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UOC Cardiochirurgia Pediatrica e Cardiopatie CongeniteUniversità degli Studi di Padova
INCONTRO CON LA CARDIOCHIRURGIA PEDIATRICA DI PADOVA:
STORIE DA RACCONTARE E DA CONOSCERE
Introduzione storica: la Cardiochirurgia di Padova
Prof. Giovanni Stellin
University of Padua - “Il Bo”University of Padua - “Il Bo”
“Il Bo” - The Hall of the Forty and the Galileo Galilei’s podium“Il Bo” - The Hall of the Forty and the Galileo Galilei’s podium
The tower of the
Astronomical Observatory
“La Specola”
The tower of the
Astronomical Observatory
“La Specola”
“Il Bo”
The Anatomy Theatre of
Girolamo Fabrici d’Acquapedente
“Il Bo”
The Anatomy Theatre of
Girolamo Fabrici d’Acquapedente
Portrait of
William Harvey
Portrait of
William Harvey
“Exercitazio Anatomico de Motus
Cordis et Sanguinis in Animalibus”
Carlo A. Carlon MDThe Journal of International College of
SurgeonsJuly. 1951
Pier Giuseppe Cevese and his pupils
November 14, 1985:Vincenzo Gallucci performs the first cardiac
transplant in Italy
Aldo R. Castaneda
William I. Norwood
Richard and Stella Van Praagh
Milestones in the History of Cardiac Surgery of
Congenital Heart Disease at the University of Padua
January 1964 Closure of Interatrial Defect
December 1968 Correction of Tetralogy of Fallot
November 1985 Heart transplant in Italy
September 1988 First Norwood operation in Europe
May 1989 First neonatal Htx in Italy
UOC Cardiochirurgia Pediatrica e Cardiopatie CongeniteUniversità degli Studi di Padova
INCONTRO CON LA CARDIOCHIRURGIA PEDIATRICA DI PADOVA:
STORIE DA RACCONTARE E DA CONOSCERE
Presentazione attività UOC Cardiochirurgia Pediatrica e Cardiopatie Congenite
Correzione chirurgica precoce delle cardiopatie congenite (CAVC, TGA, TOF)
Prof. Giovanni Stellin
Il Centro Cardiopatie Congenite e Pediatriche di Padova
è il Centro di Riferimento Regionale per il trattamento
di pazienti affetti da cardiopatie congenite
LA NOSTRA ATTIVITA’
correzione chirurgica di TUTTE LE CARDIOPATIE
CONGENITE (presenti alla nascita) nel bambino e
nell’adulto con prevalenza di interventi in età
neonatale o nei primi mesi di vita (correzione precoce).
I NOSTRI RISULTATI
circa 300 procedure all’anno
Negli ultimi anni il rischio chirurgico è sceso per
assestarsi attorno al 3% con risultati paragonabili ai
migliori centri in Europa e del Nord America.
ECCELLENZE
• Correzione chirurgica precoce delle cardiopatie
congenite
• Chirurgia Mini-invasiva
• Il Cardiopatico congenito adulto (ACHD)
• Progetto Europei ARISE ed ESPOIR
• Correzione del vizio anatomico
• Eliminazione del sovraccarico cronico e/o
della cianosi cronica
• Preserva il cuore ed altri organi ed
apparati
• Garantisce il miglior risultato funzionale a
lungo termine
Vantaggi
La correzione precoce
Myocardial potential
Prenatal Diagnosis and surgical outcome: a teamwork
Mechanism of myocardial cell
hyperplasia, together with
myocites hypertrophy which
is retained for a few weeks
after birth, it is well
recognised .
Team-work
Prenatal Diagnosis and surgical outcome: a teamwork
CHDs heterogeneous and often complex
Team-work of experts is needed with the aim of :
�Best medical and surgical planning
�Best counseling with the parents
Team-work
Prenatal Diagnosis and surgical outcome: a teamwork
DIAGNOSIS (or
suspected)Pediatric Cardiologist
Couseling
Pediatric Cardiac Surgeon
Third level center Therapeutic Plan
Clinical history
•Circa il 12% delle cardiopatie congenite diagnosticate alla nascita
•Aorta nasce da VDx e arteria polmonare da VSx.
