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NCT07017517
The goal of this clinical trial is to study whether physical therapy can reduce NLRP3 inflammasome activation and muscle atrophy in patients with critical illness myopathy (CIM). It will also explore the role of NLRP3 inflammasome in the pathophysiology of CIM. The main questions this study aims to answer are: Is NLRP3 inflammasome activation associated with muscle atrophy through the upregulation of atrogenes? Does physical therapy attenuate NLRP3 inflammasome activation in skeletal muscle, thereby contributing to the prevention or reduction of muscle atrophy in CIM? Researchers will compare enhanced physical therapy using servo-assisted bed cycling (Motomed Letto®) in critically ill patients at risk of developing CIM during the early phase of ICU stay to conventional physical therapy (standard physiotherapy), to assess whether physical therapy reduces NLRP3 inflammasome activation and muscle degradation. Participants will: Be randomized to receive either conventional physical therapy or enhanced physical therapy (Motomed Letto®) for 7 consecutive days. A control group of patients without CIM will also be included. Undergo assessments of NLRP3 activity, muscle atrophy markers, and transcriptomic profiles from serum and vastus lateralis muscle biopsies. Be clinically evaluated using the SOFA scale and muscle ultrasound for CIM diagnosis. Be followed up for changes in muscle strength and physical functionality. Provide sociodemographic and clinical information to be recorded throughout the study.
NCT06786390
The aim of Re-Walk-Easy is to evaluate the effects of rehabilitation based on electrical stimulation on the motor performance of critically ill patients. The study will also investigate the pathophysiology of the two forms-the myopathic-predominant and the polyneuropathic-predominant variants-by examining the longitudinal progression of CIP and CIM and determining which form benefits more from electrical stimulation as a rehabilitative approach.
NCT06368908
ICU-Acquired weakness (ICU-AW) is a significant complication of critical illness. ICU-AW is common in patients with sepsis, systemic inflammatory response, and mechanically ventilated. It is estimated that around 50% of patients recovering from the primary illness remain in intensive care with characteristic muscle weakness. This leads to dependence on mechanical ventilation, prolonging costly intensive care hospitalization. The myopathy causes persistent functional impairment, endangering patients long after hospital discharge. Magnetic stimulation prevents inactivation atrophy of skeletal muscles, as demonstrated in the mobilized limb of rats. Transcutaneous magnetic stimulation of the quadriceps via the femoral nerve is a safe and painless method even when applied to humans. In patients with chronic obstructive pulmonary disease (COPD), quadriceps magnetic stimulation increased spontaneous contraction force compared to the control group and improved quality of life. Patients with COPD tolerate quadriceps magnetic stimulation well, as it does not affect oxidative stress in muscles but does increase the size of slow-twitch muscle fibers. In intensive care medicine, magnetic stimulation has been primarily used for diagnostic purposes in assessing diaphragm function, peripheral muscle strength assessment, and transcranial electrical stimulation as a diagnostic tool and therapeutic stimulation of brain cells. With the development of modern transcutaneous magnetic stimulators, the possibility arises for their use in intensive care medicine for therapeutic purposes such as preventing critical illness myopathy. To date, no research has been conducted on the use and effectiveness of magnetic stimulation of peripheral muscles in critically ill individuals. The aim of the study is to investigate the effect of Functional Muscle Magnetic Stimulation (FMS) on the development of ICU-AW.
NCT05287204
The purpose of this study is to determine whether patients with acute kidney injury requiring renal replacement therapy have a higher incidence of muscle wasting than controls and whether the course of recovery is longer compared to controls.
NCT05008562
Critical illness myopathy and neuropathy are associated with prolonged mechanical ventilation, resulting in increased morbidity and mortality in intensive care units, .the investigators aimed to determine the decrease in muscle mass and risk factors that are important causes for the development of myopathy in COVID-19 (+) patients followed in intensive care unit. The study will also evaluate the relationships of patients withthe investigators intensive care-associated muscle weakness (ICU-AW) with other intensive care patient weight scores (SOFA, APACHE II, q SOFA). Sensitivity of anthropometric measurements and ultrasonographic measurements will be compared in the evaluation of sarcopenia. The length of hospital stay, mechanical ventilation time, patient outcomes (mortality/morbidity) information of patients with COVID-19 pneumonia followed in the intensive care unit will be evaluated.
