View clinical trials related to Weakness, Muscle.
Filter by:Researchers are doing this study to find out if a high fermented food diet is tolerable, and if it will help improve quality of life after surviving a critical illness, including severe COVID-19, by promoting gut health recovery and decreasing gut inflammation.
This study will use electromyography and dynamometry to evaluate gluteal muscle activation during the Trendelenburg hip abduction test in different hip positions.
This study wants to know if using handheld dynamometry (HHD) to test leg strength in persons who have had a stroke, will reduce mistakes and give therapists better information to use for therapy. This study will collect normal values of leg muscle peak force production, cumulative peak force production, and sustained peak force production in patients with chronic stroke.
The investigators aim to conduct a 12-week, single-arm, pre/post-intervention of b-hydroxy-methylbutyrate in persons aged 65 to 85 years to assess feasibility and acceptability of the intervention and study procedures, secondary outcomes of physical function and changes in multi-omics patterns, and exploratory outcomes that will allow the team to describe physical function phenotype. The investigators' primary outcomes are the: feasibility of the study procedures (including safety), feasibility of the intervention delivery, and acceptability of study procedures and measures. Secondary outcomes include: Objective and subjective physical function measures that predict disability including the 30-second sit-to-stand, knee strength, isokinetic strength, grip strength, gait speed, 400-m walk test, Pittsburgh Fatiguability, PROMIS global health-10, social support, anthropometry, National Institutes of Health (NIH) Cognitive toolbox, Automated Self-Administered 24-hour Dietary Assessment (ASA-24), Community Healthy Activities Model Programs (CHAMPS), Ultrasound Imaging, Magnetic Resonance Imaging (MRI), Changes in untargeted metabolomic profile data based on qualitative or semiquantitative analysis of the most probable detectable metabolites in laboratory samples , Discover potential metabolites that explain changes in physical function using a discovery science, precision medicine approach (discovery science approach that is exploratory)
Patients admitted to the hospital often develop functional impairments due to being in bed most of the day. Each day of bedrest leads to significant muscle loss. As a result, many patients become dependent on others or require rehabilitation at a facility to improve mobility and function prior to returning home. Staff in the hospital is limited and often unable to mobilize patients every day while hospitalized. The investigators are testing a new experimental gamified physical therapy exercise software to see if it can be a fun, enjoyable way to help mobilize patients without the assistance of staff. The primary aim of this pilot/proof of concept study is to determine whether gamified physical therapy software can help inpatients exercise within the safety of their own beds and preserve pre-hospitalization function.
The investigator proposes to conduct a randomized trial of supervised ambulation delivered by mobility technician (MT) up to three times daily, including weekends, to hospitalized medical patients. The aims of the study are to compare the short and intermediate-term outcomes of patients randomized to the intervention versus those patients randomized to receive usual care, to identify patients who are most likely to benefit from the intervention and to assess whether the intervention increases or decreases overall costs of an episode of care, including the cost of the MTs, the index hospitalization and the first 30 days post enrollment.
Post-surgery patients have muscle impairments, especially in the respiratory muscles, because the anesthesia, surgical incision, mechanical ventilation, pain, and prolonged postures, affect the mechanical condition of respiratory muscles. Those consequences produce a low exercise tolerance and low quality of life. These patients must go to cardiac rehabilitation to improve heart functions; however, these patients have a weakness in their respiratory muscles. Currently, there are many devices for respiratory muscle strength, although these devices are expensive, and they only have one circuit for training (inspiratory or expiratory). Triburter is a new device with two valves and positive pressure generation, this is a promising alternative because Triburter improves the mechanics of ventilation, increasing their functionality and quality of life. For this reason, the main hypothesis is that respiratory muscle training with Triburter improves the strength of inspiratory and expiratory muscles.
Major surgery induces a systemic inflammatory response, which can influence the post-operative morbidity, such as coagulation disorders and post-operative muscle weakness, hampering early recovery after surgery. Single administration of high dose corticosteroids is known to reduce this inflammatory response and could possibly improve the post-operative outcome. The CORTERAS study will evaluate the effect of administration of corticosteroids, as compared to no corticosteroids, on postoperative muscle weakness and quality of recovery after surgery in elderly patients.
Muscles atrophy and weakness are common in intensive care units, their origin is multifactorial. Passive then active mobilization with cyclo-ergometer have shown to improve functional abilities and limit muscle weakness among intensive care unit patients. Electrical muscle stimulation should limit the atrophy and muscle weakness in intensive care unit associated with early mobilization. This study aims to compare the association early cyclo-ergometer mobilization with electrical muscle stimulation versus cyclo-ergometer mobilization only to prevent muscle atrophy and weakness in intensive care unit.