•Raramente anomalie extracardiache associate
•Alla nascita, cianosi ingravescente, polipnea, scompenso cardiaco
TRASPOSIZIONE DELLE GRANDI ARTERIE±±±±DIV
•Circa il 12% delle cardiopatie congenite diagnosticate alla nascita
•Aorta nasce da VDx e arteria polmonare da VSx.
•Raramente anomalie extracardiache associate
•Alla nascita, cianosi ingravescente, polipnea, scompenso cardiaco
TRASPOSIZIONE DELLE GRANDI ARTERIE±±±±DIV
•Circolazione sistemica e polmonare non in serie ma in parallelo
•Sopravvivenza assicurata dal “mixing” a livello atriale, ventricolare e duttale
TRASPOSIZIONE DELLE GRANDI ARTERIE±±±±DIV
Diagnosi• La DIAGNOSI è spesso prenatale
� TGA nascita in elezione presso centri 3 °livello
1) Ipossia e acidosi: entro 24 ore ( chiusura del PDA) infusione PGE1
2) Segni si scompenso cardiaco (epatomegalia, polipnea) se è
presente un VSD
3) Diagnosi ecocardiografica accurata e programmazione correzione
Primi trattamenti
• Infusione di PGE1 per far riaprire il dotto arterioso se è presente cianosi
• Atriosettostomia sec. Rashkind: procedura ecoguidata, si introduce un catetere con pallone in vena femorale e da qui lo si spinge attravero la vena cava inferiore in atrio destro. Si fa passare in catetere attraverso il forame ovale in atrio sinistro. Si gonfia il pallone e si tira con forza per lacerare la valvola del forame ovale in modo da aumentare il mixing intracardiaco.
• Terapia medica antiscompenso fino all’intervento.
Correzione chirurgica
Indicazioni all’intervento:
CORREZIONE PRIMARIA NELLE PRIME 2 SETTIMANE DI VITA
� Correzione precoce: il ventricolo sinistro perde la sua ipertrofia contro le
basse resistenze polmonari.
� Non più in grado di sostenere acutamente le resistenze sistemiche post intervento correttivo.
•Utile la diagnosi prenatale
•Alla nascita, PGE1 ed eventualmente Rashkind
•Intervento chirurgico (Arterial Switch) deve essere effettuato nelle prime settimane di vita
•Ottimi risultati chirurgici nel breve e lungo termine
TRASPOSIZIONE DELLE GRANDI ARTERIE±±±±DIV
•Periodo: 1990-2017
•N=260 pazienti
•Simple DTGA IVS: 177
•Complex DTGA: 83
•Età correzione: 8 giorni (IQR 6-12 giorni)
•Mortalità ospedaliera: 5.8 %
•Simple DTGA: 3.4 %
•Complex DTGA: 11%
•Mortalità tardiva: 2 (0.8%)(complex DTGA)
•Reinterventi tardivi: 6.9%
•Procedure emodinamiche al follow-up: 9.8%
Risultati
Associated CHDs in complex D-TGA
VSD* 79 (95%)
LVOTO* 10 (12%)
Aortic Coarctation* 10
(12%)
Other less common CHDs* ǂ 16 (19%)
University of Padua Medical SchoolPediatric and Congenital Cardiac Surgery Unit
Tetralogia di Fallot
Descritta per la prima volta nel 1888 da Etienne-Louis Arthur Fallot.
Viene chiamata anche
Morbo blu o Maladie bleu.
Fisopatologia
La cianosi è dovuta allo shunt destro-sinistro.
L’entità dello shunt destro-sinistro è determinata dal grado di stenosi del RVOT e dalle resistenze vascolari sistemiche.
