
9. Maxwell RA, Fabian T, Croce M et al. Secondary abdominunderappreciated manifestation of severe hemorrhagic shock. J Tr
10. Ivatury RR, Porter JM, Simon RJ et al. Intra-abdominal hyperteetrating abdominal trauma: prophylaxis, incidence, and clinical rand abdominal compartment syndrome. J Trauma 1998; 44:1016
11. Malbrain ML. Intra-abdominal pressure in the intensive care unit: ed Yearbook of Intensive Care and Emergency Medicine Berlin:
Miscellaneous Conditions and Intra-Abdominal Hypertension
20. Balogh Z, McKinley BA, Holcomb JB et al. Both primary and secsyndrome can be predicted early and are harbingers of multiple 54:848-61.
21. McCune TR, Stone WJ, Breyer JA. Page kidney: Case report andDis Kidney 1991; 5:593-9.
22. Engel WJ, Page IH. Hypertension due to renal compression resulti
J Urol 1955; 73:735-9.23. Thurston W, Wilson SR. The urinary tract. In: Rumack CM, W
Diagnostic Ultrasound. 2nd ed. St. Louis: Mosby, 1998:329-97.24. Kelcz F, Pozniak MA, Pirsch JD et al. Pyramidal appearance and
nonspecific sonographic indicators of renal transplant rejection. AJ25. Taylor KJW, Marks WH. Use of Doppler imaging for evaluation o
AJR 1990; 155:536-7.26. Drudi FM, Pretagostini R, Padula S et al. Color Doppler ultraso
resistive index versus renal cortical ratio in the evaluation of renal tPract 2004; 98:c67-c72.
27. Trillaud H, Merville P, Le Linh PT et al. Color Doppler sonographResistive index measurements versus power Doppler sonography. A
28. Reddy VG. Prevention of postoperative renal failure. J Postgrad M29 B l h Z M Kinl BA C n r CS t l S pr n rm l tr m
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29. Balogh Z, McKinley BA, Cocanour CS et al. Supranormal traumaof abdominal compartment syndrome. Arch Surg 2003; 138:637-4
30. Balogh Z, McKinley BA, Cocanour CS et al. Patients with impesyndrome do not respond to volume loading. 2003; 186:602-8.
31. Tang IY, Murray PT. Prevention of perioperative acute renal failuResearch Clinical Anesthesiology 2004; 18:91-111.
32. Rubin JM, Bude RO, Carson PL et al. Power doppler US: A mean-frequency based color Doppler US. Radiology 1994; 190:85
33. Bude RO, Rubin JM, Adler RS. Power versus conventional color Din the depiction of normal intrarenal vasculature. Radiology 1994
34. Turetschek K, Kollman C, Dorffner R et al. Amplitude-coded coloEur Radiol 1999; 9:115-21.35. Lencioni R, Pinto F, Armillotta N et al. Assessment of tumour va
noma: Comparison of power doppler US and color doppler US. R36. Robbin ML. Invited commentary. Radiographics 1998; 18:1455-537. Helenon O, Correas JM, Chabriais J et al. Renal vascular Doppl
power mode. Radiographics 1998; 18:1441-54.38. Kuwa T, Cancio LC, Sondeen JL et al. Evaluation of renal cortical
Doppler ultrasound during vascular occlusion and reperfusion. J T39. Clautice-Engle T, Jeffrey RB. Renal hypoperfusion: Value of pow
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Part C: Abdominal Compartment Syndroafter Aortoiliac Surgery
Martin Björck*
Abstract This section reviews the literature regarding the incidence and
aortoiliac surgery. The complication has never been reported afdominal aortic aneurysm (AAA -repair and is rare after open elecoperation of a patient in shock due to a ruptured AAA (rAAA) th
(IAP ≥ 20 mm Hg) occurs in 25-55%. The incidence of IAH/improved survival, suggesting a survival benefit in the early recogn ACS. This, however, remains to be shown in a prospective triallished on the incidence of IAH after endovascular repair of rAAAoccur in approximately 5%.
S i l id i h i h AAA i i h
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Special considerations when treating the AAA patient with prevalence of coronary artery disease, the high risk of colonic isc
quences of prolonged hypovolaemia.The reluctance among vascular surgeons to treat AAA-patien
explained by the fear of graft infection and recurrent bleeding. Tvantages and disadvantages of decompressing a vascular patient wcussed. Large prospective trials are warranted to define the releva
IntroductionSeveral of the first reports on ACS, after the name of the con
Kron1 and colleagues in 1984, included patients who developed AMost investigators, however, have reported experiences from mixdominance of trauma victims. This chapter will focus on the propatients, and in particular the patient who was operated on for aneurysm (rAAA).
Incidence of ACS after Open Aortoiliac Surgery
Miscellaneous Conditions and Intra-Abdominal Hypertension
was not stated. Ten needed reoperation, either for bleeding or foingly large proportion in this group of predominantly elective patcommon, 53% when defined as a postoperative creatinine > 13able to show with an ROC-curve that an IAP of 18 mm Hg predipositive predictive value of 85%, and a negative predictive value
patients who developed renal impairment had IAP > 18 mm Hgsupply data on the incidence of IAP/ACS, it can be calculated f33% (14/42) patients, had an IAP > 18 mm Hg, after predomin AAA surgery.
Akers et al reported on 23 patients operated on for a rAAA dtreated with delayed abdominal closure and two were decompreamong these six patients was 50%. No IAP measurements were r
Oelschlager et al, from The Harborview Medical Center in Setive study on 38 patients treated for rAAA, of whom 39% died dupatients who survived initial repair, five had their abdomen closedby closure of the skin alone. Though no measurements of IAPshowed clinical signs of IAH. The investigators also reported a tren
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g goutcome among those treated with delayed abdominal closure.
We measured IAP in the bladder consistently every 6 hours durinamong 25 patients operated on for AAA.7 Four patients had isola(25 cm H2O) without any clinical consequences. Three had consthis level. The latter three patients had abdominal decompression.to have colonic gangrene. All three patients with prolonged IAHtients operated on for rAAA. There was no mortality.
In a report from the Mayo clinic, among 223 patients operate
year period, 53 (24%) were treated with open abdomen.
8
In 43 of at the primary abdominal closure, but 10 patients (4.5%) underwtomy due to IAH. In this retrospective study, IAP measurements
A report from Leicester, UK, analyzed 75 patients operatnon-ruptured (53) AAA.9 Unfortunately, IAP was only measure when the patient was still on the ventilator. The consequence of t13 patients (17%) the IAP was never measured. In 21 (28%) it wa
diately postoperatively, since they were extubated within 24 h. Ottwice Among the patients operated on for a rAAA, and who were
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Incidence of IAH/ACS after Endovascular RepaiThe situation is even less clear after endovascular repair (EVAR
is unheard of after EVAR of an intact AAA. In a recent report opatients treated with EVAR, ACS was not mentioned.12 This, howis becoming increasingly applied on patients with rAAA. In thisretroperitoneal blood may be left in situ and there may be a risprospective studies have yet been published on the incidence of t
In a discussion of a paper by Rasmussen et al, Frank Veith reptreated with EVAR for rAAA, three (14%) developed ACS andpression.8 The Hospital of Malmö, Sweden, is one of the pioneer40 patients treated with EVAR due to a ruptured AAA, two und
(5%).13
Van Herzeele et al reported a successful decompressionoperation of a rAAA with EVAR: 1.5 litres of blood was removethrough an 18 cm lumbotomy, and another 0.5 litre of bloodperitoneum.14
The Onset of IAH/ACS
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The Onset of IAH/ACS An important issue is the time of onset of the condition. Fiets
with ACS after rAAA. Three of them developed oliguria within 714 hours.3 On the other hand, as previously underscored, most insured nor reported IAP in a way that makes it possible to analyexperience, based on IAP measurements in all patients operated opatients do develop IAH/ACS during the first 24 hours. Others,capillary leakage for many days, and the IAP may continue to in
We reoperated on one patient on the fifth postoperative day due
result of prolonged IAH.7 Again a large prospective study is needtance of the timing of onset of the complication.
Consequences of IAH after Aorto-Iliac Surgery Generally speaking, the consequences of IAH for the patient
aorta are similar to those experienced by any other patient. The IAhit” to the patient who was in preoperative shock, be it after trauThere are, however, three considerations that are particularly imp
Miscellaneous Conditions and Intra-Abdominal Hypertension
Treating the Vascular Patient with an Open AbdomenVascular surgeons are reluctant to treat patients with an open
sons. Firstly the patient with a rAAA who has a tense abdomen aoften has hypothermia, coagulopathy and diffuse bleeding. Closintion is traditionally thought to help in correcting hypothe
counter-pressure which may be helpful to control diffuse bleediclose the skin temporarily with towel clips, leave the patient in patient but measuring the IAP. When the patient has regained nohas been optimized in coagulation factors, abdominal closure witan open abdomen approach may be elected.
The second rationale to avoid treatment with open abdomen fear for graft infection. Akers et al reported the development of aone of six patients treated with open abdomen after rAAA.5 That pan open abdomen for 51 days and positive bacterial cultures wclosure. The patient was discharged on day 87. Long-term followment of graft-infection was not reported.
Oelschlager et al reported that they had no case of graft infectio
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g p y g were treated with open abdomen after rAAA, and who were closed
ment is weakened by the fact that no information was given oninformation in the paper follow-up time seems to be have been vsideration since graft infections often develop months or even yeamore, there was no information on the four patients treated with who died in the postoperative period. Did they have signs of sepsiundergo autopsy?
In the largest report on open abdomens after operation for
retrospective study 8 reported no documented graft infection amoever, only 15 of them survived the early postoperative period andone-year survival, follow-up or autopsy-rate.
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In summary, the issue of the risk of graft-infection after treatm AAA-repair remains unresolved and has to be addressed in a large prfollow-up. The risk of this highly lethal complication has to bedecompressing a patient with IAH. Should the patient who deveand who has a synthetic graft prone for infection, be treated more
the abdomen as fast as possible? On the other hand, such a strategsive diuretic treatment or dialysis, the risk of hypovolemia and omultiple organ systems. A choice between Skylla and Charybdis?
In order to be able to close the patient’s abdomen quicker we hincisions from the ribs to the iliac crest, permitting us to close the for late repair after 3-6 months, Figure C2. With this method it abdomen after 3-5 days. In this situation, continued IAP monitorto detect recurrent ACS.
It is probable that the vacuum assisted wound closure (WAWCin this situation. Suliburk et al reported on 35 trauma patients abdomen and WAWC. Among 29 survivors, 25 (86%) underwena mean of 7 days (range 3-18).21 Miller et al reported a similar e
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tients, where a primary fascial closure rate of 88% was achieved af
45 survivors.
22
No report on AAA patients treated with WAWC hhave reasons to believe that this treatment modality may be superalso. A prospective trial is in progress.
Miscellaneous Conditions and Intra-Abdominal Hypertension
Controversial IssuesOpen abdomen approach for the patient operated on for AAA
increased risk of infection and bleeding as well as an increased morbprolonged ICU-stay and incisional hernias. The benefits of early of incipient ACS are also evident in terms of decreased risk of orgaischemia and probably an increased overall survival. The controvertrade-off, when do the advantages outweigh the disadvantages? Trequires more information than a single IAP-measurement. We aous IAP-measurements23 making it feasible to also measure contpressure (APP).24 We must consider the area under the curve aninsult to the intra-abdominal organs, and particularly to the left
and duration.
17,20
Whereas a short ischaemic insult may be intra-abdominal hypo-perfusion may prove lethal. Large prospecare in progress to address these issues.
Commentary
R I
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Rao Ivatury
It is not surprising that IAH and ACS should be noted in criticConditions such as acute pancreatitis and abdominal aortic aneintra-abdominal pressure by several mechanisms: space-occupyinneal space, secondary distension of bowel from ileus, extra-vasculafluid, “pancreatic ascites” in pancreatitis and leaked blood in AAAtation. It is becoming increasingly evident that at least some of thlogic conditions is related to undiagnosed intra-abdominal hypertthis complication is yet to be determined, since monitoring of the these patients. Only by such data accrual and analysis we can balthe difficult open abdomen management in these conditions.
Kirkpatrick and associates have given us a fascinating addition edge of IAH and ACS. They report on a specific renal allograft comunless recognized and treated early, will lead to graft loss. In this
minished arterial and venous flow by color power Doppler, the increased compartment pressure, since renal vein thrombosis or v
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7. Björck M, Lindberg F. Abdominal compartment syndrome and csurgery, a prospective study. Abstract from the Swedish Surgical W(Swedish Surgery) 2000; 58:215.
8. Rasmussen TE, Hallett JW, Noel AA et al. Early abdominal closorgan failure after ruptured abdominal aortic aneurysm repair: guidestudy. J Vasc Surg 2002: 35:246-253.
9. Papavassiliou V, Anderton M, Loftus IM et al. The physiological sure following aneurysm repair. Eur J Vasc Endovasc Surg 2003;
10. Djavani K, Björck M. Intra-abdominal hypertension (IAHT) and surgery. Abstract from the First World Congress on Abdominal Clia, 2004.
11. Djavani K, Valtysson J, Björck M. Colonic ischemia and intra-aboperation for ruptured Abdominal Aortic Aneurysm (rAAA). AbstrCongress on the Abdominal Compartment Syndrome, Australia 2
12. Maldonado TS, Rockman CB, Riles E et al. Ischemic complicatioaortic aneurysm repair. J Vasc Surg 2004; 40:703-710.
13. Malina M, Lindblad B. Personal communication, January 2005.14. Van Herzeele I, De Waele JJ, Vermassen F. Translumbar extrap
dominal compartment syndrome after endovascular treatment of a 2003; 10:933-5.
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15. Wanhainen A, Bergqvist D, Boman K et al. Risk factors associatrysm: A population based study with historical and current data. J
16. Hertzer NR, Beven EG, Young JR et al. Coronary artery disease iclassification of 1000 coronary angiograms and results of surgical199:223-233.
17. Björck M, Broman G, Lindberg F et al. pHi-monitoring of thsurgery. A five-year prospective study. Eur J Vasc Endovasc Surg
18. Björck M, Troëng T, Bergqvist D. Risk factors for intestinal ischcombined cohort and case-control study of 2824 operations. Eu
13:531-539.19. Björck M, Bergqvist D, Troëng T. Incidence and clinical presenaortoiliac surgery - 2930 operations from a population-based registrySurg 1996; 12:139-149.
20. Björck M, Hedberg B. Early detection of major complications aftedictive value of sigmoid colon and gastric intramucosal pH monito
21. Suliburk JW, Ware DN, Balogh Z et al. Vacuum-assisted wounclosure in open abdomens after severe trauma. J Trauma 2003; 55
22. Miller PR, Meredith JW, Johnson JC et al. Prospective evaluatiosure after open abdomen: planned ventral hernia rate is substan
Abdominal Compartment Syndrome in the Pediatric Patient
CHAPTER 17
Abdominal Compartment Syndin the Pediatric PatientM. Ann Kuhn* and David W. Tuggle
For all practical purposes, the original clinical model for tsyndrome (ACS) involved the repair of congenital abdoomphalocele (Fig. 1) and gastroschisis (Fig. 2). Closure or
always associated with an increase in intra-abdominal pressure. Ambrose Pare first described omphalocele in 1634.1 The f
2
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omphalocele was likely by Hey in 1803.2 Most attempts at man
were unsuccessful until Ahfeld promoted the topical treatment oeschar in 1899.3 Gross described the use of skin flaps to initially1948, with good success.4 Both topical treatment and skin flap clothe morbidity of ACS associated with closure of abdominal wall dtherapy can include alternatives to immediate closure such as topromotion, and the use of preformed silastic silos with gradual reagement techniques tend to avoid much of the morbidity of im
these infants.Immediate gastroschisis repair will also create intra-abdomin
born. Watkins reported the first survivor of surgical treatment iestablished the present day criteria of classification, and noted thmass is forced into the abdominal cavity, the resulting respiratodeath.6 Izant described manually stretching the newborn abdompact of immediate visceral reduction in 1966.7 The prosthetic silo
Schuster in 1967 for omphalocele, and it was immediately employ8
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Abdominal Compartment Syndrome in the Pediatric Patient
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output and hypoxia as a result of pulmonary ventilation restrictiotory pressures and hypercapnia. Visceral perfusion is decreased anincrease cerebrospinal pressure and intracranial pressure. The abdrome in adults has been defined as abdominal distention with
accompanied by two of the following: oliguria or anuria, respiratorsion or shock, or metabolic acidosis. In the pediatric population, pressure at which ACS occurs has not been clearly defined but asuggested by Beck.21 In this same study, Beck and colleagues show when compared with adults but it did occur in critically ill chilabdomen resulted in improvement of physiologic parameters suPaO2, PaO2/FiO2 ratio, urine output, PaCO2, peak inspiratory pcit but overall mortality was high. When compared to adults, ch
Figure 3. Newborn with gastroschisis. Note the preformed silastic silo plalikelihood of intra-abdominal hypertension.
