early mobility in the icu peter hurh, md assistant professor university of pittsburgh medical center...
TRANSCRIPT
Early Mobility in the ICU
Peter Hurh, MDAssistant Professor
University of Pittsburgh Medical CenterMedical Director
UPMC Rehabilitation Institute at East
I have no conflicts of interest to report.
I do not endorse any products that may be pictured in any photos.
Objectives• Understand the complications secondary to
immobility in the ICU.• Understand short-term and long-term effects
of critical illness and immobility.• Understand that therapy in the ICU is safe,
feasible, and effective.
Metabolic
Cardiovascular
Pulmonary
Gastrointestinal
GenitourinaryMusculoskeletal
Renal
Dermatological
Psychological
Cardiovascular
Pulmonary
Gastrointestinal
Genitourinary
Musculoskeletal
Dermatological
• Decreased cardiopulmonary function• Decreased cardiac output• Reduced venous return• Decreased stroke volume• Postural hypotension
Psychological
Metabolic
Adverse Effects of Immobility
Kortebein, Am J Phys Med Rehabil, 2009
Cardiovascular
Pulmonary
Gastrointestinal
Genitourinary
Musculoskeletal
Dermatological
• Atelectasis• Hypostatic pneumonia• Intubation• Tracheostomy
Psychological
Metabolic
Adverse Effects of Immobility
Kortebein, Am J Phys Med Rehabil, 2009
Cardiovascular
Pulmonary
Gastrointestinal
Genitourinary
Musculoskeletal
Dermatological
• Decreased appetite/ poor nutrition• Constipation• PEG tube• Rectal trumpet
Psychological
Metabolic
Adverse Effects of Immobility
Kortebein, Am J Phys Med Rehabil, 2009
Cardiovascular
Pulmonary
Gastrointestinal
Genitourinary
Musculoskeletal
Dermatological
• Urinary stasis• Stone formation• Infection• Foley catheter
Psychological
Metabolic
Adverse Effects of Immobility
Kortebein, Am J Phys Med Rehabil, 2009
Cardiovascular
Pulmonary
Gastrointestinal
Genitourinary
Musculoskeletal
Dermatological
• Disuse muscle atrophy• Joint contractures• Heterotopic ossification• Decreased strength and endurance• Impaired balance
Psychological
Metabolic
Adverse Effects of Immobility
Kortebein, Am J Phys Med Rehabil, 2009
Cardiovascular
Pulmonary
Gastrointestinal
Genitourinary
Musculoskeletal
Dermatological
• Pressure ulcers• Infection• Pain
Psychological
Metabolic
Adverse Effects of Immobility
Kortebein, Am J Phys Med Rehabil, 2009
Cardiovascular
Pulmonary
Gastrointestinal
Genitourinary
Musculoskeletal
Dermatological
• Sensory deprivation• Disorientation and confusion• Depression and anxiety• Delirium
Psychological
Metabolic
Adverse Effects of Immobility
Kortebein, Am J Phys Med Rehabil, 2009
Cardiovascular
Pulmonary
Gastrointestinal
Genitourinary
Musculoskeletal
Dermatological
• Insulin resistance• Decreased muscle protein synthesis• Myosin changes from slow to fast twitch fibers• Change from fatty acid to less efficient glucose metabolism
Psychological
Metabolic
Adverse Effects of Immobility
Kortebein, Am J Phys Med Rehabil, 2009
ICU-Acquired Weakness
• Critical Illness Polyneuropathy– Clinical findings
• Distal sensory and motor deficits, i.e. foot drop• Normal deep tendon reflexes
– Electrodiagnostic findings• Symmetric, sensorimotor, axonal polyneuropathy• Decreased SNAP and CMAP amplitudes• Reduced motor recruitment
Korupolu, Contemporary Critical Care, 2009Hough, Clin Chest Med, 2006Kress, N Engl J Med, 2014
ICU-Acquired Weakness
• Critical Illness Myopathy– Clinical findings
• Proximal muscle weakness without sensory deficits• Decreased deep tendon reflexes
– Electrodiagnostic findings• Preserved SNAP amplitudes; decreased CMAP
amplitudes; increased CMAP duration• Small and short motor unit action potentials
Korupolu, Contemporary Critical Care, 2009Hough, Clin Chest Med, 2006Kress, N Engl J Med, 2014
ICU-Acquired Weakness
• Critical Illness Polyneuropathy and Myopathy– Acquired neuromuscular disorder– Difficult to differentiate in the ICU due to factors
such as sedation and patient cooperation– Coexist in critically ill patients
ICU-Acquired Cognitive Impairment
• Wilcox, Crit Care Med, 2013– Survivors of ARDS– 11 studies, n = 487– At discharge: 70-100% of patients with
cognitive impairments• Most common deficits: attention,
concentration, memory, executive function
– 1 year follow up: 46-78%– 2 year follow up: 25-47%
• Wilcox, Crit Care Med, 2013 (con’t)– Mixed populations of medical and surgical ICU patients– At discharge: 39-51% with cognitive impairments– 3-6 month follow up: 13-79%– 12 month follow up: 10-71%
ICU-Acquired Cognitive Impairment
“As the population ages and mortality from critical illness declines, the number of ICU survivors is growing.”
