View clinical trials related to Critical Illness Myopathy.
Filter by:To observe and identify determinants of recovery from intensive care unit-acquired weakness (ICUAW) following a severe cardiorespiratory failure requiring extra-corporeal membrane oxygenation (ECMO). Additionally, to discover the effects of ICUAW on physical function and health-related quality of life (HRQoL) after critical illness. CLEVERER is a clinical observational pilot study.
To identify determinants of 'good and bad recovery' from ICUAW and build knowledge around the timing of these processes. Also, the investigators want to discover the effects of ICUAW on physical function and HRQoL following aortic surgery.
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.
This is a pilot quality improvement implementation study that will measure the impact of a rehabilitation bundle implementation on the outcomes of interest. Advancements in the care provided in Pediatric Intensive Care Units (PICUs) have led to fewer deaths in children. These improvements are unfortunately countered by the emergence of side effects of critical illness, known as PICU-acquired complications (PACs). Delirium, muscle weakness, drug dependency and withdrawal are increasingly common. PACs occur because children are often over-sedated and experience long periods of immobilization. PACs delay recovery, increase disability and worsen long-term function and quality-of-life. Although they are preventable, PACs are very common and frequently overlooked by clinicians. This study aims to "liberate"children from critical illness and improve their recovery and functioning after discharge, through an innovative rehabilitation bundle of 8 complementary steps (PICU Liber8) to reduce sedation, allow children to awaken and breathe comfortably, encourage early mobilization, and engage families in their child's care.
Subjects in MV will be included, divided into 3 groups: (a) Control Group (CG), (b) Stimulation of Quadriceps (Quadriceps Group - QG), (c) Stimulation of Diaphragm (Diaphragm Group - DG). The QG and DG patients will receive consecutive daily electrical stimulation sessions at specific points from the first day of randomization until ICU discharge. Respiratory and peripheral muscle strength, MV time, length of hospitalization and functional independence score (the Functional Status Score-ICU) will be recorded.
Neuromuscular electrical stimulation (NMES) implemented during the intensive care unit(ICU) stay may improve exercise capacity and prevent muscular weakness in critically ill patients with respiratory disease. Main objective: To evaluate, in respiratory critically ill patients, the effects of a conventional physiotherapy program with or without additional NMES applied only during the ICU stay on exercise capacity. Design: Randomized, controlled, double-blind clinical trial on patients (>18yo) with diagnosis on admission of acute or acute on chronic respiratory disease, on mechanical ventilation (MV) > 72h and expected MV > 24h. Intervention: Conventional physiotherapy with or without 30-minutes (5days/week) on quadriceps femoris and gluteus maximus. Patients in the control group will follow the same protocol but the device will not be activated. Measures: Demographic data, body composition through bioelectrical impedance analysis (BIA), and functional capacity before admission through Barthel scale will be registered upon inclusion. Exercise capacity through test sit-to stand, muscular strength through Medical Research Council (MRC) score and dynamometry, body composition through BIA, and functional capacity through Barthel scale will be obtained at ICU and hospital discharge.
The purpose of this study is to determine if in-bed cycling is safe and feasible in critically-ill patients after open heart surgery. The investigators hypothesize that in-bed cycling can be safely used with this population and that it is feasible to use in a fast-paced cardiac intensive care unit.
Critical illness neuromyopathy is a common disease acquired during ICU stay leading to a deep weakness involving the respiratory muscle work which result in a delayed weaning of mechanical ventilation. The main objective is to quantify the loss of diaphragm function by measuring the diaphragm force (using the non invasive method by phrenic nerve stimulation allowing to measure the twitch airway pressure during airway occlusion) in a selected population of patients with critical illness neuromyopathy (defined as a MRC score < 48). The second end points are to evaluate its incidence, the consequences on the patients outcome (extubation success or failure; ICU stay) and to evaluate the relations between diaphragm function (twitch airway pressure during airway occlusion, maximal inspiratory pressure and diaphragm thickness evaluated by ultrasound) and peripheral limbs force (evaluated by the Medical Research Council - MRC score).
Background: After mechanical ventilation, 5-20% of patients with acute respiratory failure would depend on ventilator support more than 14 days because of critical-illness weakness and their underlying diseases such as heart failure and chronic obstructive pulmonary disease. Hypothesis: Electric muscle stimulation(EMS) will improve their muscle strength and shorten their ventilator days. Design: Randomized controlled trial. Adult patients with mechanical ventilation more than 14 days are eligible. EMS would be applied in experimental group 32 minutes/day on their bilateral thigh.
The principal research question to be answered by this study is whether an exercise based rehabilitative intervention following critical illness can generate improvements in exercise capacity and quality of life beyond current (usual) care. The investigators will also aim to demonstrate that such an intervention is both practical and cost-effective.