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include abdominal wall defects as mentioned previously such aand diaphragmatic hernia, and ectopia cordis. Acquired neonatal enterocolitis, volvulus, and meconium perforation with cyst foIAP is tolerated due to the hormonal milieu of pregnancy. Pedia
ACS include trauma,21 small bowel obstruction, renal tumors,24 Therapy for ACS in children is decompression of the abdom
laparotomy is infrequently needed. More often, development oprocedure. Reopening the abdomen will result in an immediate d
the time needed to resolve the physiologic derangement found from three days to three weeks Even with prolonged use of an op
Figure 4. A patient who has undergone decompressive laparotomy for adrome after liver injury. Note the umbilical tapes across the abdominal woumation.
Abdominal Compartment Syndrome in the Pediatric Patient
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References1. Pare A. The workes of that famous chirigeon. In: Cotes T, Young 2. Hey W. Practical observations in surgery. Cadell T, Davies W. Lo3. Ahlfeld F. Der alkohol als desinficienz. Mschr Geburtsh 1899; G1
4. Gross RE. A new method for surgical treatment of large omphalo5. Watkins DE. Gastroschisis. Va Med 1943; 70:42.6. Moore TC, Stokes GE. Gastroschisis. Surgery 1953; 33:112-120.7. Izant RG, Brown F, Rothmann BF. Current embryology and
omphalocele. Arch Surg 1966; 93:49-53.8. Shuster SR. A new method for the staged repair of large omphaloc
123:837-850.9. Wesley JR, Drongowski R, Coran AG. Intragastric pressure meas
and closure of the silastic chimney and omphalocele and gastr
Figure 5. The patient from (Fig. 4), who has now undergone fascial closu
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20. Lynch FP, Ochi T, Scully JM et al. Cardiovascular effects of increnewborn piglets. J Pediatr Surg 1974; 9(5):621-626.
21. Beck R, Halberthal M, Zonis Z et al. Abdominal compartment synCare Med 2001; 2:51-56.
22. Cooney DR. Defects of the abdominal wall. In: O’Neill Jr JA, RPediatric Surgery. 5th ed. St. Louis: Mosby, 1998:1060.
23. Epelman M, Soudack M, Engel A et al. Abdominal compartment ings. Pediatr Radiology 2002; 32(5):319-322.
24. Glick RD, Hicks MJ, Nuchtern JG et al. Renal tumors in childrePediatr Surg 2004; 39(4):522-525.
25. Hobson KG, Young KM, Ciraulo A et al. Release of abdominal csurvival in patients with burn injury. J Trauma 2002; 53:1129-11
26. Markley MA, Mantor PC, Letton R et al. Pediatric vacuumdamage-control laparotomy. J Pediatr Surg 2002; 37:512-514.
27. Wetzel RC, Burns RC. Multiple trauma in children: Critical care 30(11):S468-S477.
28. Sharpe RP, Pryor JP, Gandhi RR et al. Abdominal compartment trauma patient treated with paracentesis: Report of two cases. J T
29. Latenser BA, Kowal-Vern A, Kimball D et al. A pilot study comsion with decompressive laparotomy for acute abdominal compar jury. J Burn Care Rehabil 2002; 23:190-195.
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j y J ; 3 9 95
Prevention of Abdominal Compartment Syndrome
CHAPTER 18
Prevention of Abdominal CompSyndrome
John C. Mayberry*
Because the Abdominal Compartment Syndrome (ACS) is morbidity and mortality, the development of strategiintra-abdominal hypertension (IAH) before ACS is fully d
ern surgeons have considered and studied the probability that the ACS can be identified and that a single surgical decision or intervepreventative. The contributing factors that lead to the developm
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preventative. The contributing factors that lead to the developm
decades of IAH research, well-described. This chapter seeks to co warning signs, and prevention strategies that have been described plines including trauma surgery, emergency surgery, vascular sursurgical and medical critical care. Prevention strategies discussedof intra-abdominal pressure, the limitation of unnecessary fluid phylactic temporary abdominal closure, and pharmacological neu
Contributing Factors and Warning Signs Although ACS occurs in a wide variety of clinical scenarios, sfactors have been identified (Table 1). In cases of primary ACSprocess causing the IAH is in the early stages of recognition, seveintraperitoneal or retroperitoneal hemorrhage, would not be concauses of ACS. In cases where the ACS develops many hours after insult each of these factors listed will contribute to further elevatio
what the origin, is an important denominator because many clin
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and the multiple organ dysfunction syndrome (MODS) score we
cohort of patients who developed ACS, these validated measurindependently predictive of ACS when compared to 24 hour neairway pressure (PAP) variables in multivariate analysis. Patientsaverage net positive fluid balance of 16 ± 10 liters compared to 712 mm Hg compared to 32 ± 7 mm Hg in matched controls. Toped from their analysis was P = 1/(1 + e-z). P equals the probabequals -18 7 + 0 17(PAP) + 0 0009(fluid balance at 24 hours) A
Table 1. Contributing factors and warning signs of ACS
Shock Low intravasMassive fluid resuscitation Elevated intr
Multiple abdominal/pelvic injuries CoagulopathPeritoneal inflammation HypothermiaRetroperitoneal inflammation or hematoma Hepatic cirrhAbdominal wall tension
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equals 18.7 + 0.17(PAP) + 0.0009(fluid balance at 24 hours). A
patient with a PAP of 45 mm Hg and a 12 liter net fluid balancdeveloping ACS.
In the series of secondary ACS collected by the trauma group aintra-abdominal injuries who developed ACS received an averageand 29 ± 10 units of packed red blood cells.1 Ivatury et al noted thing abdominal trauma those that developed postoperative IAH recompared to 10 ± 6 units of blood in those who did not.11 In one
post-traumatic ACS the mean blood transfusion requirement waPAP was 44 ± 3 cm H2O.12 In a series of patients with acute asresuscitation, the majority of whom did not have intra-abdomin39 ± 5.8 cm H2O and the mean crystalloid and blood product ision were 16 ± 10 liters and 5.2 ± 4.8 liters, respectively.7 In compcrystalloid and blood product infusion among 100 contemporarundergoing trauma laparotomy were 5.1 ± 5.5 liters and 1.1 ± 2
The severity of visceral injury as established by the number of
Prevention of Abdominal Compartment Syndrome
Any patient with 1 or more contributing factors/warning signs significant risk for preventable ACS.
Prevention by SurveillanceThe most effective IAH surveillance strategy is the serial mea
pressure (UBP).23,24
Although the abdominal examination (inscritically ill or injured patient will lead the clinician to conclude very soft abdomen will rule IAH out. The subjective determinaticoncluding whether the abdomen is moderately or highly tense acal finding to a usable measurement, is not only unreliable for aundependable for serial examination.25 UBP measurement w well-established and reliable method of determining serial intra
survey of American trauma surgeons in 1998, 85% had experietimes in the previous year.27 Surgeons who had more experienquently measured UBP were more likely to diagnose ACS. Each cfore seek to standardize the method of UBP measurement that is both serial and random measurements reported are internally conUBP measurement is presented properly, critical care nurses and
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begin to regard UBP measurements on a par with the measuremenand vascular pressure monitoring. Placing an UBP measurementpreprinted admission orders will help both physicians and nurses
But although IAH should be considered a possibility in a noticill or injured patients, frank ACS is still rare. The incidence of IApatients admitted to a trauma intensive care unit (ICU) with an asurveillance policy was only 2% and 1%, respectively.26 In other
admissions and 14% of all ICU admissions after trauma laparotomunits that perform routine admission and serial UBP measuremenfore casting a very wide net. Nurses in our trauma unit have expUBP measurements may increase the risk of urinary infection. Athat efficiently screens for IAH while minimizing unnecessary uririsk would be ideal.
Several authors have proposed efficient strategies for the surv
Maxwell et al recommended that bladder pressures be checked
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resuscitation – the splanchnic bed seems to be adversely affected bzealous resuscitation.31 What has become clear, however, is that i.e., infusing crystalloid, blood, and pressor agents to achieve elevaassociated with an increased incidence of IAH, ACS, multiple orgaThe Houston and Denver groups have thus suggested further stud
of fluids used for resuscitation and the endpoints of resuscitation
Prevention by Prophylactic Temporary AbdominSince the historical treatment for established ACS is surgical d
ment of a temporary abdominal closure (TAC), several authors hause of TAC to prevent ACS.11,14,20,28,32 Although there are no rantic TAC versus fascial closure for the prevention of ACS, all retros
ies agree that there is a subset of patients who benefit from prophyreview of our experience with absorbable mesh (Dexon®, DavTAC, we compared two groups of injured patients that were statisics and injury severity – those who had received TAC at their inthose who received TAC at a subsequent laparotomy.14 The secTAC had a significantly higher incidence of ACS (35% versus 0%
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versus 0%), abscess/peritonitis (35% versus 4%) and enterocutaneoThese findings were confirmed by Ivatury et al in a series of trauetrating abdominal injuries.11 Patients who had absorbable mesh (VNJ) placed as prophylaxis for IAH had a much lower incidence ofmortality (11% versus 36%) than similar patients who had primtients who developed IAH (the majority of whom had primary fatality compared to 8.5% mortality in those patients who did no
divided a series of patients requiring damage control laparotomy ihad TAC (Bogota bag), those with skin closure only, and those wPrimary fascial closure was associated with an 80% incidence of Arespiratory distress syndrome (ARDS) and/or MOF while skin cand 36% MOF. The Bogota bag TAC cohort had 18% ACS and
Oelschlager et al and Rasmussen et al reported similar resuruptured AAA.20,33 In the case of ruptured AAA, the persistent retroens the competition for a limited space in the abdominal cavity (F
Prevention of Abdominal Compartment Syndrome
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Prevention of Abdominal Compartment Syndrome
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Commentary
Rao R. Ivatury
Mayberry is one of the earliest authors to stress the importanlaxis against IAH and ACS. As emphasized in this chapter, one m
risk for the development of these complications and institute pi i f IAP Whil h li i l di h hi
Figure 3. Percentage of surgeons choosing “much less willing” or “less fascial closure after celiotomy for trauma for each of 12 clinical factors. ReMayberry JC, Goldman RK, Mullins RJ et al. Surveyed opinion of Amprevention of the abdominal compartment syndrome. J Trauma 1999;
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What is intriguing in the story of IAH and ACS is the dramasubsequent reduction of MODS and mortality and the increas
Table 2. Clinical factors divided into mandatory or discretioabdominal closure
Mandatory Discretionary
Pulmonary deterioration on closure Fecal contaminaHemodynamic instability with closure Massive transfusMassive bowel edema HypothermiaSubjectively tight closure Multiple intra-abPlanned re-operation AcidosisIntra-abdominal packing Coagulopathy
Reproduced with permission from Mayberry JC, Goldman RK, MullinAmerican trauma surgeons on the prevention of the abdominal com1999; 47:510.
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subsequent reduction of MODS and mortality and the increasoutcome once the complication has set in. This has been showpossible explanation for this is our current realization that adversat lower and lower levels of pressure, especially in the setting of sand reperfusion injury.
Mayberry and colleagues have also given us an understandinsurgeons towards the concept of IAP. As they pointed out, there is
of a majority of surgeons to resort to “open abdomen” in high riskMalbrain1 argued that it is unwise not to think about IAP in Ievidence summarized in this chapter and Malbrain’s review shoulclinician to pay attention to the phenomenon of IAH and to atte
Commentary References1. Malbrain ML. Is it wise not to think about intra-abdominal
Opin Crit Care 2004; 10(2):132-45.
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CHAPTER 19
Medical Management of AbdomCompartment SyndromeMichael J. A. Parr* and Claudia I. Olvera
Introduction
The medical management of intra-abdominal hypertensionof limited efficacy making expedient surgical decompresfor abdominal compartment syndrome (ACS).1A There is
gical decompression will decrease IAH and can lead to improve
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abdominal compartment syndrome. Currently however, the laccontrolled trials prevents strong evidence based recommendation ACS. There are good reasons to explore the potential for medicmanagement in selected patients. Important considerations in th
There are significant risks associated with surgical decompres• despite surgical decompression survival rates after abdominal
from 38-71%.1A
• temporary abdominal closure is associated with increased and graft infection and often necessitates continued managemall associated risks
• there are groups of patients for whom surgical decompresappropriate
There are currently few data on the medical management osearch combining the key words “abdominal compartment syndr
ment” only yields 3 articles1A-3 as of May 2004 two in English
Medical Management of Abdominal Compartment Syndrome
• specific procedures to reduce IAP and the consequences of A• general support (intensive care) of the critically ill patient• optimisation after surgical decompression to perhaps coun
verse effects associated with decompressionThere are three types of ACS depending on aetiology. Prima
with injury or disease in the abdominal/pelvic region that often requradiology, or develops following abdominal surgery (such as damatis, bleeding pelvic fractures or massive retroperitoneal hematomconditions that do not require early surgical or radiological integeneralized capillary leak syndome, severe acute pancreatitis, majorequiring massive fluid resuscitation). Tertiary ACS occurs followitic surgical or medical treatment of primary or secondary ACS (e
decompressive laparotomy or the development of a new ACS epiclosure of the abdominal wall after the previous utilization of temsure).
Specific Procedures to Reduce IAP and the ConsThere are numerous causes of intra-abdominal hypertension a
syndrome. Several specific therapies may rationally be directed t
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syndrome. Several specific therapies may rationally be directed tand include:
• neuromuscular blockade• medical management to reduce gastrointestinal ileus and pr
pression• prokinetics (erythromycin, metoclopramide, cisapride)• gastric tube
• colonic tube• endoscopic decompression of the large bowel• neostigmine bolus/infusion• rectal enemas in the cases of fecal impaction or intractable c• percutaneous tube decompression of ascites and blood• externally applied continuous negative abdominal pressure• octreotide and melatonin in secondary abdominal compartm
• diuretics dialysis and or ultrafiltration to remove excess oed
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Medical Management of Abdominal Compartment Syndrome
dopamine antagonism. Neostigmine (2 mg diluted in up to 50 msion) is not a true prokinetic but may be an effective therapy for psyndrome, Fig. 1), which can cause massive bowel dilatation and ACS.4 Because the bowel may be significantly compromised by but significant risk of bowel perforation associated with the us
decompressive procedures.Constipation may also be so severe that it adds to IAH andaperients and enemas are required. While cases of massive faecalare rarely reported they are seen in clinical practice and may bcolonic necrosis.5,6
Percutaneous Tube Decompression of Ascites and Blo
Drainage of tense ascites by insertion of a small tube may reCirrhotic patients with tense ascites may develop a circulatory massive paracentesis, manifested by an increase in plasma rennin avascular resistance and peripheral arterial vasodilatation. If IAP level, during the process of paracentesis these haemodynamic chalarge volume paracentesis.7
Haemoperitoneum large enough to cause IAH and ACS may
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a major surgical decompression may be a poor option. For examrecent experience, an oncology patient with a highly malignant lyfor aggressive chemotherapy had a liver biopsy. This was followedpathological coagulopathy that failed to respond to conventional tresponded to treatment with recombinant activated factor VII (ceived a massive transfusion and IAH with ACS and oliguric then A large laparotomy and leaving the abdomen open in this situatainly resulted in his being too unwell for the chemotherapy he urgthe septic consequences following chemotherapy. He was manageof the intraperitoneal haemorrhage, his ACS and renal function imotherapy directed at the lymphoma was commenced. Other capression have been reported as case reports and pilot studies andeffective modality for intra-abdominal hypertension and abdom
in burn patients with less than 80% of total body surface area and
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A B
Figure 2A,B. Massive oedema is a frequent complication of aggressive flui with some forms of goal directed therapy and increase the risk of all form
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and antioxidative properties. It was recently shown that melatonin in cell membranes, a process that promotes cell death as the functtures is damaged. Melatonin also has anti-inflammatory effects aneutrophils by free radicals. In rats melatonin reduces reperfusdamage.13
Diuretics, Dialysis and/or Ultrafiltration to Remove
Because of the nature of the illness and injury associated wilarge volumes of sodium and water, which exacerbates tissue oeearly stages diuretic therapy is often not a viable option because thdepleted secondary to large capillary leakage due to systemic infla(SIRS) and despite their grossly oedematous states. Administratresuscitation is usually unavoidable in the early stages (Figs. 2A, 2Bthe use of diuretics may be appropriate to reduce oedema and peas IAH progresses oliguria and then anuria occur as renal blood
Medical Management of Abdominal Compartment Syndrome
General Support (Intensive Care) of the CriticallManagement of a patient with an open abdomen mandates h
manage the pulmonary, cardiovascular, splanchnic, urinary and ceGiven the clinical scenarios of most patients with raised IAP and Acritical care facility. If the patient is not intubated it is likely to be
ventilate. The administration of appropriate levels of sedation a will then allow accurate assessment of the IAP and optimise ventfor any advanced intervention. This will allow appropriate selecintervention or further decompression of an already open abdompression is achieved, it is the usual practice to leave the abdominforeign material at skin level to prevent evisceration. These havinfection, fluid shifts from the exposed bowel and peritoneum, a
The nature of acute respiratory failure in these patients mayairway pressures may be required to achieve satisfactory oxygenatination. As many of the patients are at high risk for acute lung distress syndrome a protective strategy of ventilation should alsairway pressure while potentially increasing the risk of volume ancrease IAP.