LVRV
AO
Anatomy
Surgical history of repair (University of Padua)Evolution of our surgical policy
• Since 80’s: “Classic” transventricular
repair in infants
• Since 1991: Early transatrial one-stage
repair (6-3 months of age)
• Since 2007: Further evolution: PV
preservation
Correzione chirurgica
Indicazioni all’intervento:
Timing chirurgico:
a) Pazienti sintomatici (neonati cianotici, crisi ipossiche) � correzione immediata
b) Pazienti asintomatici � correzione elettiva nei primi 3 mesi di vita
Surgical repair: timing
The timing for complete repair is still controversial and varies from center to
center.
World-wide trend favors early repair (3-6 months of life), just as for many other
complex CHDs.
Complete early repair has been advocated to avoid:
- Abolish chronic cyanosis and spells
- Systemic-to-pulmonary artery shunts and their consequences
- Chronic RV pressure overload and myocardial compensatory hypertrophy
(which requires a more extensive resection, at the time of the repair)
- Hospital costs and offering patients one instead of two operations.
Trans-atrial approach
Our standard institutional policy for TOF repair in early infancy since June 1991
(usually in patients ≤3 months of life) includes:
1) trans-atrial/trans-pulmonary approach to the pulmonary outflow tract
2) incision of the PV annulus with minimal right ventriculotomy (3-5 mm), when
necessary
3)trans-atrial closure of the ventricular septal defect using an autologous
pericardial patch
Trans-atrial approach
We have demonstrated a trend towards a reduced RV volume and a better
ejection fraction in the long term after transatrial repair, when compared to a
classic transventricular repair.
Minimizing or eliminating a right ventriculotomy may also reduce the substrate
for ventricular arrhythmias arising from incisions in the right ventricle.
Stellin G, Milanesi O, Rubino M, Michielon G, Bianco R, Moreolo GS, Boneva R, Sorbara C, Casarotto D. Repair of tetralogy of Fallot in the first six months of life: transatrial versus transventricular approach. Ann Thorac Surg. 1995 Dec;60(6 Suppl):S588-91.
Transannular patch
• Despite the awareness of late consequences of
pulmonary valve regurgitation, TAP remains the
most prevalent technique for repairing TOF.
Leading inevitably to chronic PR
Monocusp for RVOT reconstruction
Monocusp reconstruction of the RVOT by using either pulmonary
homografts (less frequently prosthetic material)
This can avoid immediate PVR, improving the short-term clinical
outcome.
Nonetheless, when a cusp needs to be added, leaflets function
often deteriorate over time, resulting in a progressive PV
regurgitation.
PV preservation techniques
Since 2007
Transatrial / transpulmonary approach
+
PV balloon dilation (trans-atrial)
+/- valve resuspension
Vida VL, Padalino MA, Maschietto N, Biffanti R, Anderson RH, Milanesi O, Stellin G.The balloon dilation of the pulmonary valve during early repair of Tetralogy of Fallot.Catheter Cardiovasc Interv. 2012 Nov 15;80(6):915-21.
Initial indication PV Z-score ≥≥≥≥ -3
PV preservation techniques
Data at follow-up
• 58 pts (96%) at follow-up
• Medianfollow-up time of 3.5 yrs (IQR 1.6-5.2 yrs)
• Only 1 late reoperations for RVOT early in our experience
• Themedian RVOT gradient: 20 mmHg (IQR 15-25 mmHg)
• The degree of PV regurgitation (total at follow-up)
None/mild in 42 pts (75%)
Moderate in 14 pts (25%)
We believe that the preservation of the PV
function during early repair of TOF, by
combining different intra-operative surgical
maneuvers, can be extended to almost all
patients with classic TOF
Conclusions
Conclusions
• Our results show that this new surgical technique:
• 1) can reduce early and mid-term post-operative
pulmonary regurgitation
• 2) improving RV function
• By preserving PVfunction during early TOF repair we
should contribute toameliorate the long-term follow-up,
possibly decreasing the number of future re-interventions on
the RVOT.
• A longer follow-up and a larger case-series are needed.
