View clinical trials related to Critical Illness Myopathy.
Filter by: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.
In this mono-center pilot trial, surgical patients who are at high risk to be admitted to intensive care will be screened and asked for participation. We are going to take blood and muscle samples at respecified time points to do metabolic, histological and molecular testing. Aim of the study is to investigate (1) changes of the blood metabolome in patients with ICUAW (intensive care unit acquired weakness) and (2) identify metabolic components who are responsible for ICUAW or can be used as marker for ICUAW.
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.
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.