The haemodynamic consequences of IAH must be addressed
h d b h l f l l
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may improve haemodynamic status but the true role of muscle relabdominal wall in patients with ACS has not been studied.3,17 Hyporequires rapid correction. Fluid resuscitation may consist of nacrystalloids and blood products. As the volume of distribution forcolloids, crystalloid resuscitation needs more fluid to achieve thein more edema. There is however little evidence to support one tysafety of colloids and albumin in particular has been questionedIAH and ACS.18,19
A recent large prospective randomized trial of albumin versus(the SAFE study) while demonstrating no excess mortality associan excess mortality in the albumin group for patients with multitrstudy also suggests that the current teaching of a 1:3 ratio of voland that a ratio of 1:1.3 for saline versus albumin.20
If following correction of hypovolaemia there is still evidencepi / pr r dmini tr ti n i ppr pri t H m n nd nim
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Optimisation after Surgical Decompression to CEffects Associated with Decompression and Prev
Reperfusion syndrome refers to the damage done by restoratiotissues and is distinct from the original ischaemic insult itself. occur at the time of abdominal decompression in some patients w
sion, abdominal organs reperfusion may produce arterial hypotenment or treatment with mannitol and bicarbonate infusions has bthat this can be avoided if decompression is performed at lower l
Management of ACS by opening the abdomen and temporaryprevent the development of recurrent ACS and the mortality is hscenario.26 Optimal medical management may reduce this potentsented above some key strategies to prevent ACS or its recurrenc
• prevent ileus• reduce excessive fluid resuscitation• avoid resuscitative strategies that may increase the incidenc
directed therapy)• therapy to reduce the inflammatory response
C l i
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Conclusion Although medical management of abdominal compartmintra-abdominal hypertension, reduce systemic effects, and prevedecompression currently represents definitive treatment. As therassociated with the decompression procedures, temporary abdom
wall reconstruction, assessment of nonsurgical treatment optionshas been made in describing the medical and surgical manageme
are needed to fully understand the clinical implications and appr
Commentary
Michael Sugrue
The non-operative medical management of abdominal comp
mains in its infancy Surgeons have led the crusade relating to ACi i l li B 1994 d 2003 28 i i
Medical Management of Abdominal Compartment Syndrome
References1. Reddy VG. Prevention of postoperative acute renal failure. J Postg
1A. Decker G. Abdominal compartment syndrome. J Chir 2001; 138:2. Walker J. Criddle LM. Pathophysiology and management of abd
Am J Crit Care 2003; 12(4):367-71, quiz 372-3.3. Macalino JU, Goldman RK, Mayberry JC. Medical management
drome: Case report and a caution. Asian J Surg 2002; 25:244-6.4. van der Spoel JI, Oudemans-van Straaten HM, Stoutenbeek CP et
illness-related colonic ileus in intensive care patients with multidouble-blind, placebo-controlled trial. Intensive Care Med 2001; 2
5. Gorecki PJ, Kessler E, Schein M. Abdominal compartment syndtion. J Am Coll Surg 2000; 190:371.
6. Lohlun J, Margolis M, Gorecki P et al. Fecal impaction causing mcatastrophes. A report of two cases. Digestive Surgery 2000; 17:19
7. Cabrera J, Falcon L, Gorriz E et al. Abdominal decompressiopostparacentesis haemodynamic changes in cirrhotic patients with te
8. Corcos AC, Sherman HF. Percutaneous treatment of secondary abd J Trauma 2001; 51:1062-4.
9. Latenser BA, Kowal-Vern A, Kimball D et al. A pilot study compsion with decompressive laparotomy for acute abdominal compar jury. J Burn Care Rehabil 2002; 23:190-5.
10. Bloomfield G, Saggi B, Blocher C et al. Physiologic effects of exte
i bd i l f i bd i l h i J l
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tive abdominal pressure for intra-abdominal hypertension. JournalCrit Care 1999; 46:1009-14.
11. Kaçmaz A, Polat A, User Y et al. Octreotide: A new approach tdominal hypertension. Peptides 2003; 24:1381-6.
12. Kaçmaz A, Polat A, User Y et al. Octreotide improves reperfusacute abdominal hypertension in rats. J Gastrointest Surg 2004; 8
13. Sener G, Kaçmaz A, User Y et al. Melatonin ameliorates oxidative intra-abdominal compartment syndrome in rats. J Pineal Res 2003
14. Ivatury RR, Porter JM, Simon RJ et al. Intra-abdominal hypertenetrating abdominal trauma: Prophylaxis, incidence, and clinical rand abdominal compartment syndrome. J Trauma 1998; 44:1016-
15. Balogh Z, McKinley BA, Cocanour CS et al. Supranormal traumaof abdominal compartment syndrome. Arch Surg 2003; 138:637-4
16. The Acute Respiratory Distress Syndrome Network. Ventilation wpared with traditional tidal volumes for acute lung injury and thdrome. N Engl J Med 2000; 342:1301–1308.
17 De Waele JJ Benoit D Hoste E et al A role for muscle relaxat
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CHAPTER 20
Continuous Negative AbdominaFranco Valenza* and Luciano Gattinoni
Abstract
In this chapter we will focus on the possibility of artificially decsure by applying a continuous negative pressure around the ab We will start from the rationale of this potential noninvasive
hypertension, to subsequently describe our initial experience withtive extra abdominal pressure (NEXAP).
The results of a trial conducted using different levels of NEXAour intensive care unit will be presented and discussed together
t di d th d t d t i ti t th di i
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studies we and others conducted to investigate the cardio-respiraThe bulk of data will be put together so to give to the reader
standing of the possibility of using NEXAP to treat the abdomin
RationaleThere is an increasing appreciation of the importance of in
(IAH) in critically ill patients. In fact, as many as 50% of patient
intra-abdominal pressure (IAP) higher than 12 mm Hg, 8% of wabdominal compartment syndrome.2 The effects of IAH on orgaand increasingly recognized by physicians who treat critically ill p
At higher levels of pressure surgical decompression is an accept where in between 12 and 25 mm Hg the detrimental consequesurgical decompression is not indicated. Patients with these valumajority of those labeled as having IAH, however there is no dethese patients except for supportive therapy for failing organs
Continuous Negative Abdominal Pressure
1. Does NEXAP decrease intra-abdominal pressure?2. Are there problems with NEXAP application in the criticall3. Does NEXAP alter general hemodynamics, and to what ext4. Does NEXAP alter respiratory mechanics?
We will discuss these questions taking into consideration the band others’ investigations.
Table 1. Patient demographics
Number of patients 30Age (years) 57 ± 17
Sex (M/F) 18/12Body Mass Index (kg/m2) 26.1 ± 4SAPS II 41.8 ± 17Ramsay score 4.6 ± 1.8Muscle relaxation 6Vasoactive drugs 7Outcome (D/S) 4/26
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Human Study We recruited 30 consecutive patients the characteristics of w
Table 1. To generate NEXAP, we used a shell (Life Care – Nev 1used to apply negative pressure around the thorax. To fit the shrotated by 180˚. The apparatus used for the study is described in
Patients were investigated in the supine position. Once basa(Basal), NEXAP was applied on the abdomen, in a random orde(NEXAP0), 5 cm H2O (NEXAP-5) or 10 cm H2O (NEXAP-10) m
Measurements included IAP (bladder pressure) and cardio-remeasurements were taken at each of the four steps after 30 minu
Animal Study
Eight pigs were sedated and paralysed They were randomizei ffl i f i l h d h i bd i ffl d i h h i
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Figure 1. NEXAP applied by shell on abdomen. Reprinted with permissCanavesi K et al. Intra-abdominal pressure may be decreased non-invasivabdominal pressure (NEXAP). Intensive Care Med 2003; 29(11):2063-Business Media.
Continuous Negative Abdominal Pressure
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was applied (P<0.001). Average decrease of IAP with NEXAP-10 mum decrease 11 mm Hg).
Therefore as clearly shown the first of our questions was and d IAP i i i ll ill i
Figure 3. Smaller shell used to create NEXAP in animal model. ReprinteF, Irace M, Guglielmi M et al. Effects of continuous negative extra-abdomifunction during abdominal hypertension: an experimental study. Intensiv©2005 Springer Science and Business Media.
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Figure 4. Effect of NEXAP on IAP-human study. Reprinted with permis
Canavesi K et al. Intra-abdominal pressure may be decreased non-invasivabdominal pressure (NEXAP). Intensive Care Med 2003; 29(11):2063-Business Media.
Table 2. Cardiovascular effects of NEXAP in animals
B l NEXAP0
Continuous Negative Abdominal Pressure
These results were in line with those from the above mentionthe changes of pleural pressure occurring with IAH impose us to u when dealing with pressure indicators of preload such as CVP (sure), which we did not have in our human study. Therefore, wcriminate a possible artefact of measurement from a likely to hathoracic cage secondary to NEXAP.
Table 3. Cardiovascular effects of NEXAP in patients
Basal NEXAP0
Central venous pressure (cm H2O) 9.2 ± 3.4 8.4 ± 3.4*Heart rate (bpm) 87 ± 16 89 ± 18Mean arterial pressure (cm H2O) 88 ± 13 86 ± 14
ANOVA RM, * p < 0.05 vs Basal; ° p < 0.05 vs. NEXAP0. Reprinted wBottino N, Canavesi K et al. Intra-abdominal pressure may be decreasednegative extra-abdominal pressure (NEXAP). Intensive Care Med
Springer Science and Business Media.
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thoracic cage secondary to NEXAP.This possible effect of NEXAP is relevant to know when dealin
especially in a scenario of IAH so delicate with respect to volumeTo answer the “blood shift” question we moved to the anim
CVP (as in the previous human study). However, we also used volthese are more valuable methods in this context13 free from an
changes in pleural pressures. We measured, as indexes of preload,(PiCCO system - Pulsion, Medical System AG, Munich, Germanvein diameter by means of echocardiography.
The results are shown in Table 4 below. These data prove thataway from the thoracic compartment (preload effect). This effect that observed during extra-thoracic negative pressure14-17
Interestingly, this is possibly the effect that generates the be
decompression in the setting of experimental intracranial hyperte12
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Continuous Negative Abdominal Pressure
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Additionally, during NEXAP application, rib cage and/or xiphis clearly shown in the figure below that shows the recordings frthorax and abdomen was bent with a Respitrace during NEXAPlows to asses the relative movements of the chest wall (xiphoid inO l l h ib l d i di l f
Figure 5. Pressure measurements in the animal model. Paw: airway pressugastric pressure; Pperit: intraperitoneal pressure; IAP: intra-abdominal presfrom Valenza F, Irace M, Guglielmi M et al. Effects of continuous negat
cardiorespiratory function during abdominal hypertension: an experime2005; 31(1):105-11. ©2005 Springer Science and Business Media.
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Continuous Negative Abdominal Pressure
Table 6. Acute effects of NEXAP
Pre NEXAP1 NEXAP2
Flow (L/min) 0.314 ± 0.077 0.311 ± 0.078 0.314 ± 0Vt (mL/kg) 11.28 ± 1.14 10.89 ± 0.92 11.31 ± 1RR (bpm) 19 ± 5 20 ± 5 20 ± 5Paw (cm H2O) 16.0 ± 3.5 20.2 ± 4.4* 18.3 ± 3.PEEP (cm H2O) 5.7 ± 1.1 5.8 ± 0.9 5.8 ± 0.8Pesexp (mm Hg) 5.4 ± 1.9 4.1 ± 2.0* 4.2 ± 2.1Pgaexp (mm Hg) 6.1 ± 1.7 4.3 ± 2.5 4.1 ± 2.4
GEDV (mL) 289 ± 38 257 ± 44* 254 ± 38ITBV (mL) 358 ± 47 318 ± 54* 314 ± 47EVLW (mL/kg) 10.9 ± 2.4 9.8 ± 1.4 10.2 ± 1.CO (mL/min) 2.9 ± 0.5 2.4 ± 0.5* 2.3 ± 0.6HR (bpm) 119 ± 12 125 ± 28 122 ± 22SV (mL) 25.6 ± 2.8 18.1 ± 8.3* 20.6 ± 4.AP (mm Hg) 105 ± 15 92 ± 17* 91 ± 18*
CVPexp (cm H2O) 6.4 ± 1.6 4.0 ± 1.8* 4.6 ± 1.7#
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On the contrary, the behavior of respiratory mechanics was op was induced. In fact, NEXAP improved chest wall elastance durinbelow.
The decrease of chest wall elastance may be of particular valueICU. In fact, IAH interferes with respiratory function and even a ratory function in a mechanically ventilated patient would be dnecessarily translates into better oxygenation.
ANOVA for repeated measures; * P < 0.05 vs. pre; # P < 0.05 vs NEReprinted with permission from Valenza F, Irace M, Guglielmi M et alextra-abdominal pressure on cardiorespiratory function during abdominastudy. Intensive Care Med 2005; 31(1):105-11. ©2005 Springer Scie
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Continuous Negative Abdominal Pressure
Table 7. Effects of NEXAP in animals with IAH
Pre NEXAP1 NEXAP
Flow (L/min) 0.293 ± 0.095 0.293 ± 0.091 0.296 ±Vt (mL/kg) 9.85 ± 1.42 9.81 ± 1.29 10.15 ±RR (bpm) 20 ± 5 20 ± 5 20 ± 5Paw (cm H2O) 30.2 ± 5.2 $ 29.7 ± 5.1 29.0 ± PEEP (cm H2O) 5.2 ± 0.8 5.4 ± 0.6 5.4 ± 0Pesexp (mm Hg) 5.4 ± 1.2 5.5 ± 1.2 5.1 ± 1Pgaexp (mm Hg) 12.6 ± 6.9 $ 11.7 ± 6.4 10.9 ±
GEDV (mL) 271 ± 36 264 ± 41 258 ± ITBV (mL) 336 ± 45 329 ± 52 319 ± EVLW (mL/kg) 11.3 ± 1.6 11.0 ± 1.8 10.3 ± CO (mL/min) 2.7 ± 0.7 2.5 ± 0.5 2.5 ± 0HR (bpm) 121 ± 28 123 ± 25 118 ± SV (mL) 22.3 ± 3.6 21.2 ± 4.7 21.6 ± AP (mm Hg) 105 ± 14 105 ± 15 102 ±
CVPexp (cm H2O) 6.7 ± 2.1 6.8 ± 2.1 6.8 ± 2
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In conclusion, to generate an effective negative pressure duNEXAP to a value at least equal to IAP. The negative effects on henent during IAH, making the use of NEXAP safer in the criti
NEXAP improved chest wall elastance during IAH.