Conclusions
Anatomical Theatre – Palazzo Bo - Padova Galileo Galilei’s chair– Palazzo Bo - Padova
Forma parziale
Forma completa
Difetti del setto atrioventricolare (Canale A-V)
Canale atrio-ventricolare completo
Canale atrio-ventricolare completo
Segni di iperafflusso polmonare
RX torace
Anomalie associate
� Sindrome di Down (70%)
� Tetralogia of Fallot
� Ventricolo destro a doppia entrata e trasposizioni delle grandi arterie
� Ostruzione del tratto d’efflusso del ventricolo sinistro
� DIV multipli
� Valvola Mitrale a doppio orifizio
� Muscolo papillare singolo
Canale atrio-ventricolare completo
Approccio chirurgico
� Correzione elettiva entro 2-3 mesi di vita
� PA banding in rari casi con controindicazione BPCPT
�
� Diagnosi ecocardiografica esaustiva
Canale atrio-ventricolare completo
Canale atrio-ventricolare completo
Correzione chirurgica
•Periodo: 1992-2014 (22 anni)
•N=159 pazienti con CAVC
•133 CAVC
•21 CAVC forma transizionale
•Età correzione: 96 giorni (IQR 73-128 giorni)
•Mortalità ospedaliera: 1.9%
•CAVC: 2.3 %
•CAVC forma transizionale: 0%
•Mortalità tardiva: 7.7%
•Reinterventi sulla valvola AV sx: 10%
Risultati
U.O.A. Cardiochirurgia Pediatrica, Università degli Studi di Padova
1950 The surgery of TGAcommenced in 1950 when AlfredBlalock and Rollins Hanlon described a closed method of atrialseptectomy at the Johns Hopkins Hospital.
Blalock A, Hanlon CR:The surgical treatment of completetransposition of the aorta and the pulmonaryartery.Surg Gynaecol Obstet 1950, 90: 1
Transposition of the great arteries: history
First palliative procedure thatpermitted survival of children withTGA.
Surgical atrial septectomy
Although the Blalock-Hanlonoperation and its modificationswere eventually superseded byRashkind’s technique of enlargingthe foramen ovale with a ballooncatheter, they produced goodintermediate-term palliation andwere applied in some institutionsfor decades after their firstdescription.
Transposition of the great arteries: historySurgical atrial septectomy
In the 50’s : Early arterial switch attempts and techniques of venous return transfer:
The initial attempts were all universally fatal.
1952: Mustard (Hospital for Sick Children, Toronto): several attempts in infancyby transferring the LCA into the neoaorta, in isolation, using a monkey lung as abiological oxygenator.
Mustard WT et AlThe surgical approach to transposition of the great vessels with extracorporeal circuit.Surgery 1954;36:39–51.
Transposition of the great arteries: historyEarly arterial switch attempts
In the 50’s: Early arterial switch attempts and techniques of venous return transfer:
The initial attempts were all universally fatal.
1955: Ake Senning (Karolinska Institutet, Sweden): after several attemptsconcluded that the obstacle to the anatomical correction→transfer of the coronaryarteries
Senning A.Surgical correction of transposition of the great vessels.Surgery 1959;45:966–80.
Transposition of the great arteries: historyEarly arterial switch attempts
1953: Walton Lillehei and Richard Varco described the first attempt of aphysiological repair, consisting of the anastomosis of right pulmonary veins toRA and the IVC to LA, a technique that became known as the Baffes’operation (without CPBP, 38 pts, 19 survivers).
Lillehei CW, Varco RL:Certain physiologic, pathologic, and surgicalfeatures of complete transposition of the greatarteriesSurgery 1953, 34: 376
Baffes TG:New method for surgical correction oftransposition of aorta and pulmonary artery.Surg. Gynec & Obst, 1956, 102: 227
Transposition of the great arteries: historyEarly atrial switch attempts
1954 Harold M. Albert (Children's Memorial Hospital Chicag o): flap ofthe atrial septum for systemic and pulmonary venous flow redirection in dogs.
Albert HM .Surgical correction of transposition of thegreat vessels.Surg Forum 1954;5:74–7
Transposition of the great arteries: historyEarly atrial switch attempts
1957 Alvin Merendino (University of Washington in Seattle):first attempted to clinically apply a modified Albert’s technique.