Needham, Arch Phys Med Rehabil, 2010
Herridge Trials
Herridge, N Engl J Med, 2003
• Evaluated 109 survivors of ARDS• 3, 6, and 12 months post-discharge from ICU• Median age: 45 years• Median duration of ICU admission: 25 days• Physical exam, pulmonary function testing, six-
minute walk test, quality-of-life evaluation– QOL measures: physical functioning, social functioning, physical role,
emotional role, mental health, pain, vitality, general health
Herridge, N Engl J Med, 2003
• Global assessment– At discharge, patients lost average of 18% of body weight– All patients reported poor function due to loss of muscle bulk,
proximal muscle weakness, and fatigue
– 12% had persistent pain at chest tube insertion sites at 1 year– 7% had entrapment neuropathies– 5% had large joint immobility due to heterotopic ossification– 4% had contractured fingers or frozen shoulders
Herridge, N Engl J Med, 2003
Herridge, N Engl J Med, 2003
Herridge, N Engl J Med, 2003
• Discussion– Persistent functional limitation at one year mainly due to
muscle wasting and weakness• Multifactorial including corticosteroid-induced and critical-illness-
associated myopathy
– Six-minute walk test and quality-of-life assessments are correlated
• Impaired muscle function -> compromised functional ability -> compromised quality of life
• Findings consistent with previous published reports
Herridge, N Engl J Med, 2003
• Conclusion“…survivors of the acute respiratory distress syndrome
continue to have functional limitations one year after their discharge from the ICU.”
“…still do not know how long it takes for these patients to recover fully from their critical illness or whether complete recovery is possible in every case.”
Herridge, N Engl J Med, 2011
• Continued follow up of same patients at 2, 3, 4, and 5 years after discharge from ICU
Herridge, N Engl J Med, 2011
Herridge, N Engl J Med, 2011
Herridge, N Engl J Med, 2011
Herridge, N Engl J Med, 2011
Herridge, N Engl J Med, 2011
• Conclusions– Persistent exercise limitations and reduced physical quality
of life 5 years after critical illness– Quality of life and exercise capacity may have resulted
from combination of persistent weakness, and other physical and neuropsychological impairments
• Depression, anxiety, PTSD, agitation, family/caregiver mental health problems, social isolation, sexual dysfunction, job loss, dispute with insurance claims
“When we started our ICU in 1964, patients who required mechanical ventilation were awake and alert and often sitting in a chair…”
“…what I see these days are paralyzed, sedated patients, lying without motion, appearing to be dead, except for the monitors that tell me otherwise.”
Petty T. Chest. 1998; 114(2): 361-363
Safety and Feasibility
Bailey, Crit Care Med, 2007
• 103 mechanically ventilated patients >4 days
• 1,449 activity events– Sit on edge of bed, sit in
chair, ambulation
• Adverse events• Fall to knees, tube removal,
systolic blood pressure >200mmHg or <90 mmHg, O2 sat <80%, extubation
Bailey, Crit Care Med, 2007• Total of 14 adverse events in 1449 activity events (0.96%)
– Fall to knees, orthostatic hypotension, O2 desaturation, nasal feeding tube removal, hypertension
– No adverse event resulted in extubation, complications requiring additional intervention, additional cost, longer hospital stay
Morris, Crit Care Med, 2008
• 280 mechanically ventilated patients– 135 patients in control group,
145 patients in protocol– Protocol initiated within 48
hours of mechanical ventilation– Activity ranged from PROM,
AAROM, AROM, sit edge of bed, transfers, standing, ambulation
Morris, Crit Care Med, 2008• No adverse events
– Deaths, near-deaths, cardiopulmonary resuscitation, removal of device– No difference in numbers of arterial catheters, venous devices, need for re-
intubation between control and protocol groups
Pohlman, Crit Care Med, 2010• 49 mechanically ventilated patients
– 498 activity sessions– Time from intubation to initial therapy = 1.5 days
• Adverse events in 16% of all sessions (80/498)– Desaturation (6%), tachycardia (4.2%), tachypnea (4%),
agitation/ discomfort (2%), device removal (0.8%)– No serious consequences noted for any adverse event
Conclusion• Immobility and critical illness can affect every
organ system, leading to significant functional impairments.
• These impairments, both physical and psychological, can be long lasting.
• Early intervention in the ICU is safe and feasible, and may prove to prevent the risk of ICU-acquired impairments and disabilities.
Thank You