Clinical Perspectives As detailed above, the use of negative extra-abdominal pressu
great potential as a noninvasive method for decompression of IAIn this chapter we have tried to give the reader a concise view t
as much as possible on NEXAP. However, there is much work stilb l d i li i l i if I f if
ANOVA for repeated measures; * P < 0.05 vs. pre; $ P < 0.05 vs. bas
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Figure 11. Blood shift during NEXAP and IAH (see text).
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underlying and predisposing conditions, filling status, etiologic main subject for further study. Merging the results from recent r
with the available literature data on the pathophysiologic implicapertension (IAH), it is probably wise to limit the extent from IAtreatment options have been suggested, such as gastric suctionintion, ascites drainage and evacuation (especially in burn patientsultrafiltration, gastroprokinetics (erythromycin, cisapride, metoclo
Continuous Negative Abdominal Pressure
(prostygmine), and curarisation. Amongst these the use of externsure has been advocated.
This chapter’s focus is on this last medical noninvasive treatmInitially used in animal studies, a form of continuous negativ(NEXAP) was recently described in intubated patients with ARcovering the whole body during 2 hour periods.1 During NEXAH2O at inspiration and -15 cm H20 at expiration were appliedend-expiratory lung and tidal volumes at lower airway presstranspulmonary pressures between NEXAP periods and conventiotion (PPV) periods. The use of NEXAP resulted in a drop in IAP f with better oxygenation and ventilation and stable hemodynamic pcovering the whole body was more effective to perform lung-pro
to PPV at equivalent lung volumes.Since the use of a whole body tank respirator is quite difficulnovel technique using a modified abdominal shell. A general degiven together with the results from recent animal and human senced reader it also gives deeper insights into the cardiorespiratoruse of negative extra-abdominal pressure (NEXAP).
References1. Raymondos K, Capewell M, Knitsch W et al. Continuous extern(CENPV) i i i il i (CPPV
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(CENPV) versus continuous positive pressure ventilation (CPPVIntensive Care Med 2002; 28(suppl 1):S33.
2. Malbrain ML, Chiumello D, Pelosi P et al. Prevalence of intra-abdill patients: A multicentre epidemiological study. Intensive Care M
3. Bailey J, Shapiro MJ. Abdominal compartment syndrome. Critical4. Barnes GE, Laine GA, Giam PY et al. Cardiovascular responses
hydrostatic pressure. Am J Physiol 1985; 248:R208-R213.5. Mutoh T, Lamm WJ, Embree LJ et al. Abdominal distension alte
chest wall mechanics in pigs in vivo. J Appl Physiol 1991; 70:2616. Cullen DJ, Coyle JP, Teplick R et al. Cardiovascular, pulmonary
increased intra-abdominal pressure in critically ill patients. Crit Ca7. Pelosi P, Aspersi M, Chiumello D et al. Measuring intra abdomin
setting. Intensivmedizin und Notfallmedizin 2002; 39:509-519.8. Malbrain ML. Abdominal pressure in the critically ill. Curr Opin
9 B l h Z M Ki l BA H l b JB l B h i d
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CHAPTER 21
Anesthetic Considerations in AbCompartment SyndromeIngrid R. A. M. Mertens zur Borg,* Serge J. C. Verbr
and Karel A. Kolkman
Introduction
The primary pathogenesis of intra-abdominal hypertensioin intra-abdominal abdominal pressure (IAP) ranging froHg in the abdominal compartment syndrome (ACS).1,2
modynamics, increases pleural and intrathoracic pressure and obstincreasing intracranial pressure (ICP).3 This leads to cardiovasculsplanchnic and renal dysfunction and decreasing cerebral perfu
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splanchnic and renal dysfunction and decreasing cerebral perfuchapter discusses the cardiovascular and pulmonary effects and thmanagement and monitoring. Focus is on the provision of anaesthetic problems in the patient with IAH/ACS.
Anesthetic Management Hemodynamic and/or humoral changes are not observed in asurgery provided that normovolemia, and adequate depth of geously maintained together with high plasma level opiate administregime, only if IAP exceeds 12 mm Hg are hemodynamic chang
In patients with IAH, IAP is per definition higher than 12 mmaltered pharmacokinetics make a straightforward anesthetic re
di l i h i h b d d O2 i f
Anesthetic Considerations in Abdominal Compartment Syndrome
Altered Pharmacokinetics and PharmacodynamicsDosage of medication depends on the pharmacodynamics of th
netics of the patient. In an ICU patient with IAH and organ dysfution, metabolism and especially excretion of injected drugs and turbed. Plasma protein concentration, degree of ionization, volu
biliary or renal clearance of the drug are all altered. Biotransformdrugs is dependent on enzyme activity which also is altered in the should be familiar with the pharmacodynamics of the drugs beinga pharmacokinetic picture of the patient and the interactions widuring the preoperative evaluation; this in order to estimate what induce and for how long.
Balanced anesthesia comprises a combination of anesthesia,
ation. Its specific use and problems in a patient with ACS are dis
PremedicationMost IAH/ACS patients are already sedated and mechanica
transported to theatre. If the patient is not yet sedated or sedationmended to do so, this to reduce stress. Stress causes release of vastrouble induction of anesthesia. To sedate a patient who is alread
and is going to be transported, during which time monitoring andis not optimal, is not simple. The drug already chosen to sedate th
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given as a bolus before preparing transport, amount and timing ddynamics of the drugs. It is best to select a drug with a limitedmodifications can be made if required.
Intravenous Agents, Total Intravenous Anesthesia (TIVA)
Intravenous agents are chosen to induce anesthesia, but can althesia during the procedure (TIVA). Most anesthetics have a direvasodilatory effect, and with the loss of sympathetic tone there arterial pressure (MAP).
Among intravenous (IV) agents, etomidate has the least12 anmidazolam the greatest direct cardiovascular depressant activity.13
effects when the autonomic nervous system is intact.15 Therefore
h f d i d i 14 16 18 if h f i i d
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Table 1. Comparative characteristics of (normal) induction Midazolam, Diazepam, Etomidate and Ketamine
Propofol Etomidate T
Elimination Half-time (h ) 0.5-1.5 2-5 1Volume of Distribution (L/kg-1) 3.5-4.5 2.2-4.5 2Clearance (mL/kg-1 /min-1) 30-60 10-20 3Blood Pressure decreased no change dHeart Rate decreased no change inCardiac output no change no change n
Midazolam Lorazepam D
Elimination Half-time (h ) 1-4 10-20 2Volume of Distribution (L/kg-1) 1-1.5 0.8-1.3 1Clearance (mL/kg-1 /min-1) 6-8 0.7-1 0Blood Pressure decreased decreased d
Heart Rate increase no change nCardiac output no change no change n
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Elimination Half-time (h ); the time necessary for the plasma concentratis directly proportional to its volume of distribution (Vd) and inverselRenal or hepatic disfunction that alters Vd and/or clearance will alte
Volume of distribution (Vd); the dose of drug administered intraven
plasma concentration of drug before elimination starts. Vd is influenbinding to plasma proteins; (3) molecular size and (4) ionization.
Clearance is the volume of plasma cleared of drug by renal excretionor other organs. Clearance is one of the most important pharmacokinwhen defining a constant drug infusion regime. Renal clearance capatients.
T bl i l d d f f 81 82 83
Anesthetic Considerations in Abdominal Compartment Syndrome
Analgesia Opioid agents have little direct cardiovascular or baroreflex dep
hemodynamically unstable patients high doses of opioids with lowsen. However, these agents can cause hypotension by inhibiting especially in patients whose apparent hemodynamic stability is
sympathetic tone.
31
Ketamine also has analgesic effects but has inon central sympathetic activity. Morphine can induce bradycardassociated hypotension. Fentanyl and sufentanyl do not evoke relpared with large doses of morphine or fentanyl, sufentanyl resultanesthesia, earlier emergence from anesthesia, and earlier extubatishort acting remifentanyl is independent of organ function for its convert the active drug as inactive metabolites, and it is hemodyn
doses can be given and hormonal stress response can be maximacting postoperative side effects like morphine induced venremifentanyl is discontinued there will be no more analgesia angiven in adequate doses.
Muscle Relaxation Adequate muscle relaxation is recommended to minimize ab
choline, a depolarizing neuromuscular blocking agent, has a rapidaction. It is very useful for rapid sequence induction, but has a f
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disturbing for the IAH/ACS patient. These are: (1) cardiac dysr(3) myoglobinuria, (4) increased intracranial pressure (ICP).
There is a variety of nondepolarizing neuromuscular blocking aonset and longer duration of action than succinylcholine. Most ofdent on hepatic metabolism or biliary- or renal excretion (Table 2impaired in the ACS patient. Atracurium, the newer cisatracuriudependent on these organs but depend on hydrolysis in the plasmagents may exert cardiovascular effects through drug-induced rvasoactive substances. Atracurium, mivacurium and succinylchoespecially the older agents like d-tubocurarine and metocurine. Pagalamine induce tachycardia, because of selective cardiac vagal bl
h i N d l i i l bl
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Before induction of anesthesia the patient is preoxygenated ff d i l f h i i h l f i
Table 2. Comparative pharmacology of nondepolarizing muin intubation dose
Galamine Pancuronium Vecuroniu
Onset to maximum twitch 3-5 3-5 3-5suppression (min)
Duration to return control 60-90 60-90 20-35twitch height (min)
Renal excretion (%) > 95 80 15-25Bliliary excretion (%) 0 5-10 40-75
Hepatic degradation (%) NS 10-40 20-30Hydrolyses in plasma 0 0 0Histamine release 0 0 0Cardiac muscarine receptor moderate moderate 0
blockade
Table includes data from references 81 and 82.
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performed to gain control of the airway in the least amount of timtive airway reflexes with the induction of anesthesia. Administrathetic induction agent is immediately followed by a rapidly actdrug. Direct laryngoscopy and intubation are performed as soonfirmed. Cricoid pressure (Sellick’s maneuver) is applied by an assinduction until confirmation of endotracheal tube placement. Athe diaphragm tends to move upwards (this will be pronounced can help to reduce small lung volume. For this reason inanti-Trendelenburg position.
Mechanical Ventilation
Th i i IAP i IAH/ACS ill i i bl l d d
Anesthetic Considerations in Abdominal Compartment Syndrome
The goal of the initial increase in inspiratory pressure is to redetermine the critical lung opening pressure. Then, the minimulung from collapse are determined. Finally, after an active reopenisure is implemented to keep the lung open.
A clinical study by Amato et al showed that a ventilation strattatic lungs and keeping them open at all times, in combination permissive hypercapnia and a restriction on the size of tidal volumtory pressures, resulted in a higher rate of weaning from mechanibarotrauma, and improved 28 day survival in ARDS patients comlation.46 The authors stratified the patients according to PEEP levlevels higher than 12 cm H2O and especially higher than 16 cm survival of these acute respiratory distress syndrome (ARDS) pati
Alveolar recruitment should usually be possible during the fventilation (which may be more difficult if the disease exists forEven if not all of the lung tissue may be fully recruited for gas epneumonia, this ventilatory strategy may prevent further damagelung.
Weaning and Extubation
Weaning and extubation can be considered if the cause for thIAP is normalized. Fluid and electrolyte balance should be optimwill have been ventilated for several days and first a period of w
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will have been ventilated for several days and first a period of wduring the period of weaning it is important that atelectasis is alevels.
Fluid Management
HypovolemiaIn IAH/ACS there may be occult hypoperfusion that may n
hemodynamic monitoring such as blood pressure, heart rate, andnized or untreated hypovolemia preoperatively may lead to gross hyafter induction of anesthesia. Brain and kidney have an autoregunal mucosa lacks autoregulatory control in splanchnic ischemia a
h f i i bi i i h IAH I h i d l
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abdomen, flow towards but especially from the organs has declidominal organs is at risk. Inadequate delivery of oxygen and increpreceeds the appearance of multiple organ failure. Fluids and IVachieve supra normal oxygen delivery, but recent meta-analyses din mortality with this goal directed therapy and in many cases ththe other hand Balogh showed that supranormal trauma resuscitof ACS.58
Infusion FluidsThe ongoing discussion about best type of fluid for volume
several meta-analyses with mortality as an end-point.59-63 Consistudies, we can conclude that still no consensus about best fluid
In perioperative volume substitution, fluid replacement withloids has proven to be superior as far as the volume relation of 1:used.
Balogh who showed an increase in ACS cases with goal direcrystalloids.58 Isotonic crystalloid solutions are rapidly dispersed of the body. Only one quarter of an isotonic electrolyte solutionspace, so large volumes have to be infused to substitute for intrava
shifts from the interstitium into the vascular space occur as a phduced intravascular volume state, infusion of isotonic volume sub
l d i t titi l fl id l I d t ll l fl id
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cular and interstitial fluid losses. Increased extracellular fluid maytissue edema. This could result in compromised end-organ perfuof small vessels and capillaries leading to reduced flow and by
within tissues. This will result in reduced oxygen delivery.Colloidal volume substitutes contain high molecular weight m
even increase the oncotic pressure of plasma after infusion. Comloids remain in the vascular space for longer, and are thus more enamics, even after infusion of lower volumes. Colloid might leaspace during capillary leakage syndrome. This would result in stotium, fluid that is difficult to mobilize.64 In contrast, new hydrotions may have capillary sealing properties.65,66 Depending on th
l l d d d d d fl
Anesthetic Considerations in Abdominal Compartment Syndrome
Laparotomy Surgical decompression should be considered in the presence
cardiovascular changes associated with IAH/ACS depend on the The amount of IAH, preoperative cardio-respiratory status, theand comorbidity all are relevant.
Patients undergoing decompression laparotomy have shown potension during this procedure, therefore vigilance must be maithe increased IAP. During decompression surgery the anesthetist mration of the patient because of release of inflammatory mediatorperiod following decompression, there is an increase in cardiac ioutput and renal function, and static compliance with a decreasesion pressure (PAOP) and systemic vascular resistance (SVR).79 In
be reduced and ventilator settings readjusted appropriately.
ConclusionManifestations of IAH/ACS include cardiovascular, pulmonary
rologic impairment. Patients at risk for IAH/ACS warrant closhemodynamic and pulmonary management.
Haemodynamic and/or humoral changes should be minimiz
hypervolemia), adequate depth of general anesthesia, and high plation should be continuously maintained. Protective lung strategieinflammator mediators and the transfer of bacteria and bacterial
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inflammatory mediators and the transfer of bacteria and bacterialstream into the lung and vice versa. There is a vast number of vebut all these techniques should comply with one rational concept age due to artificial ventilation itself. It should produce minimaventilation cycle and keep the lung open during the whole ven whole lung and keep it open with the least possible influence on t
Anesthesia induces direct myocardial depression and a loss vasodilatory effect, with concomitant decline in blood pressure,trated and monitored.
Although many precautions and medical adjustments in anaesable and possible, especially in ventilation and fluid management
h b l d f h bd
80
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importance of ensuring a safe and patent airway, adequate centralate hemodynamic monitoring cannot be overemphasized. As dispatients require elevated levels of positive end-expiratory pressuspired oxygen fractions (FiO2) as a result of their decreased pulcreased intrapulmonary shunt. This tenuous pulmonary status cthe operating room and may require the use of a battery-powered
adequate oxygenation and ventilation during transfer. As a result ity associated with intra-hospital transport of the critically ill, perlifesaving operative procedures at the patient’s bedside in the ICU
Active communication between the intensivist and anesthetist regbenefits of transport as well as the patient’s response to intraoperagement is essential.
Following transport to the operating room, a number of criticThe severity of the patient’s pulmonary dysfunction may requiexceed the capabilities of the typical anesthesia machine. The reresult in hypercarbia and hypoxemia in a patient who is ill-prepa
As a result, consideration should be given to using the patient’s Ithe operating room, adopting a total intravenous anesthetic (TIVthesia during the procedure while simultaneously ensuring adeq
oxygenation. As discussed by the authors, adequate resuscitation cular volume is mandatory. Anesthesia and analgesia may both caumalperfusion in the under-resuscitated patient. Further, at the tim
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malperfusion in the under resuscitated patient. Further, at the timof IAP results in an acute return of acidotic, hyperkalemic blpro-inflammatory mediators from both the peripheral and mesenpovolemic patient, this can result in a sudden drop in blood presarrest if intravascular volume is not maintained and acidosis is not
is now free to move caudally, pulmonary barotrauma may occucreased by approximately 50% at the time of decompression. Fotinued volume resuscitation to maintain systemic perfusion and aand insensible losses will be necessary. Patient transport back to tous for the patient as their ACS has been treated and IAP reducedand improving pulmonary function.
