View clinical trials related to ICU Acquired Weakness.
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Intensive care unit-acquired weakness (ICU-AW) is the most common neuromuscular impairment in critically ill patients. It affects more than 50 % of patients in the intensive care and is related to many problems as difficult weaning from mechanical ventilation, prolonged hospital stay and increased mortality.Thyroid disorders are also associated with neuromuscular abnormalities and may decrease the threshold for the development of any type of myopathy. However, no previous study investigated the direct relationship between thyroid dysfunction and ICUAW.This study aims at evaluation of the association between thyroid dysfunction and intensive care unit acquired weakness.
Changes in pulmonary ventilation and perfusion by EIT to out-of-bed activity in critically ill patients
Patients hospitalized in the Intensive Care Unit (ICU) are at risk for developing severe disabilities, physical or cognitive. In particular, ICU-acquired weakness is frequent. The causes of this weakness are multiple and the physiopathology is still not fully understood. Immobilization in bed and sepsis are known risk factors. ICU-acquired weakness has been associated with prolonged mechanical ventilation duration, and increased in ICU and hospital length of stay. It has also been associated with significant decrease in functional capacity and with higher mortality. An early screening using a specific diagnostic protocol could help improving the management of patients suffering from ICU acquired weakness. The aim of this study is to early detect ICU acquired weakness in patients suffering from septic shock and ventilated for more than 72 hours.
Critically ill patients in the intensive care unit are known to lose muscle mass and function at a rapid rate. Currently, there is a global recognition and shift in the ICU culture to reduce sedation and encourage exercise and mobilization early during the ICU stay. Functional stimulation assisted supine cycling can be applied to patients in the bed and does not require patient participation. This study seeks to evaluate the effect of conventional exercise and early mobilization in combination with functional stimulation assisted supine cycling applied early during the ICU on muscle mass, strength, and physical function, as well as patient-reported disability as compared to conventional exercise and early mobilization alone.
The purpose of the present study is to compare usual care in terms of mobilization performed to intubated ICU patients to a standardized program designed to deliver early mobilization at least 5 days a week. This study has a before / after design with a control group during the experimental phase. The first phase of the study corresponds to an observational phase during which every act of mobilization performed to the included patients is going to be documented. During this first study period, total duration of mechanical ventilation is going to be recorded for all the patients included. At the end of this first study period, the participating ICU are going to be randomized (Cluster randomization) in two groups either observational or experimental. The corresponding strategy is going to be applied to all the patients included during the second study period. During this second period, total duration of mechanical ventilation is also going to be recorded for all the patients included. The study hypothesis is that applying a protocolized early mobilization strategy increases the number of ventilator free-days during the 28 days after intubation in ICU patients.