- © 2008 Canadian Medical Association
In this issue of CMAJ, Clavet and colleagues present a comprehensive evaluation of the prevalence and risk factors for joint contractures in a large cohort of patients with critical illness.1 The title of my commentary may seem improbable, yet the article by Clavet and investigators highlights an important and previously under-recognized consequence of immobility caused by prolonged critical illness. Joint contractures and their contribution to long-term functional disability represent a small part of the problem as we continue to document the varied and often staggering morbidities associated prolonged severe critical illness.
Clavet and colleagues showed that more than one-third of patients with a prolonged stay of 2 or more weeks in an intensive care unit (ICU) each had at least 2 functionally significant joint contractures. Furthermore, at the time of hospital discharge, 1 in 4 patients had contractures that were still present and disrupted their daily activities. The major risk factor for the development of contractures was length of ICU stay, and the odds of acquiring a contracture increased markedly between weeks 2 and 8 in the ICU. Despite the limitations of this retrospective cohort design, including chart-derived data, a single study centre and the potential for missing or absent data for other possible confounding variables, it is difficult not to be impressed by the rigor of this investigation and the magnitude of its findings.
There is robust literature from many investigators in different countries and involving diverse patient populations that demonstrates important impairments in health-related quality of life among patients who have had a critical illness. These decrements in quality of life may persist for years and may be irreversible in some cases.2–8 Contractures acquired during a prolonged ICU stay are another important contributor to decreased quality of life. Upper-extremity contractures can dramatically limit many essential activities of daily living, such as bathing, toileting and grooming, and lower-extremity contractures can limit walking or promote falling, and they may impede a patient's ability to return to work if his or her occupation is physically demanding. In addition, all physical leisure activities will be compromised to some extent. As a direct consequence of this impaired mobility, caregivers must assume a greater burden of responsibility, and this has important implications for their mental and physical health status.9–11
Large joint contractures can now be added to the growing list of physical and neuropsychological sequelae that follow critical illnesses (Box 1). There is considerable heterogeneity in outcomes across different patient populations. It is difficult but imperative that we continue to study the relations between these outcomes and different patient demographics, underlying disease states and processes of care delivery to determine contributing risk factors that may be eliminated or modified.
There appears to be significant potential for harm arising from the current ICU culture of patient immobility and an often excessive or unnecessary use of sedation. This is a culture that began for all the right reasons: to promote patient comfort, safety and respiratory synchrony while allowing intubation and mechanical ventilatory support for severe respiratory failure. But this culture has persisted despite emerging evidence that these current practices may, alone or in combination with the acute illness that precipitated the ICU admission, have important adverse consequences that may not be remediable over time. Immobility clearly plays a role in the development of contractures, and immobility is also a contributing factor to the ubiquitous finding of profound muscle wasting and weakness among patients who have long ICU stays and may contribute to their inability to regain premorbid functional status.
The current literature supports that patients in critical care settings may be mobilized without harm, even while receiving mechanical ventilation, and that wakefulness is safe and may be associated with improved neuropsychological outcomes.15–17 A recent study demonstrated how spontaneous awakening, when combined with a spontaneous breathing trial, was associated not only with a decreased duration of mechanical ventilation and ICU length of stay but also with improved survival in the first year after ICU discharge.18 The patients in the study by Clavet and colleagues had exposure to 1.25 full-time physiotherapists, one 0.75 full-time occupational therapist and a full-time nursing staff who routinely repositioned the patients. It is not clear what the optimal staffing ratios should be in an ICU setting, but clearly for patients to fully benefit from the services of allied health professionals in the ICU, they need to be awake, co-operative and mobile.
Although the authors failed to identify a subgroup at increased risk for contractures or muscle wasting and weakness, such subgroups warrant further scrutiny. As there are increasingly older patients occupying critical care beds, we need to understand how multiple comorbidites and pre-existing brain or neuromuscular dysfunction modify the ability of patients to withstand the additional insult of prolonged immobility and exposure to psychoactive medications (the so-called “disease of critical illness”). Equally, we have a responsibility to understand patients' innate resilience following critical illness and their ability to return to an acceptable quality of life and functional independence.19,20 Detailed knowledge of these outcomes may inform decisions to prioritize certain vulnerable patient subsets for early mobility and rehabilitation during their ICU stay, which may have practical importance in the context of limited allied health resources.
The physical and neuropsychological consequences of an ICU stay represent a burgeoning public health issue that has not been adequately addressed. As our population ages, there will be many patients discharged from the ICU with disability. Currently, there is no provision for the long-term needs of these patients, no systematic follow-up, no clear understanding of the pathophysiologic mechanisms underlying many of the most prevalent morbidities and no known intervention that reliably improves outcomes apart from a self-administered educational manual.21 As a society, we have chosen to invest heavily in the acute care needs of critically ill patients. Let us now equally invest in optimizing outcomes for the survivors and caregivers of this costly and arduous intervention.
@ See related article page 691
Key points of the article
• The success of intensive care medicine has lead to large numbers of patients discharged from the ICU with important physical and neuropsychological disabilities.
• The most common morbidity after critical illness is a muscle wasting and weakness syndrome related to nerve and muscle injury acquired during critical illness.
• A cultural shift in the ICU to greater mobility and increased wakefulness may decrease the morbidity of the ICU stay.
Footnotes
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Competing interests: None declared.