Emergent anesthetic management of the patient with ACS l h ll f h h h l d
Anesthetic Considerations in Abdominal Compartment Syndrome
7. Sugrue M, Jones F et al. Intra-abdominal hypertension is an indrenal impairment. Arch Surg 1999; 134(10):1082-5.
8. Lentschener C, Axler O, Fernandez H et al. Haemodynamic chanot consistently associated with carbon dioxide pneumoperitoneumScand 2001; 45(5):527-35.
9. Ishizaki Y, Bandai Y et al. Safe intraabdominal pressure of carbduring laparoscopic surgery. Surgery 1993; 114(3):549-54.
10. Mertens zur Borg IRAM, Verbrugge S et al. Effect of intraabdomtioning on hemodynamic responses during carbon dioxide pneumolaparoscopic donor nephrectomy. Surg Endosc 2004; 18(6):919-23
11. Poldermans D, Boersma E et al. The effect of bisoprolol on periopinfarction in high-risk patients undergoing vascular surgery. Dutch Evaluation Applying Stress Echocardiography Study Group. N Engl
12. Wauquier A, Ashton D et al. Anti-hypoxic effects of etomidate, thInt Pharmacodyn Ther 1981; 249(2):330-4.
13. Adams P, Gelman S et al. Midazolam pharmacodynamics and phpovolemia. Anesthesiology 1985; 63(2):140-6.
14. Gauss A, Heinrich H, Wilder-Smith OH. Echocardiographic assesfects of propofol: a comparison with etomidate and thiopentone. A
15. Lippmann M, Appel PL et al. Sequential cardiorespiratory patterketamine in critically ill patients. Crit Care Med 1983; 11(9):730
16. Doenicke A, Lorenz W et al. Histamine release after intravenhypnotics. A comparison of etomidate, Althesin (CT1341) and p45(11):1097-104.
17. Ebert TJ, Muzi M et al. Sympathetic responses to induction of aneor etomidate Anesthesiology 1992; 76(5):725-33
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or etomidate. Anesthesiology 1992; 76(5):725-33.18. Priano LL, Bernards C, Marrone B. Effect of anesthetic indu
neuroregulation in dogs. Anesth Analg 1989; 68(3):344-9.19. Crozier TA, Schlaeger M et al. TIVA with etomidate-fentanyl v
perioperative stress of coronary surgery overcomes the inhibition etomidate-fentanyl anesthesia. Anaesthesist 1994; 43(9):605-13.
20. De La Cruz JP, Zanca A et al. The effect of propofol on oxidativepatients. Anesth Analg 1999; 89(4):1050-5.
21. Aldemir O, Celebi H et al. The effects of propofol or halothane tourniquet induced ischaemia-reperfusion injury during knee arthro2001; 45(10):1221-5.
22. Takeshima R, Dohi S. Comparison of arterial baroreflex functioenflurane or isoflurane. Anesth Analg 1989; 69(3):284-90.
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34. Bresnick WH, Rask-Madsen C et al. The effect of acute emotionain normal subjects and duodenal ulcer patients. J Clin Gastroente
35. Verbrugge SJ, Lachmann B. Mechanisms of ventilation-induced lunto prevent it. Monaldi Arch Chest Dis 1999; 54(1):22-37.
36. Webb HH, Tierney DF. Experimental pulmonary edema due to intilation with high inflation pressures. Protection by positive end-expDis 1974; 110(5):556-65.
37. Dreyfuss D, Saumon G. Ventilator-induced lung injury: lessons fRespir Crit Care Med 1998; 157(1):294-323.
38. Dreyfuss D, Basset G et al. Intermittent positive-pressure hypervensures produces pulmonary microvascular injury in rats. Am Rev R
39. Dreyfuss D, Soler P et al. High inflation pressure pulmonary edairway pressure, high tidal volume, and positive end-expiratory pre137(5):1159-64.
40. Tremblay LN, Slutsky AS et al. Role of pressure and volume in Appl Cardiopulm Pathophys 1997; 6:179-190.
41. Ashbaugh DG, Petty TL et al. Continuous positive-pressure breathdistress syndrome. J Thorac Cardiovasc Surg 1969; 57(1):31-41.
42. Lachmann B. Open up the lung and keep the lung open. Intensive43. Lachmann B, Jonson B et al. Modes of artificial ventilation in seve
Lung function and morphology in rabbits after wash-out of alve1982; 10(11):724-32.
44. Sjostrand UH, Lichtwarck-Aschoff M et al. Different ventilatory apIntensive Care Med 1995; 21(4):310-8.
45. Kesecioglu J, Mechanical ventilation in ARDS. Adv Exp Med Bio46 Amato MB Barbas CS et al Effect of a protective-ventilation str
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46. Amato MB, Barbas CS et al. Effect of a protective-ventilation strrespiratory distress syndrome. N Engl J Med 1998; 338(6):347-54
47. Barbas CSV, Magaldi RB et al. High PEEP levels improved survivCrit Care Med 2002; 165:A 218.
48. Grasso S, Mascia L et al. Effects of recruiting maneuvers in patien
syndrome ventilated with protective ventilatory strategy. Anesthesi49. Ivatury RR, Porter JM et al. Intra-abdominal hypertension after dominal trauma: prophylaxis, incidence, and clinical relevance to gnal compartment syndrome. J Trauma 1998; 44(6):1016-21; discu
50. Blow O, Magliore L et al. The golden hour and the silver day: dehypoperfusion within 24 hours improves outcome from major traum
51. Weiskopf RB, Bogetz MS et al. Cardiovascular and metabolic sequketamine or thiopental in hypovolemic swine. Anesthesiology 198
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63. Schierhout G, Roberts I. Fluid resuscitation with colloid or cryspatients: a systematic review of randomised trials. BMJ 1998; 316
64. Roberts JS, Bratton SL. Colloid volume expanders. Problems, pitfal55(5):621-30.
65. Oz MC, FitsPatrick MF et al. Attenuation of microvascular permchemic striated muscle by hydroxyethyl starch. Microvasc Res 199
66. Wisselink W, Patetsios P et al. Medium molecular weight pentas
by decreasing capillary leak in an animal model of spinal cord27(1):109-16.
67. Traber LD, Brazeal BA et al. Pentafraction reduces the lung lympministration in the ovine model. Circ Shock 1992; 36(2):93-103.
68. Webb AR, Moss RF et al. A narrow range, medium molecular wtural organ damage in a hyperdynamic porcine model of seps18(6):348-55.
69. Reed LL, Manglano R et al. The effect of hypertonic saline resusci
after hemorrhagic shock in rats. Surgery 1991; 110(4):685-8; discu70. Nolte D, Bayer M et al. Attenuation of postischemic microvascula
by hyperosmolar saline dextran. Am J Physiol 1992; 263(5 Pt 2):H71. Hannemann L, Korell R et al. [Hypertonic solutions in the inte
1993; 118(5):245-9.72. Schimetta W, Schochl H et al. Safety of hypertonic hyperoncotic s
Wien Klin Wochenschr 2002; 114(3):89-95.73. Christ F, Niklas M et al. Hyperosmotic-hyperoncotic solutions du
(AAA) resection. Acta Anaesthesiol Scand 1997; 41(1 Pt 1):62-7074. Hartl R, Ghajar J et al. Treatment of refractory intracranial hypert
injury with repetitive hypertonic/hyperoncotic infusions. Zentralbl
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ju y p yp yp u75. Hartl R, Ghajar J et al. Hypertonic/hyperoncotic saline reliably redu
patients with intracranial hypertension. Acta Neurochir Suppl (Wi76. Safran D, Sgambati S, Orlando R. Laparoscopy in high-risk cardia
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intra-abdominal pressure? J Surg Research 1995; 59(4):497-503.79. Meldrum DR, Moore FA et al. Prospective characterization and s
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Crit Care 2001; 7(4):268-74.81. Stoelting RK. Pharmacology and physiology in anesthetic practic
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CHAPTER 22
Surgical Managementof Abdominal Compartment SyZsolt Balogh, Frederick A. Moore, Claudia E. GoettlMichael F. Rotondo, C. William Schwab and Mark J
Part A: The Surgical Management of AbdCompartment Syndrome
Zsolt Balogh* and Frederick A. Moore
Introductionh h l f “d l” l d
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W ith the evolution of “damage control” laparotomy andtation as standards of care for trauma patients arrhemorrhage, abdominal compartment syndrome (ACS
epidemic in busy trauma centers worldwide. Many alternative
been described to minimize risk of ACS and to manage the condate, virtually all of this information is based on retrospective comparative data exists. The purpose of this chapter is to briefly of temporary abdominal closure (TAC) and review how we incothe surgical management of ACS, acknowledging that our apprcontinues to evolve.
Surgical Management of Abdominal Compartment Syndrome
Towel Clip ClosureThis is the easiest, cheapest technique and permits quick ab
towel clips are placed through the skin edges at 2 to 3 cm interval wound. Problems include damage to the skin and poor drainage of afluid and/or blood. Additionally, because the fascia is almost totall
Table A1.The comparison of temporary abdominal closure m
Towel Clip Bogotá Bag Mesh
Easiness + + + + + + + +Cost + + + + + + + -Time + + + + + + +Drainage + / - + / - +/ -Barrier + + + + + + +Facilitates closure + + - - - -Tissue friendly - - - - - - - - -
Prevents ACS - - - + + + + + +Prevents fistulas + + + + - - - - - - -
ACS: abdominal compartment syndrome; VAC: vacuum-assisted clos
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yroom for the increases in abdominal contents and thus patients aTemporary towel clip closure during damage control laparotomytients who present in profound hemorrhage shock.1 Once the iachieved, the abdomen is packed and the towel clips are applied tin the abdominal cavity. This slows ongoing bleeding giving the aup with the resuscitation. The operating team can also assemble second exploration at which time more definitive hemorrhage cominimizes the need for trips back to the operating room (OR) dufor uncontrolled bleeding. For patients being triaged from the Oshould only be utilized in cases where the wound edges are easily
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patch and it can become infected. At this point the Goretex can bThe underlying bowel will be fixated and covered with granulattissue has incorporated the mesh and is adequately matured after Gthickness skin graft (STSG) is applied. Unless the defect is small,
will be necessary.
Vacuum Assisted Wound Closure (VAWC) While alternative vacuum pack techniques are described,7 we
technique developed by Meredith and colleagues.8,9 This uses a codevice (Kinetics Corporation Inc., San Antonio, TX, U.S.A.) Ditechnique can be found in the manuscript by Garner et al.10 Inbarrier (Steri-Drape, 3M Healthcare, St. Paul, MN, U.S.A.) is pe
a scalpel. It is then placed over the bowel and extends laterally u wall. This is followed by a polyurethane sponge cut to the approThe sponge is then secured in the wound by closing the skin overa running monofilament nylon suture. Bites are taken close to theare spaced 4 to 5 cm apart. The skin surrounding the wound is occlusive dressing is then applied to the entire abdomen, creatinairtight dressing is then placed at -175 mm Hg using an interm
Therapy, Kinetic Concepts, San Antonio, TX, U.S.A.) Once the spsuction, tension is taken off of the suture that was used to retainprocedure is performed in the OR, but may also be performed
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necessary.
Our Approach
Prevention ACS has consistently been reported to have a high morbidity
have shown that despite early recognition and decompression ouPrevention, therefore, is the best strategy.11,12 We believe that pa ACS can be accurately identified within the first 3 to 6 hours afterhage control is of paramount importance. Indiscriminant crystal
Surgical Management of Abdominal Compartment Syndrome
decompression usually entails a full midline incision, evacuation oapplication of a TAC. The procedure can be done on the ICU, whcritically ill patients on maximal ventilatory and renal support.14 Obe avoided when the cause of the ACS potentially can not be mroom environment (i.e., uncontrollable bleeding). If the IAH wafunctions (except for terminal cases) marked improvement is obse
output, airway pressures, visceral perfusion and urine output. Amcardiac output and urine output are associated with improved ou
Management of the Open AbdomenThis is an organized strategy with planned reexplorations, dres
fascial approximation. If this is not feasible, then planned ventrreconstruction will be needed. Patients undergoing “damage conttomy have a Bogotá bag closure. At their second laparotomy the excessive tension. If this is not feasible the VAWC devise is appliebarrier are changed at 2 to 3 day intervals. At each dressing chanand washed out as much as possible. The fascia is then closed inferas possible using interrupted sutures, and the sponge componendefect size of the fascia. The dressing changes are repeated unti
Once fascia is closed, the subcutaneous tissue is allowed to heal tients are removed from mechanical ventilation, extubated, and dithey meet standard criteria. Extubated patients are returned to tanesthesia for dressing changes and fascial approximation
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anesthesia for dressing changes and fascial approximation. We have published two reports of our use of the VAWC devi
included 14 selected general surgery and trauma patients with opeexperience, early definitive fascial closure was achieved in 13 (92
morbidity of two superficial wound infections. The second seriereported trauma patients who met specific high risk criteria anddardized process.15 Seventy four required emergency laparotomiclosed with a Bogotá bag. At the second laparotomy, the midliclosed in 19 (35%), the remaining 36 (65%) required application were six early deaths. Of the remaining 29 discharged patients, wein 25 (86%) at a mean of 7 ± 1 days (range 3 to 18 days). Four
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the abdominal wall is reconstructed, these patients get back to thepreACS quality of life.16 As with any difficult problem, multiple treconstruction of large ventral hernias have been described. In field, we use nonabsorbable mesh if we can interpose abdomintween the mesh and the underlying bowel. If this is not feasible, nent separation technique as recently reported by Jernigan et al.6
previous loss of the abdominal wall, we enlist the assistance of oumobilize pedicle flaps. An elegant solution is the full thickness innthese requires microsurgical skills and 5 to 6 hours operating rooexcellent results with this technique; patients regained enough thickness flap to support their abdominal wall.17
Summary With prospective awareness, better resuscitation and advanc
niques the incidence and hopefully the mortality of ACS can behowever, will lead to increased number of open abdomens. To related morbidity and mortality, we need to continue to focus onthe initial decompression or preventive open abdomen treatmenfascial sutures is recommended. We do not advocate VAWC as fiand one third of the patients can have their fascia primarily close
Additionally, there are reported cases in the literature when the uately after ACS decompression resulted in recurrent ACS.18 If achieved at the second look procedure VAWC is our method of c
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p72 hours changes of the VAWC primary fascial closure can be achshock/trauma patients with open abdomen. Mesh interposition mary fascial closure can not be performed. There is no high qualinterposition material. Based on case series and our local expert the best choice. The classic method of planned ventral hernia fotoughest cases. Open granulation may be expedited with the VSTSG is the standard method. At 6-12 month delayed abdominamended to a regain the original quality of life.
References1. Moore EE. Staged laparotomy for the hypothermia, acidosis and
Surgical Management of Abdominal Compartment Syndrome
12. Balogh Z, McKinley BA, Cox Jr CS et al. Abdominal CompartEffect of Postinjury Multiple Organ Failure. Shock 2003; 20:483-
13. Meldrum DR, Moore FA, Moore EE et al. Cardiopulmonary hamajor liver injuries. Am J Surg 1995; 170:537-542.
14. Balogh Z, McKinley BA, Cocanour CS et al. Secondary AbdominElusive Complication of Traumatic Shock Resuscitation. Am J Su
15. Suliburk JW, Ware DN, Balogh Z et al. Vacuum-assisted woun
closure of open abdomens after severe trauma. J Trauma 2003; 5516. Cheatham ML, Safcsak K, Llerena LE et al. Long-term physical
quences of abdominal decompression. J Trauma 2004; 56:237-41.17. Ninkovic M, Kronberger P, Harpf C et al. Free innervated latissim
struction of full-thickness abdominal wall defects. Plast Reconstr S18. Gracias VH, Braslow B, Johnson J et al. Abdominal compartment
Arch Surg 2002; 137:1298-300.