Merendino used apremodeled atrial septal prosthesis.(2 Attempts; both patients died)
Meredino KA et AlInteratrial venous transposition.Surgery 1957;42:898–909.
Transposition of the great arteries: historyEarly atrial switch attempts
1957, Ake Senning (Karolinska Hospital): using flaps ofautogenous atrial tissue.
Senning A.Surgical correction of transposition of thegreat vessels.Surgery 1959;45:966–80.
Transposition of the great arteries: history
First successful atrial switch.
Atrial switch
1961 John W. Kirklin used the Senningoperation at the Mayo Clinic and by 1961 hadoperated on 11 infants, with 4 survivors.
Arterial and atrial switch
Kirklin JWOpen intracardiac repair of transposition of thegreat vessels.Surgery 1961;50: 58–66.
Transposition of the great arteries: history
1963, Bill Mustard (Hospital for Sick Children, Toronto)atrial switch using an autologous pericardial baffle upon an 18-month-old girl who had previously undergone a Blalock-Hanlonoperation.
Mustard WT.Successful two-stage correction of thetransposition of the great vessels.Surgery 1964;55:469–72
Transposition of the great arteries: historyAtrial switch
First successful atrial switch using apantaloon patch .
In the ’60s the Senning operation waslargely abandoned to favor a lesscomplicated Mustard operation.For the next decade, the Mustard operationwas universally employed.
In the middle 70’s the Senning operationwas eventually revived for the potentialadvantage of avoiding prosthetic baffles,especially in small children.
Quaegebeur JM, Rohmer J, Brom AG.Revival of the Senning operation in thetreatment of transposition of the greatarteries.Thorax 1977;32:517–24.
Transposition of the great arteries: historyAtrial switch
1966: Rashkind and Miller in Philadelphia performed the first balloon atrialseptectomy
1975: Parkmodified this procedure introducing a blade catheter.
A revolution in palliation
• Rashkind WJ, Miller WW .Creation of an atrial septal defect withoutthoracotomy. A Palliative Approach toComplete Transposition of the Great Arteries.JAMA. 1966
• Park SC.A new atrial septostomy technique.Cath Cardiovasc Diagn 1: 195, 1975
Transposition of the great arteries: history
1976, Adib Jatene (Hospital das Clínicas, São Paulo):firstsuccesfull arterial switch in patient with a VSD.
Jatene ADAnatomic correction of transposition of the great vessels.J Thorac Cardiovasc Surg. 1976 Sep;72(3):364-70.
Transposition of the great arteries: history
At that time, switch operation was performedin the presence only either of a VSD orsubpolmonary obstruction
Arterial switch
Jatene AD, Paulista et AlSuccessful anatomic correction of TGA: a preliminary report.Arq Bras Cardiol. 1975
In the ‘70s: high early operative mortality for switch due todifficulties in transferring coronary arteries. Alternativetechniques avoiding the transfer of the coronary arterieswere developed By:
Transposition of the great arteries: historyArterial switch
•1978 Aubert JTransposition of the great arteries. Newtechnique for anatomical correction.Br Heart J. 1978 Feb;40(2):204-8.
• 1980 Bex JP, Lecompte Y.Anatomical correction of transposition of thegreat arteries.Ann Thorac Surg. 1980 Jan;29(1):86-8.
• 1975 Stansel HC Jr.A new operation for d-loop transposition of thegreat vessels.Ann Thorac Surg. 1975 May;19(5):565-7.
1981, Lecompte :important technical modification avoiding aan RV-PA conduit.
Transposition of the great arteries: historyArterial switch
Lecompte Y, et AlAnatomic correction of transposition of the great arteries.J Thorac Cardiovasc Surg. 1981 Oct;82(4):629-31.
Castaneda AR, Norwood WI, Jonas RA,Colon SD, Sanders SP, Lang P.Transposition of the great arteries andintact ventricular septum: anatomical repairin the neonate.Ann Thorac Surg. 1984 Nov;38(5):438-43.
Transposition of the great arteries: historyArterial switch
1984, Aldo Castaneda (Boston Children’s Hospital) and PaulEbert demonstrated the feasibility of switch operation for d-TGA and IVS provided it was performed within the first 3-4weeks of life.