NCT05541692
Sleep Hygiene Study Abstract: INTRODUCTION Sleep is integral to the health of a person and can have multifaceted contributions to a person including their physical, cognitive, and psychosocial well-being. However, within a recent survey evaluating the sleep perception of patients within an acute rehabilitation unit (ARU), there was a high prevalence of reported sleep disturbances and poor sleep hygiene compared to at home (Davis et al., 2021). In addition, patients within an ARU generally have an extended length of stay-which could mean many nights of poor sleep hygiene. Given the importance of sleep in facilitating a person's health and recovery versus the challenges the hospital environment poses on patient's sleep hygiene, this study aims to examine the efficacy of a sleep hygiene toolkit provided to the patients admitted to ARU. The sleep hygiene toolkit includes multiple non-pharmaceutical resources addressing sensory stimulation and psychological and emotional needs. OBJECTIVE This study aims to evaluate the perception of sleep quality experienced by ARU patients utilizing the sleep hygiene toolkit. This study hypothesizes that with the use of a sleep hygiene toolkit, patients will report a positive impact on their sleep quality during their hospital stay. METHODOLOGY This is a within-subjects study design. All eligible participants will be given the sleep hygiene intervention administered for a period of five days. The sleep hygiene toolkit includes multiple resources including assistive devices (ie. eye masks and ear plugs), sensory-based tools (ie. aromatherapy, music, meditation, and breathing techniques), cognitive behavioral therapy (CBT) activities (ie. addressing anxiety and worry), and education and training on sleep hygiene. The visual analog scales on the Richards-Campbell Sleep Questionnaire will be used to assess patient's overall sleep perception pre- and post-intervention. CONCLUSION Given this prevalent area of need for patients admitted to ARU, occupational therapists (OT) can offer an additional way to address it. According to the Occupational Therapy Practice Framework (2020), OTs are well-equipped to provide comprehensive treatment to promote a person's sleep preparation and sleep participation. The results will determine the efficacy of a sleep hygiene toolkit for ARU patients in addressing their sleep needs-an important component in a patient's health and recovery during their hospital stay. SIGNIFICANCE OF TOPIC This study aims to highlight the barriers to successful participation in the occupation of sleep and rest for patients admitted to an acute rehabilitation unit (ARU). The creation of this sleep hygiene toolkit is to address a person's sleep preparation and sleep participation. Although sleep quality and its impact are a topic well studied, there is limited study on occupational therapy led interventions aimed to benefit the patient's sleep quality in an ARU setting.
NCT03573739
Among critically ill patients requiring mechanical ventilation and catecholamines for shock, nearly 40% to 50% die, and functional recovery is often delayed in survivors. International guidelines include early nutritional support (≤48 h after admission), 20-25 kcal/kg/d at the acute phase, and 1.2-2 g/kg/d protein. These targets are rarely achieved in patients with severe critically illnesses. Recent data challenge the wisdom of providing standard amounts of calories and protein during the acute phase of critical illness. Studies designed to improve enteral nutrition delivery showed no outcome benefits with higher intakes. Instead, adding parenteral nutrition to increase intakes was associated with longer ICU stays and more infectious complications. Studies suggest that higher protein intakes during the acute phase may be associated with greater muscle wasting and ICU-acquired weakness. The optimal calorie and protein supply at the acute phase of severe critical illness remains unknown. NUTRIREA-3 will be the first trial to compare standard calorie and protein feeding complying with guidelines to low-calorie low-protein feeding potentially associated with improved muscle preservation, translating into shorter mechanical ventilation and ICU-stay durations, lower ICU-acquired infection rates, lower mortality, and better long-term clinical outcomes. This multicentre, randomized, controlled, open trial will compare, in patients receiving mechanical ventilation and treated with vasoactive agent for shock two strategies for initiating nutritional support at the acute phase of ICU management (D0-D7): early calorie/protein restriction (6 kcal/kg/d/0.2-0.4 g/kg/d, Low group) or standard calorie/protein targets (25 kcal/kg/d/1.0-1.3 g/kg/d, Standard group). Patients in both groups will receive enteral or parenteral nutrition appropriate for their critical illness. Two alternative primary end-points will be evaluated: all-cause mortality by day 90 and time to discharge alive from the ICU. Second end-points will be calories and proteins delivered, nosocomial infections, gastro-intestinal complications, glucose control, liver dysfunctions, muscle function at the time of readiness for ICU discharge and quality of life at 3 months and 1 year after study inclusion.