Part B: Surgical Management of the OpenDamage Control or Abdominal CSyndrome
Claudia E. Goettler,* Michael F. Rotondo and C. Wi
IntroductionIndications for leaving an abdomen open include “Damage Co
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Indications for leaving an abdomen open include Damage Coment syndrome and prevention of abdominal compartment synoperation or operations. Regardless of the reason for maintainingfurther decisions must be made. These include the method of te
containment, the timing of reoperation, when to attempt abdommethod of closure is selected. Finally, the management of certain cand drainage tubes or ostomy placement and care require special c
Indications for Open Abdomen A growing body of literature clearly shows that increased intra-
deleterious physiologic effects. These include the defining criteria
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both rapid termination of their procedure (temporary abdominagoing, potentially massive resuscitation. They are best managedsome form of transient synthetic abdominal wall closure.
Other reasons for maintaining an open abdomen is severe pdominal washouts, ischemic viscera requiring second-look laparofor hemostasis or serial debridments required to manage pancreati
and closing of the fascia in these cases results in fascial damage anddefinitive closure. The use of a temporary abdominal containmelent option that accommodates any volume of extra abdominal vthe abdominal wall untouched.
A subset of patients without intra-abdominal pathology will ment syndrome after massive resuscitation for their disease procextensive orthopedic injuries, large body surface burn injury, sevein medical patients. The common scenario is some massive inflamcrytalloid resuscitation given over a short time (12-24 hours).
Temporary Abdominal Containment Once the decision is made to manage the patient with an o
dressing must be selected and used to keep all abdominal viscera
contamination of the peritoneal cavity and optimally seal the aMethods of temporary containment (Damage Control part 1) vaeral important common factors. The optimal containment methThe dressings must have enough surface area to cover any size
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The dressings must have enough surface area to cover any sizeprotuberence without causing tension on the abdominal wall opressure. Optimally the dressing will prevent leakage of fluids but intraperitoneal fluid. This allows accurate measurements of inta
patient’s skin from maceration due to dampness, and facilitateshould be nonreactive to avoid adhesion formation and slipperybowel size and position as edema increases and subsequently resolvsis. The dressing method should also allow rapid reopening fordevelopment of abdominal hypertension.
Skin closure, by towel clips or whipstitch is a rapid techniqudomain and avoids injury to the fascia. The use of towel clips do
Surgical Management of Abdominal Compartment Syndrome
room. It does allow rapid repeat laparotomy, as it can be simply othe reclosed with a running large suture.
Mesh of all types has also been described. The disadvantages numerous. None of the mesh varieties are water tight, as even GorGore & Assoc., Flagstaff, AZ) mesh leaks around the edges. Thetime to affix to the abdominal wall. If placed tightly enough to m
recurrent abdominal compartment syndrome is likely, thereby tirely, as the mesh will need to be opened or reapplied. VicrySomerville, NJ) or Dexon (polyglycolic acid, Davis & Geck, Dalittle tensile strength and tends to tear both during suturing anexpand and place pressure on it. Activity as minimal as nurses tucan result in evisceration. Polypropylene mesh (Marlex, Bard, BilSomervill, NJ; Surgipro, US Surgical, Norwalk, CT) is very stroheres to the underlying bowel, incites an inflammatory responcreased fistula rates, as high as 12-50%.8 Gortex mesh is nonadhexpensive and has a high infection rate.
Our method of choice for rapid temporary abdominal containdressing (“Vac-Pac”). This has been described with many minothere is a commercially manufactured vac-sponge system.9,10 In g
of a nonadhesive, soft, clear plastic layer tucked into the abdomen the bowels. We utilize an adhesive plastic sheet backed by a sterileinterposition layer which allows fluid out of the abdomen (we useclosed suction drains. These drains perform two functions: they
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p yume assessment and patient cleanliness and provide continuous pressure within the dressing and abdomen. Over this and most oand opening, a large adhesive drape is attached. This dressing c
quite inexpensive (about $40), and is watertight. (Figs. B1-B4) partment syndrome occurs, the top adhesive dressing can be slit wthe abdominal contents, still covered by the plasticised towel. A tbe reapplied. This dressing can be made to cover any size of abdand does not require any suturing in fascia or skin. Infrequently mdue to traction of the adhesive dressing during stretch of the abd
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Figure B1. A surgical towel covered with adhesive plastic is placed underagainst the bowel.
Surgical Management of Abdominal Compartment Syndrome
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Figure B3. An adhesive dressing is applied over the entire abdomen.
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thorough reexamination of the abdominal contents for missed identified injuries, and reconstruction of all gastrointestinal or genregarding definitive abdominal closure and feeding access dependon visceral and abdominal wall edema. If the abdomen can be cldone and appropriate feeding access is provided. If fascial closure ia third reoperation is felt necessary, another temporary dressing is
fascial closure should be undertaken until the patient has resolveand the intestines no longer protrude. We use the rough gauge thbe at or below the fascia wall to attempt closure.
The second category of patients fail to have normalization ofeters despite aggressive resuscitation. This occurs usually from ongfrom missed injury or a missed or progression of abdominal hydressing.
In patients with evidence of ongoing bleeding (bloody drainimmediate return to the operating room is necessary for hemorevidence of abdominal hypertension without bleeding can be otemporary dressing like a vac-pack applied. These patients shoulmissed injury as well as iatrogenic injury. All surfaces, suture liextraabdominal body regions should be inspected for site of occu
Managing and Changing Temporary ClosurePatients with temporary closure require management of thei
tients with packing for bleeding (liver or retroperitonium), or t
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ceral operative procedures (bowel anastomsis), dressing changes arFor some patients with intra-abdominal edema or requiring simpbe done at the bedside in the Intensive Care Unit. Proper equipm
anesthesia are required.Packs used to control bleeding can generally be removed in 24as necessary. Infection rates vary from 10% to 69%,13 and probapack retention.14 Washout interval for infectious processes depensurgeons doing more frequent washouts (daily) early in the courinterval as the patient improves. For “routine” change of tempocontents, the dressing can be changed every other day, though
Surgical Management of Abdominal Compartment Syndrome
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Options for this include polypropylene mesh with an nonadherebowel injury,16 zippered mesh,17,18 and hook-and-loop fabric sew
Transitional ClosureSeveral methods of transitional closure exist for patients who r
Figure B5. The large abdominal defect left after skin grafting an open ab
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infected field, and if it becomes infected will require removal. Moadherent nature of this material making its use a prohibitive risk
Gortex mesh is nonadherent and has a very low rate of fistulbut is poorly integrated into the tissues. In addition, the pore sizeenter but does not permit the entry of white blood cells, resultintion.7
While the use of permanent mesh with immediate soft tissue fclosure has been described, this method has a high risk of infectiofails, even greater loss of abdominal wall tissue. This is an extenshould not be done in the early recovery phase of those critically patients, with clean wounds and excellent metabolic proficiencacceptable but some long term abdominal laxity is to be expected
Various methods of serial closure have been espoused to draw
delayed primary closure. These include creation of a silo affixed tmaterial and daily tightening, similar to omphalocele reduction. used for this technique, including the use of binder clips!20 Variincluding a hook-and-loop fabric system,19 serial abdominal clostures22 which can be sequentially tightened. These methods haveing a second elective procedure after final delayed primary closuare relatively common.
This attempt to draw the fascia together under tension has sthese methods attach to the fascia, ongoing tightening results infascia. This can result in fascial ischemia, tearing and loss with bd i l ll Al hi l i f i
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abdominal wall to manage. Also, as this population of patients remdoes increase intra-abdominal pressures and hence may result in abthe “spanning” material, whether mesh or sutures places pressure o
can cause bowel erosion and fistula. The closure rate with these vstandardize in this very diverse population but is about 52%.23 Itthese tension techniques, that tightening should only occur withtents as a method of maintaining abdominal domain. Any attemplacing tension on the fascia is likely to result in any of the above is a major set back and at times mortal event. Hence, these sequenused with great caution and in our experience do not add signific
Surgical Management of Abdominal Compartment Syndrome
Tubes and Stoma in the Open AbdomenSpecial discussion is warranted regarding traversing the abdom
mas in patients with an open abdomen. This becomes problemaInitially, increasing edema of the abdominal viscera and the abdomtion of the bowel, feeding tubes or drains. These may be lost and sabdomen or become ischemic. Later, as the edema resolves, the re
again changes, creating different geography, tethering points anused for stoma. For these reasons, we avoid if at all possible trans-abdominal feeding tubes in the early care of these patients. may be safer to perform a primary bowel anastomosis than brinrequired, should be placed with considerable redundancy and be sible to avoid damage to the components of the rectus muscle. Fee
be accomplished by a naso-duodenal feeding tube placed intrareturn to the operating room and surgically placed gastrostomy or jefor the above reasons. Typically, these patients require a periodperiods of enteral tube feeding as they recover. Eventually patients c Additionally, there are case reports of percutaneous endoscopic gafter the abdominal wall edema has subsided,25 but we have beenin the bowel and have attempted to avoid trans-abdominal feedin
Later in the patient’s course, sites of tubes and stomas in the abclosure, particularly if component separation is necessary, more tween tissue layers and creating holes in the components. For ttubes are deemed necessary, they are brought out lateral to the rec
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gmuscles. Stomas are brought out on the flank between the costal or slightly posterior to the mid-axillary line. We have formed mafind that they avoid soilage in the open abdomen, are away from
closure and provide significant benefit for future closure as they intact.
FistulaeThe bane of open abdomen management is the enterocutane
varies, depending on the initial pathology and the method of abd7
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If a fistula develops, standard therapy with bowel rest and intMoreover, fistula output is best controlled with a suction drain erosion of the skin and granulating bed by the caustic intestinal around the site is still beneficial. Some of the graft may be lost if controlled. However, if secretions are well controlled and peri-fiture split thickness skin graft will support the placement of a sto
therapists can be particularly helpful in these instances. Small fistulabut larger fistulae, which may take on the appearance of an ostomeventual surgical resection and anastomosis. This should be dootherwise recovered, is nutritionally replete and is prepared for dThis typically occurs at six to twelve months after skin grafting. removed, the fistula resected, bowel is anastomosed and the anastothe abdominal wall closure by tucking it deep into the abdomen, coverage. Should a recurrent fistula develop, closure with nonopsuccessful, as there is intervening native tissue that will contracdistal bowel obstruction.
Definitive Abdominal Wall RepairTiming to elective definitive abdominal wall reconstruction i
cussed, the patient must have recovered from the precipitating coreplete. In addition, time should allow for intra-abdominal adhesoccurs at 6-12 months after the last operations, sometimes sooneinterposed between the intestines and the mesh. During this tim
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wear an abdominal binder at all times as we feel that it helps in thdomain by preventing increased protrusion of the bowels. It is alfort and increased ability to move about by stabilizing the open
should have a continuous physical therapy regime to regain mobilshould be encouraged. Last, substance abuse, smoking cessation should be offered as a prerequisite for definitive reconstruction.
Determination of the timing of the definitive reconstruction dtransient closure has been created using a split thickness skin grdepends on the separation of the mesh/skin graft from the un
Surgical Management of Abdominal Compartment Syndrome
Figure B6. The “pinch test” indicates separation of the skin graft from th
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Summary Managing open abdomen patients is challenging and requires c
patients are best managed with a synthetic abdominal containmentplastic dressing. Thereafter, return to the operating room for defout as soon as the patient is resuscitated, or sooner if the patient fastabilization. Primary closure of the abdomen is optimal but shpatients with resolved edema and no evidence of intra-abdominaing patients are closed with a transient dressing typically with absing. Care must be taken to avoid fistulae. Stomas, external draina
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10. Sherck J, Seiver A, Shatney C et al. Covering the “open abdomen1998; 64:854-857.
11. Gracias VH, Braslow B, Johnson J et al. Abdominal compartment Arch Surg 2002; 137:1198-1300.
12. Burch JM, Moore EE, Morre FA et al. The abdominal compartm Am 1996; 76:833-842.
13. Morris Jr JA, Eddy VA, Blinman TA et al. The staged celiotomy
and reconstruction. Ann Surg 1993; 217:576-586.14. Shapiro MB, Jenkins DH, Schwab CW et al. Damage control: Co
49:969-978.15. Barker DE, Kaufman HJ, Smith LA et al. Vacuum pack techniq
sure: A 7-year experience with 112 patients. J Trauma 2000; 48:216. Edwards MR, Siddipui MN. The open abdomen—a simple cost-eff
management. Ann R Coll Surg Engl 2003; 85:281-282.17. Garcia-Sabrido JL, Tallado JM, Christou NV et al. Treatment
and/or necrotic foci by an “open-abdomen” approach. Zipper anSurg 1988; 123:152-156.
18. Hedderich GS, Wexler MJ, McLean APH et al. The septic abdMarlex mesh with a zipper. Surgery 1986; 99:399-407.
19. Wittmann DH, Aprahamian C, Bergstein JM. Etappenlavage. Adaged by planned multiple laparotomies utilizing zippers, slide fastemporary abdominal closure. World J Surg 1990; 14:218-226.
20. Myers JA, Latensier BA. Nonoperative progressive “Bogota bag”
pression. Am Surg 2002; 68:1029-1030.21. Kafie FE, Tessier DJ, Williams RA et al. Serial abdominal closu
dure): A novel method for delayed closure of the abdominal wall.22. Koniaris LG, Hendrickson RJ, Drugas G et al. Dynamic retention
complex abdomen in critically ill patients Arch Surg 136:1359-13
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complex abdomen in critically ill patients. Arch Surg 136:1359-1323. Tremblay LN, Feliciano DV, Schmidt J et al. Skin only or silo cl
with an open abdomen. Am J Surg 2002; 182:670-675.24. Miller PR, Thompson JT, Faler BJ et al. Late fascial closure in
step in open abdomen management. J Trauma 2002; 53:843-849.25. Block EFJ, Cheatham ML, Bee TK. Percutaneous endoscopic gastr
abdomen. Am Surg 2001; 67:913-914.
Part C: Surgical Approaches to the Open
Mark J. Kaplan*
Surgical Management of Abdominal Compartment Syndrome
minimize exposure of bowel, and to control the inflammatory abdomen.
IntroductionThe open abdomen presents numerous management challeng
particularly in patients with traumatic injuries, intra-abdominal s
coagulopathy, bowel edema, and intra-abdominal packing.1
Patienally require multiple reexplorations and are resource intensive. Thing the open abdomen is control of abdominal contents, intra-abcilitation of abdominal exploration, preservation of the fascia forminimizing the effects of intra-abdominal hypertension. Althoustudies documenting the effectiveness of an open abdomen retrothat maintaining an open abdomen is effective in the appropriate
Currently, standard protocols have not been defined for the mamen. Frequency of exploration, abdominal wall coverage, surgicalfor definitive closure are based on the clinical judgment of the opfor an open abdomen include bowel edema, severe intra-abdomacidosis, and significant risk of developing an abdominal compar
The most common reason for an open abdomen is damage-cated laparotomy is performed to address life-threatening injuriespacking, and bowel injuries are closed without anastomosis. Thtemporary barrier to maintain bowel integrity and to allow for Also, with the use of a temporary closure, the abdomen is decomoping of abdominal compartment syndrome (ACS) is lowered. Th
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p g p y ( )in short term survival with an associated increase in morbidity.4
The use of an open abdomen management strategy has incre
class of patients is evolving with complex problems that were not with open abdomens require multiple trips to the operating roomas long as 2 or 3 weeks) using staged abdominal explorations. Chrcan develop with large abdominal wall defects that have to be require extensive surgical repair 6 months later. Patients with opfistula rates between 2% and 25%, intra-abdominal abscess ratreported abdominal wall hernia rates are around 25%.5 A signific
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Pathophysiology of the Open Abdomen
The concept of an open abdomen in surgical practice is noproaches were recognized in war surgery.6 Since the early 80’s nabdominal closure techniques have been described. The earliest wmen with formation of granulation tissue and subsequent skin ghave been used for temporary closure but prosthetic materials haThe most important characteristics of a temporary closure prosthepermeability, and conformity to the shape and configuration of t
TAC is indicated in patients with significant bowel edema, aand acute postoperative acsites formation (Table C1).6 With the rof intra-abdominal hypertension (IAH is a risk factor for the dtechniques have evolved that control intra-abdominal contents od i l d f ili bd i l ll l
Table C1. Abdominal wall closure may not be possible after patients for many reasons
Massive intestinal edemaRisk of ACS/Treatment of ACS
Rapid conclusion of procedure in DCSNeed for multiple re-explorations of the abdomenFascia and abdominal wall preservationTriad of hypothermia, coagulopathy, acidosis
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dominal pressure and facilitates abdominal wall closure.The underlying pathophysiology leads to the morbidity see
abdomens opened and require multiple reexplorations. Considethe open abdomen should therefore not only contain and protectshould not exacerbate the intraperitoneal inflammatory reactionbenefit in systems that not only minimize the potential for a removal of inflammatory substances may decrease the systemic c
The open abdomen after a traumatic or septic insult should bronment.9 There is an extensive degree of tissue destruction, con
Surgical Management of Abdominal Compartment Syndrome
abdominal compartment syndrome.14 A significant increase in Tminutes after decompression for ACS. There was also an intensethe lung with intense pulmonary infiltration. Control of third spamize the development of an ACS but theoretically reduce the syated with an open abdomen.