Yacoub MHTwo-stage operation for anatomical correction oftransposition of the great arteries with intactinterventricular septum.Lancet. 1977 Jun 18;1(8025):1275-8
Transposition of the great arteries: historyArterial switch
1977, Yacoub et Al introduced the two-stage approach bybanding the MPA(with or without systemic-pulmonary arteryshunt) to stimulate the development of left ventricle mass,followed by arterial switch a fewmonths later.
The majority of patients with TGA have an intact ventricularseptum and no pulmonary stenosis.
Jonas RA, Giglia TM, Sanders SP, Wernovsky G,Nadal-Ginard B, Mayer JE Jr, Castaneda AR.Rapid, two-stage arterial switch for transposition ofthe great arteries and intact ventricular septum beyondthe neonatal period.Circulation. 1989 Sep;80(3 Pt 1):I203-8
Transposition of the great arteries: historyArterial switch
1988, the Boston Children’s Hospitalintroduced the concept ofa “two-stage arterial switch operation with IVS (PAbanding + B-T shunt)” limiting the interval between the first and secondoperation to an average of 7 days.
1974 Vincenzo Gallucciperformed the first Mustard operation.
Transposition of the great arteries: historyHistory of the University of Padua
In late ’70s Mustard operation wasabandoned to favor the Senning operationwith excellent outcome (Prof. V. Gallucci;Prof. A. Mazzucco).
In early ’80s Padua was pioneering thearterial switch operation in Italy to becomethe preferred operation in the presence ofnormal coronary arteries anatomy.
1993: The first successful arterial switch operationfor d-TGA and intramural coronary arteries.
Since 1991, over 340 arterial switch operation havebeen performed in our institution with a more recentoperative mortality of 2% and excellent long termresults.
Transposition of the great arteries: historyHistory of the University of Padua
Transposition of the great arteries: historyArterial switch
1984, Aldo Castaneda (Boston Children’s Hospital) and PaulEbert demonstrated the feasibility of switch operation for d-TGA and IVS provided it was performed within the first 3-4weeks of life.
Diagnosi
Radiografia del Torace
• Cuore a scarpa (coeur en sabot)
• Riduzione della trama vascolare polmonare
• Elective early repair within the first 3 months ofage (in asymptomatic infants)
• Earlier repair when symptoms• No B-T shunt (except for LBW, associated
morbidities) (3 B-T shunts since 2000)• Cyanotic crises are controlled withβ blocker• No RVOT stenting
• PGE at birth;neonatal repair
• PDA stenting (since 2011);early repair
Current criteria for ToF approachCurrent protocol of treatment
«Classic» ToF
ToF + PV atresia(no MAPCAs)
Quadro clinicoI quadri clinici dipendono dal grado di stenosi del RVOT
Fallot rosa
Fallot bluStenosi severa
Stenosi moderata
Stenosi lieve
Cianosi neonatale
Crisi ipossiche
No crisi ipossiche, lieve cianosi
Età di presentazione
1°°°° sett di vita
Dopo i 3 mesi di vita
Canale atrio-ventricolare completo
•Difetto del setto atrioventricolare
1. DIA tipo Ostium Primum
2. DIV tipo inlet
3. Valvola AV comune
Anomalie associate
1. Difetto interatriale e/o forame ovale pervio (DIA)
2. Dotto arterioso pervio (PDA)
3. Origine anomala delle coronarie
4. Difetto del setto interventricolare (VSD)
5. Stenosi della valvola polmonare
Diagnosi
Ecocardiogramma
Permette il corretto inquadramento anatomico visualizzando
• Sbandamento anteriore del setto infundibulare
• Presenza del VSD
• Entità della stenosi del RVOT
- stenosi della valvola polmonare,
- valvola polmonare bicuspide, displasica, atresica o aplasica
- ipoplasia dell’annulus polmonare
- stenosi dinamiche di tipo muscolare
• Grado di ipertrofia ventricolare destro
• Dimensioni delle arterie polmonari
• Anomalie associate