Critical care nursing quarterly
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Professional experience and wisdom have taught us that immobility is a risk factor for various adverse outcomes, such as deep vein thrombosis, joint contractures, pulmonary dysfunction, and bone demineralization to name a few. Balancing bed rest and mobility may improve both short- and long-term outcomes for our patients. Moreover, early, routine mobilization of critically ill patients is safe and reduces hospital length of stay, shortens the duration of mechanical ventilation, improves muscle strength, and functional independence. ⋯ Our protocol is simple and can easily be adapted for all patient populations by simply modifying some of the inclusion and exclusion criteria. The activities are grounded in the evidence and well thought out to prevent complications and promote mobilization. The purpose of this article was to present the science behind the development of a multidisciplinary protocol for early mobilization of critically ill patients that can be adapted to any intensive care unit patient with minor modifications.
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Evidence to support improved outcomes with early ambulation is strong in medical literature. Yet, critically ill continuous renal replacement therapy (CRRT) patients remain tethered to their beds by devices delivering supportive therapy. The University of Michigan Adult CRRT Committee identified this deficiency and sought to change it. ⋯ After implementing our CRRT mobility standard, a preliminary study of 109 CRRT patients and a review of incident reports related to CRRT demonstrated no significant adverse patient events or falls and no access complications related to mobility. This deliberate intervention allows CRRT patients to safely engage in mobility activities to improve this population's outcomes. A simple mobility protocol and safety acronym partnered with strong clinical leadership has permitted the University of Michigan to add CRRT patients to the body of early mobility literature.
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Critically ill patients are at high risk of malnutrition and lean body mass loss. Screening for malnutrition and performing detailed assessment of energy needs should be routine for patients admitted to intensive care units. Providing adequate calorie and protein provisions can attenuate muscle loss in many at-risk patients. ⋯ There is growing evidence for the potential immune-enhancing benefits of many micronutrients and vitamins in the critically ill, but more research is needed to determine which nutrients are most effective in which disease processes and what dosing regimens are safe and effective. Elderly, obese, and very young patients pose unique challenges for nutrition therapy and early mobility programs. Pairing early mobility programs with optimal nutrition therapy can help reduce morbidity, limit muscle loss, and speed recovery in intensive care unit patients.
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In today's critical care environment, we face a difficult but essential task. We must provide comprehensive, compassionate, complex, technological care without causing harm to our patients. To foster a patient-safe environment, we must examine care practices and processes to reduce the chance of error. ⋯ The article examines the evidence supporting the need to assess readiness for mobilization to reduce the risk of adverse events. Evidence-based tools and techniques to help clinicians prevent hemodynamic instability before, during, and after in-bed or out-of-bed mobilization are discussed. With safety serving as the overriding goal, we can overcome the barriers and succeed in creating and sustaining a culture of early progressive mobility programs within the intensive care unit.
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The postoperative period following abdominal surgery presents many challenges to patients and clinicians as recovery progresses and discharge from the intensive care unit approaches. Physiologic changes including the release of inflammatory mediators, increased fatigue and reduction in body mass, and a decline in pulmonary function occurring after abdominal surgery are often potentiated by bed rest and immobility. ⋯ By understanding the specific needs of the abdominal surgery population, the clinician can safely and effectively implement a mobility plan. The purpose of this article was to briefly review the inflammatory effects associated with bed rest, critical illness, and surgery; review the literature related to mobility in the abdominal surgery patient; describe the effects of immobility on postoperative outcomes; discuss the safety concerns and barriers to mobilization; discuss strategies to overcome barriers; and provide suggestions for application in practice.