Morbidity Associated with the Open AbdomenPatients treated with an open abdomen can have significant cois the cause of the complications; technique of closure or the sevetion of hemodynamics is an integral part of managing a patient wtrol of systemic sepsis, optimal nutritional support, and meticintra-abdominal organs are important factors. Intra-abdominal sepelimination of blood and gross soilage and prevention of bowel a
The most significant management problem is the developmabdomen. This can occur if the bowel is exposed to air, alloweddressings, or deserosalized.15 Fistulas are also caused by “biomatecausing transmural changes to the bowel wall If the bowel is fixed ration with sudden changes in abdominal pressure will occur.7 Nbe used when there is direct contact with the bowel. Omentum
layer. Fistula rates have been reported as high as 18.2% in patientsdamage control surgery.4 Ivatury and associates were able to sig with the use of early closure of the skin and fascial defects.16 Chav10.5% anastomotic breakdown in patients with an open abdomeanastomosis deep in the peritoneal cavity to avoid exposure 17
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anastomosis deep in the peritoneal cavity to avoid exposure.Third space drainage can be a significant problem in patien
Patients can drain liters over 24 hour period that could cause c
bedding was allowed to be saturated, cause additional wound breaspace losses, and create a significant nursing problem. Vacuum sysminimize patient soilage and quantify third space losses.
Hernia formation can be a significant problem associated witused to manage an open abdomen. Hernias are generally seen in pclosure was not possible and a skin graft applied. Hernia rates h69% and vary by factors including: abdominal distention, abdom
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increased pressure alone without evidence of systemic signs of airway pressures, decreased cardiac perfusion, or elevated intracra
Ivatury et al demonstrated in a retrospective study the effectivthe development of IAH.16 Patients defined as high risk for ACmultiple injuries, strong suspicion for the development of ACS, nee
were studied in two groups: group I the placement of a TAC usi
loosely; group II had their abdomens closed at the time of surgery and organs repaired. There was an incidence of IAH (defined as Hg) in the mesh closure group of 22.2% and 52% in the fascialorgan dysfunction were better in patients that did not developsurvival of 90.1% in the mesh-closed group compared to 68% in study demonstrated the effectiveness of established guidelines to velopment of IAH.
In a study to evaluate the efficacy of placing a TAC to prevenates compared in a retrospective study the primary placement ofthat were at high risk for an ACS at the time of the initial celioexploration.22 The group that had a mesh placed secondarily h
ACS, necrotizing fasciitis, intra-abdominal sepsis, and enterocutsion from this study suggested a benefit in early placement of TA
Patients closed with a temporary closure are still at risk for the fore, serial bladder pressures are imperative in patients with a teThe incidence of ACS is as high as 38% with a TAC.19 Progressiof an ACS can be predicted by a progressive increase in serial common cause is continued bleeding either from a surgical bl
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Moore states that bladder pressures greater than 35 mm Hg d warrants immediate decompression in the OR.20 Ivatury et
reexploration at the beside for increasing pressures even in the facorder to evacuate clots, control bleeding, and repack the abdomenthe “bloody vicious cycle” of acidosis, coagulopathy, and hypothnary and cardiac performance and reversing the effects of cellular
Gracias et al report the development of an ACS as a rapidly prabdomen developing between 1.5 and 12 hours and was associateof 60%.25 Patients with high crystalloid requirements and seve
Surgical Management of Abdominal Compartment Syndrome
have a significant change in their urinary output. Only 28% of thbrisk diuresis. There was a reported improvement in dynamic luimprovement in gas exchange or acid base status. There was norenal function or oxygenation. While there was minimal benefit instudy does suggest that the prevention on IAH may be the key in tin high-risk patients. In contrast, a retrospective study completethere was improvement in physiologic parameters in patients w
emergent decompression and defined the clinical patterns and timever, with improved hemodynamics there was still a 35% mortal59% 30 day mortality after decompression for an ACS because osyndrome that resulted after the systemic inflammatory process fouRetrospective data suggests the prevention of the syndrome and
Table C2. Requirements for TAC devices
Multiple abdominal re-explorationsControl of peritoneal fluid and third space lossMinimizing increases in intra-abdominal pressure increase
Preserve fascial integrity/facilitates abdominal wall closureMinimize dressing changes and wound exposureContain intra-abdominal contentsProtect intra-abdominal contentsLower bacterial counts
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Retrospective data suggests the prevention of the syndrome and could lower the complications and mortality observed.
Methods of Managing the Open AbdomenThe management of the open abdomen remains controversial
have evolved from a static approach of allowing the abdominal wato more dynamic systems that control peritoneal fluid and facilitamen. The goal of temporary closure of the abdomen is to have a elevating intra-abdominal pressure. This is not always possible inwith intra-abdominal sepsis To date there are no reported prospe
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Multiple types of closure have been reported. A survey of tassociates in 1999 found the use of the Bogotá bag was 25%;polypropylene mesh was 14%; PTFE 14%; silastic mesh 7%; mclosure 1%.21 Of note 3% of surgeons surveyed responded that men technique” (Fig. C1). Table C3 represents a summary of TA
Figure C1. Towel clip closure.
Surgical Management of Abdominal Compartment Syndrome
tclosure
D
isadvantages
D
ifficulttomaintainseal
ation
P
otentiallylargevolumelosses
usesmaterial
foundinOR;
L
acksabilitytoapproximateabdominal
ontroloffluidand
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ontrol;lacks
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safeguardstomaintainconstantsuction
a
ndbleedingdetection
ieddirectlyoverbowel;
R
apidlossoftensilestrength(inthe
rainageofperitonealfluid
settingofinfection).Potentiallylarge
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entralherniadevelopment.Noreopen
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estrength;AllowsfordrainageR
iskofintestinalerosionwhenapplied
lfluid
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irectlyoverbowel.P
otentiallylarge
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olumelosses.Highriskofmesh
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difficulttoremove
estrength.Reopenandclose
P
otentialfluidaccumulationunderneath
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mporaryandperm
anent
Adva
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Canbeappl
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Abd 290
Figure C2. “Bogotá-bag” closure.
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coverage as well as expansion of the abdominal wall. The Bogopregas-sterilized 3-liter cystosocopy bag that was cut in an oval sha
Other variations of the Bogotá bag include the use of sterile X-rayand latex. Advantages of the silo closure are low cost, nonadherento apply, and is very available in the operating room.10 Disadvantskin, does not allow for easy entrance to the abdomen, and muage.10,28 There is also minimal control of third space loss leaking frbed wet and increasing the risk of hypothermia. Most of the effectbeen through case reports and noncontrolled studies with a wide
Surgical Management of Abdominal Compartment Syndrome
h d l i b l d h l fi l 5 Th j d
Figure C3. “Vac-Pac” dressing.
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to the underlying bowel and has a low fistula rate.5 The major drato skin graft, resistance to infection, and chronic subcutaneous in
Aprahamian et al in 1990 described an open abdomen technthetic placed over the abdomen. This device allowed for easy enreexploration and facilitated closure of the abdomen with serial erates were similar to other methods of closure but there have limitto its use and effectiveness.5
VAC Pac Closure
Abd 292
Figure C4. Vacuum assisted closure.
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surface and a sensing device to prevent uncontrolled fluid draininitially developed at Wake Forest by Argenta and Morykwas as an a
therapy has evolved to an effective device in the management of There is a nonadherent polyurethane layer that is fenestrated andthe anterior abdominal wall. Application of negative pressure to tradial pull that produces an even distribution of force over the woin blood flow, a reduction on abdominal wall tension, reduction defect, decreased bowel edema, and potential removal of inflammmulate in the abdomen during inflammatory states (Table C4)
Surgical Management of Abdominal Compartment Syndrome
patients that had a primary closure rate of 86% with a mean timefour patients that failed VAC therapy closure 2 developed fistulas
Miller et al reported his group’s experience using negative pabdomen. Of the 83 patients that survived their injuries for potenthad their fascia closed; 37 (62%) in less than 9 days and 22 (37%)results compare favorably to other modalities of closure and retro
percentage of closure in patients with VAC therapy. This lowers thhospital for long and complicated closure procedures.
These three combined retrospective studies show efficacy infavorably to VAC pack therapy. There appears to be an advantagtherapy applied to an open abdomen wound. A dynamic closure have an advantage in that edema and third space losses can be closed in a timelier manner. Experience of the author has been
additional benefits of lower ICU length of stay, higher percentage complications when compared to other techniques.43
Closure of the Open AbdomenThe goal of using an open abdomen is to minimize the effec
minimize the secondary complications seen with an open abdo
abdominal contents will decrease complications with restoration be taken to prevent desiccation and adherence of the bowel to drmesh closure alone had variable closure rates with a significant inof the material used.20 With the introduction of dynamic cVelcro-closure method or VAC therapy closure rates have increa
t
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rates.In those cases when fascial closure is not feasible because of ede
include: allowing the abdominal wall to granulate and place a skmate the skin and allow a ventral hernia to develop or use a prosthgrafted over granulation tissue If a skin graft is placed over granul6 month maturation period before attempting to close the abdinflammatory process to subside and facilitate entry into the abd
Late abdominal wall reconstruction can be accomplished wiFabian et al have used the separation of components technique eff
Abd 294
Commentary
Rao R. Ivatury
The most definitive management, prophylactic or therapeutictreatment and temporary abdominal closure (TAC) and non-sutpreceding chapters of this book have substantiated the superiorapproach in reducing multiple organ failure and the resulting moof patients. Dampening the enthusiasm for this strategy is the copen abdomen in the critically ill patient. The need for extenseffects of exposed bowel in terms of serositis and secondary hedessication, the theoretical possibility of “tertiary peritonitis”, aesmost dreaded complication of fistulization of bowel in the op
“entero-atmospheric” fistula have been just some of the deterrentage-control” operations in the trauma scenario became ever morhave become comfortable with the open-abdomen and are now tof IAH and ACS . Converts in other specialities of surgery have bnot the least of which is the need to deal with the open abdomeexcuse of loss of fascial closure until a subsequent readmission plastic hernia repairs.
The last decade has seen remarkable improvements in our aabdomen in the ICU . Better prosthetic meshes have become avaimore important, new concepts in vacuum-assisted closure have hclosure in a very high percentage of these patients. The complicatreduced to less than five percent.
Thi h i l i di ill i f hi
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This chapter on surgical treatment is a distillation of this expthree sections. Kaplan builds a succinct summary of the problems
the open abdomen on a scientific basis of our understanding of IAHand Schwab take the reader by hand step-by-step from the decisiothe conduct of the stages of this approach. They provide valuableof stomas and tubes in the open abdomen and the methods of temand Moore, leaders in vacuum-assisted closure, give a succinct accurrent practice. The reader will excuse the repetition in these thrconsciously and deliberately included all of them to underscore
Surgical Management of Abdominal Compartment Syndrome
9. Hirshberg A, Stein M, Adar R et al. Damage control surgery. ReopSurgical Clinics of North America 1997; 77(4):897-907.
10. Marshall JC, Innes M, Dellinger RP et al. Concise definitive reviment of intra-abdominal infection. Critical Care Medicine 2003; 3
11. Mayberry JC, Welker KJ, Goldman RK et al. Mechanism of acutresuscitation. Arch Surg 2003; 138:773-776.
12. Schein M, Wittmann DH, Holzheimer R et al. Hypothesis: Comp
intraabdominal infection. Surgery 1996; 119(6):694-700.13. Adams JM, Hauser CJ, Livingston DH et al. The immunomoduabdominal packing on local and systemic neutrophil activity. J Tr
14. Rezende-Neto JB, Moore EE, Melo de Andrade MV et al. Systemicary to abdominal compartment syndrome. Stage for multiple o53:1121-1128.
15. Martin RR, Byrne M. Damage control surgery. Post operative cacontrol surgery. Surgical Clinics of North America 1997; 77(4):92
16. Ivatury RR, Porter JM, Simon RJ et al. Intra-abdominal hypertenetrating abdominal trauma. Prophylaxis, incidence, and clinical rand abdominal compartment syndrome. J Trauma 1998; 44(6):10
17. Chavarria-Aguilar M, Cockerham WT, Barker DE et al. Managemin the open abdomen. J Trauma 2004; 56(3):560-564.
18. Fabian TC, Croce MA, Pritchard FE et al. Planned ventral herniaabdominal wall defects. Ann of Surg 1994; 219(6):643-653.
19. Ivatury RR, Diebel L, Porter JM et al. Damage control surgery: In
the abdominal compartment syndrome. Surgical Clinics of North 20. Moore EE. Staged laparotomy for the hypothermia, acidosis, andSurg 1996; 172(5):405-410.
21. Mayberry JC, Goldman RK, Mullins RJ et al. Surveyed opinion othe prevention of the abdominal compartment syndrome. J Traum
22. Mayberry JC, Mullins RJ, Crass RA et al. Prevention of abdomb b bl h h i l A h S 1997 132 957 962
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absorbable mesh prosthesis closure. Arch Surg 1997; 132:957-96223. Offner PJ, Laurence de Souza A, Moore EE et al. Avoidance of abd
in damage-control laparotomy after trauma. Arch Surg 2001; 136:24. Gracias VH, Braslow B, Johnson J et al. Abdominal compartment s
Arch Surg 2002; 137(11):1298-300.25. McNeilis J, Marini CP, Jurkiewicz A et al. Predictive factors asso
abdominal compartment syndrome in the surgical intensive care unit26. Balogh Z, McKinley BA, Holcomb JB et al. Both primary and sec
syndrome can be predicted early and are harbinger of multiple 54(5):848-861.
Abd 296
38. Aprahamian C, Wittmann D, Bergstein J et al. Temporary abdomrelaparotomy (Etappenlavage) in trauma. J Trauma 1990; 30(6):7
39. Barker DE, Kaufman HJ, Smith LA et al. Vacuum pack techniqsure: A 7-year experience with 112 patients. J Trauma 2000; 48(2
40. Argenta LC, Morykwas MJ. Vacuum-assisted closure: A new methment: Clinical experience. Ann of Plastic Surg 1997; 38(6):563-57
41. Garner B, Ware DN, Cocanour CS et al. Vacuum-assisted woun
reapproximation in trauma patients with open abdomens. Am J o42. Suliburk JW, Ware DN, Balogh Z et al. Vacuun-assisted wound sure of open abdomens after severe trauma. J Trauma 2003; 55(6
43. Miller PR, Thompson JT, Faler B et al. Late fascial closure in lstep in open abdomen management. J Trauma 2003; 53(5):843-8
44. Kaplan M. Managing the open abdomen: Acknowledging the risktomy/Wound Management 2004; 50(1A suppl):C2-8.
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Epilogue
CHAPTER 23
Epilogue:Options and Challenges for the FutureMichael L. Cheatham,* Rao R. Ivatury, Manu L. N. and Michael Sugrue
Intra-abdominal hypertension (IAH) and abdominal compa widely believed to be relatively new disease processes thatexuberant crystalloid over-resuscitation.1 The conventional w
ACS are largely iatrogenic in origin and would not occur were mostrategies employed. If we study the past, however, we learn thpressure (IAP) and its detrimental impact on end-organ functio150 years ago in a number of pioneering studies (Fig. 1). The exis
ill, therefore, clearly predates by well over a century any concept otion. We must also humbly recognize that the pathophysiology of inincreases in IAP secondary to visceral edema was largely forgottIAH and ACS just over a decade ago. Perhaps in consolation, thehave most likely become clinically significant only within the pas
i i l i d i i i (ICU)
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ments in surgical practice and intensive care unit (ICU) managemsurvive the first 24 hours of critical illness to develop subsequent ACS, therefore, along with sepsis and multiple system organ failquence of the improved survival from shock and critical illness afforICU management and not necessarily a by-product thereof.
As the preceding chapters illustrate, our understanding and mas potentially life-threatening concerns in the critically ill have their rediscovery. Significant strides have been made in a relativelyour knowledge of the pathophysiology involved and the interve
Abd 298
Abdominal Compartment Syndrome (WSACS) (Table 1). Throu
challenges, we possess the potential to define and invent the futu
EducationIn looking to the future, we must begin by recognizing that
virtually all patient populations, irrespective of age, illness, or il i d i h i ll i j d i d
Figure 1. Intra-abdominal hypertension / abdominal compartment syndrompressure; IAH: intra-abdominal hypertension; ACS: abdominal compart
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monly recognized in the traumatically-injured patient, we needbelief that IAH and ACS afflict only the surgical patient and acknmedical and pediatric patient populations as well.2,3 The future with educating clinicians of all disciplines as to the widespread pciated mortality of elevated IAP, IAH, and ACS within their patieshould focus upon three key areas: incidence, detection, and man
A recent prospective, multi-center epidemiologic trial identifiecal and surgical intensive care unit (ICU) patient population, I
3
Epilogue
anonymity of IAH and ACS as important disease processes in thrisk of being forgotten yet again.
A recent survey of intensivists (those most likely to encounter Iincidences described above) identified that 34% of medical and believed that they had “never” encountered a patient with ACS.demonstrates that a significant lack of knowledge exists among ph
presence of IAH and ACS among the critically ill. IAH and ACSnized or are being misdiagnosed as acute respiratory distress synischemia, or multiple system organ failure (MSOF) among othersand mortality of these disease processes is to be changed in the nphysicians, nurses, respiratory therapists, and others must be given as is being done in the Surviving Sepsis Campaign.
In the novel, “The House of God” by Samuel Shem, MD, the
of all patients is “If you don’t take a temperature, you can’t find Malbrain in Chapter 3, “If you don’t measure IAP you cannot ACS”. In the above cited survey of intensivists, 24% of respondecould be measured clinically and utilized to guide therapy.5 Clinicpoor in identifying the presence of IAH.7 The safety, simplicity, ctance of IAP monitoring in the patient at risk for IAH and ACS caIAP monitoring does not require specialized equipment, but rat
materials that are readily available in any hospital. Educationalapplication of liberal IAP monitoring to detect the presence of IAabdominal perfusion pressure (APP) to assess the adequacy of endtation.10 Institution of routine IAP monitoring in patients at risk immediate and dramatic impact upon the detection of IAH and i i IAP i d bidi d li S h i i
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tions in IAP-associated morbidity and mortality. Such monitoring
standard practice in all intensive care units. Whereas educating clinicians on the incidence and detection orelatively easy, educating them as to the appropriate managemenand ACS, like sepsis, may present in a variety of forms depending the inciting cause of illness, and the resuscitative strategy required/ trauma patient must be recognized as frequently requiring a difrom that of a medical or pediatric patient. The efficacy of nons
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Epilogue
Technology Development As a result of the frequently insidious nature of IAH and th
physical examination in its detection, bedside monitoring technition and management of the patient with IAH and/or ACS. The ing and APP calculations has previously been emphasized. Therover the optimal technique for measuring IAP. Dr. Malbrain has
vantages and disadvantages of each methodology in Chapter 3. Mfor IAP measurement, while effective, are cobbled together from pand plastic connectors, or use devices that are intended for unrniques for IAP measurement that overcome the pitfalls of the curoped. Specifically, there is currently a great need for adoption of ainfusion volume (for intravesicular pressure monitoring) to ensuracy of the measurements obtained. Proactive development of suc
bedside physicians, in collaboration with industry, will be essentiThe trend in monitoring in recent years has been a move tow
intermittent monitoring techniques. Such is no less the case in t ACS. Methods for measuring IAP and APP continuously and usinto guide patient resuscitation have recently been reported.9,13 Aadopted for hemodynamic monitoring, continuous assessment goal-directed resuscitation based upon these parameters will no dcare over the next decade.
Monitoring of IAP and APP, while state-of-the-art at this point ACS resuscitation, will not be sufficient for the future. Each orgatial sensitivity and response to elevations in IAP. The kidneys and reductions in regional perfusion at an IAP of 10-15 mm Hg whil
ff d f h
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to retain sufficient reserve to maintain adequate perfusion at hi
organ specific monitoring techniques should be aggressively pursment of regional as opposed to global perfusion adequacy. For markers of regional resuscitation adequacy already exist. Intracraing for the brain, intramucosal pH (pHi) and gastric luminal carbfor the stomach, and indocyanine green (ICG) clearance for the liuseful markers of regional perfusion adequacy in the managementACS. Clearly, additional regional markers are needed and should
Abd 302
intended to serve as the definitive resource on IAH and ACS. Mules, lectures, case discussions, and other resources and links will
ACS education worldwide. Further, an electronic mail discussionof patient problems, questions, and ideas among experienced cliniin near real-time fashion.
The WSACS Clinical Trials Working Group (CTWG) will promscientific trials to study pertinent research questions and hypothtion of the proposed consensus definitions. The CTWG, in collaorganizations worldwide, will set the standard and lead the effortspective, multi-center clinical trials that are necessary to more fupropriate management of IAH and ACS.
Modeled on the highly successful Inaugural World Congrestional scientific symposia will be organized to promote face-to-fac
ings and the current state-of-the-art in IAH and ACS treatmenthese sessions, the consensus definitions will be reassessed and rev joint collaborative educational opportunities will be pursued wtions worldwide.
ConclusionsIAH and ACS are significant causes of organ failure, increa
creased economic productivity, and increased mortality among a lations. Considerable progress has been made in the field of IAHcade, but there is significant work yet to be done. We must studyat the same time, proactively “invent” the future. As aptly describis “…a clinical entity that had been ignored for far too long”.14 Tin our hands. It is time to pay attention.
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References1. Lyons WS. Uncontrolled resuscitation and “sepsis”. J Trauma 2002. Balogh Z, Moore FA. Intra-abdominal hypertension: Not just a su
Care Med 2005; 33:447-449.3. Malbrain MLNG, Chiumello D, Pelosi P et al. Incidence and pro
tension in a mixed population of critically ill patients: A multipCrit Care Med 2005; 33:315-322.
4 Dellinger RP Carlet JM Masur H et al Surviving sepsis campaig
Index
A
Abbreviated injury scale (AIS) 171, 224 Abdominal aortic aneurysm (AAA) 5, 14, 179,197, 210-215, 224, 226-229
Abdominal blow-out 3, 105 Abdominal girth 19, 21, 25, 189, 290 Abdominal pelvic trauma score (APTS) 224,
228
Abdominal perfusion pressure (APP) 10, 35,49, 51, 52, 62, 65, 68-70, 72-79, 101,114, 119, 122, 135, 215, 233, 236, 299,301
Abdominal trauma index (ATI) 171, 224 Abdominal wall repair 280 AbViser™ 35, 38, 59, 64
ACE inhibitors 122, 126 Acute lung injury (ALI) 10, 95, 96, 107, 108,
237 Acute pancreatitis 1, 14, 16, 197-202, 215,
233, 235 Acute Physiology and Chronic Health
B
Baby-lungs 114Bacterial transloc132, 133, 13
Bi-level positive aBIS 255Bladder PV curveBloody vicious cy
Body mass index 189-191, 19
Bogotá bag 200, 269, 288, 29
Bronchoalveolar l161
Burn 14, 16, 82-
178-181, 18233, 235, 25
Bursting pressure
C
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y gyEvaluation (APACHE) 83, 85, 120, 223
Acute renal failure (ARF) 76, 77, 120, 122,140, 141, 160
Acute respiratory distress syndrome (ARDS)29, 107-109, 114, 140, 160, 186, 226,237, 253, 259, 260, 299
Aldosterone 122, 123, 191, 193Al l d d 71 106 113
Cardiopulmonary
Catecholamine 1Central obesity 1Cerebral perfusio
140, 144-14254
Chest wall elastanCh i b l
Abdo 304
Continuous fully-automated technique 48Continuous mandatory ventilation (CMV)
112Continuous negative abdominal pressure 107,
233, 235, 240Continuous negative extra-abdominal pressure
242-245, 247, 249, 250, 252, 253Continuous positive-pressure breathing (CPPB) 113
Contractility 3, 71, 72, 89-92, 95, 98-101Critically Ill Renal Failure and Abdominal
Hyperte (CIRFAH) 76Cumulative incidence 82-87
Cytokine 107, 108, 134, 135, 157, 163, 166,284
D
Damage control surgery (DCS) 14, 16, 83,157-160, 166, 186, 200, 233, 237, 268,
284, 285, 292Decompression 4, 5, 10, 13, 72-75, 77-79,
84, 91, 96, 100, 107, 123, 125, 133, 135,138, 145-147, 153, 154, 159-161,163-165, 167, 170, 172-183, 185, 186,191, 197, 199-201, 203, 211, 212, 215,
Enterococcus 13Escharotomy 17Escherichia coli 1Etomidate 255, Expiratory positiv
113
Extravascular lun140, 249, 25Extubation 112,
F
Filtration gradien
Fistulae 278-281Fluid resuscitatio
87, 94, 105,179, 180, 18223-226, 22260, 284
Foley manometer
Frank-Starling prFree radical prod
G
Gastric pHi 9, 1
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, 7, , , , , 5,219, 220, 224, 226, 228, 229, 232-235,237, 238, 240, 245, 251, 257, 261, 262,266, 268-270, 285-287, 299
Decompressive surgery 10, 255Desflurane 256Dialysis 27, 52, 181, 183, 214, 233, 236Diaphragmatic hernia 220
p 9,Gastroesophagea
190, 193, 19Gastrointestinal dGastroschisis 4, Global ejection fGlobal end-diasto
98-101
Index
I
Iberti technique 30-32, 35, 37, 56, 57Ileus 3, 21, 76, 78, 83, 215, 233, 234, 238,
284Incidence 10, 15, 60, 77, 78, 82-87, 100,
105, 124, 125, 138, 140, 141, 158-160,162, 166, 167, 170, 184, 185, 193, 199,200, 203, 204, 210, 211, 212, 215, 218,220, 224-226, 230, 237, 238, 270, 286,289, 293, 297-300
Incisional hernia 21, 24, 74, 189, 190, 193,194, 215, 278
Independent predictor 20, 83, 159-161, 166,172-174, 298Indocyanine green clearance 112, 139Infection 5, 21, 28, 30, 32, 35, 37, 40, 43, 45,
46, 48, 53-55, 57, 108, 114, 162, 198,200, 210, 213-215, 218, 225, 232, 237,269, 273, 276, 278, 283, 289, 291, 293
Inferior vena cava pressure (IVCP) 40, 54, 55Inhalation agent 256Interleukin (IL)-1β 134, 135, 163Interleukin (IL)-8 134, 161Intermittent mandatory ventilation (IMV)
112, 113
L
Laparoscopy 4, 8122, 131, 14
Laser doppler flowLeft ventricular en
(LVEDP) 9Liver transplantat
140-142, 22Lorazepam 256Lung myeloperox
M
Major trauma ouManometry (MA
64Mathematical couMean arterial pre
92, 101, 122
145-147, 14236, 243-24
Mechanical venti105-109, 11224, 229, 25
Meconium perfo
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Intracranial pressure (ICP) 8, 20, 49, 70, 72,
121, 140, 144, 145-155, 191, 192, 219,254, 255, 257, 260, 286, 301
Intramucosal pH 46, 71, 74, 83, 112, 131,167, 301see also pHi
Intrarectal pressure (IRP) 57-60Intrathoracic blood volume (ITBV) 79 245
Melatonin 164,
Mesh closure 82Metoclopromide Microchip TransdMidazolam 255, Mitral valve regurMitral valve stenoMonro Kellie doc
Abdo 306
N
Necrosectomy 197-200Necrotizing enterocolitis 218, 220Negative extra-abdominal pressure (NEXAP)
240-253Negative pressure therapy (NPT) 291-293Neostigmine 233, 235Neuromuscular blockade (NMB) 106, 223,
228, 233, 237, 258Nondepolarizing muscle relaxants 258
O
Obesity hypoventilation syndrome (OHS)190, 192, 194
Octreotide 164, 165, 233, 235Ogilvie’s syndrome 235Oliguria 13, 20, 71, 73, 139, 178, 180, 212,
218, 219, 236, 271, 286
Omphalocele 3, 4, 217, 218, 220, 278Open abdomen 20, 79, 155, 177, 200, 203,
210, 211, 213-215, 220, 225, 230, 237,266, 268-272, 276-294
Organ dysfunction 6, 9, 10, 13, 15, 20, 28,69, 73, 89, 90, 98, 100, 101, 105, 129,
pHi 9, 13, 46, 7167, 301see also Intra
Pinch test 280, 2Pneumoperitone
132, 139, 14Polymorphonucl
135, 162, 17PolytetraflouroetPositive end-expi
29, 55, 64, 7107-109, 11219, 224, 22
262Positive pressure 112, 141, 17
Postshock systemPrediction 10, 1Preload 89-101,
160, 175, 24
Pressure support Pressure-regulate
110Prevalence 12, 1
124-126, 15Prevalence rate 8
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134, 139, 142, 158, 160, 172, 187, 194,
198-200, 210, 224, 225, 236, 255, 268,269, 282, 283, 286, 287, 297, 299
Organ perfusion 69, 70, 74, 77-79, 89, 90,94, 99, 112, 142, 167, 260, 285, 299
Orthotopic liver transplantation (OLT) 120,139-141
O d b 111
Prevention 2, 8,
226, 228-23280, 285, 28
Production 71, 1284
Prokinetic agentsPropofol 149, 25
Index
R
Rapid oscillation test 28, 47Receiver operator characteristic (ROC) curves
10, 73, 75, 76, 139Recombinant activated factor VII (rFVIIa)
235Rectal pressure 19, 50, 54, 55Renal allograft compartment syndrome
(RACS) 203-205, 208, 215Renal decapsulation 123Renal filtration gradient 71Renal parenchymal pressure 122-124
Renal perfusion pressure (RPP) 71, 122, 123Reperfusion injury 133, 165, 235, 260, 271Revised closed system repeated measurement
technique 33, 35Revised semi-continuous technique 46, 48Right ventricular end-diastolic volume index
(RVEDVI) 79, 95-101
Risk factor 20, 27, 120, 125, 126, 139, 158,172, 174, 176, 186, 194, 201, 212, 224,284, 285
S
S l i i l 158 159
Superior vena cavSurfactant 107, 1Surveillance 175Synchronized int
ventilation (Systemic inflamm
(SIRS) 8, 70Systemic vascular
92, 119, 122
T
Tardus-parvus wa
Temporary abdom73, 77, 79, 8226-230, 23272, 273, 28
Thiopenthal 255Tissue hydroxyprTissue oxygen par
Tonometer 45-48Total intravenousTowel clip closureTransitional closuTranspulmonary Tube 2, 40, 41, 4
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Salt water vicious cycle 158, 159
Sellick’s maneuver 258Semi-Continuous Technique with a Tonometer
45Sepsis 9, 14, 16, 21, 28, 30, 35, 57, 71, 76,
83, 89, 105, 108, 119, 125-127, 135,141, 158, 179, 180, 184, 198, 213, 229,232 233 237 259 260 283 285 287
233-235, 25
294Tumor necrosis fa
163, 165, 28
U
U b h i
Abdo 308
Ventilation perfusion (V/Q) mismatch 106,111
Ventilation perfusion mismatch 140Ventricular function curve 99Ventricular interdependence 92Verres needle 26, 63Volume-assured pressure-support (VAPS) 110Volvulus 220
W
WCACS 105 Weaning 109, 1 West’s lung zone World Congress
Syndrome 1 World Society on
Syndrome (W WSACS Clinical
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MEDICAL INTELL IGENCE UNIT
AbdominalCompartment
Syndrome
IVATURY•CHE
ATHAM
MALBRAIN•SUGRUE
MIU
INTELLIGENCE UNITS
Biotechnology Intelligence Unit
Medical Intelligence Unit
Molecular Biology Intelligence Unit
Neuroscience Intelligence Unit
Tissue Engineering Intelligence Unit
The chapters in this book, as well as the chaptersof all of the five Intelligence Unit series,
are available at our website.
Landes Bioscience, a bioscience publisher,is making a transition to the internet as
Eurekah.com.
ISBN 1-58706-196-1
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