View clinical trials related to Weakness, Muscle.
Filter by:Physical frailty is an age-related medical syndrome defined by a decline in multiple body systems, thus causing increased vulnerability, even in the face of minor stressors (1) It has been linked to multiple negative health outcomes, including extended length of stay in acute care due to complications, hospital re-admissions, and mortality among older patients. About 10-30% of community-dwelling seniors are considered frail(2) with an additional 40% being at risk for the condition (pre-frailty). By 2030, the number of older adults with frailty is expected to at least double, in parallel to the projected growth of the older segment of the population. Frail seniors consume 3-times more health care resources then their robust counterparts. Thus, the health economic impact of frailty is expected to be enormous and a call to action has been posed. Big data in healthcare provides important opportunities for the identification of frailty among the growing number of older patients. This is relevant as frailty is considered a better predictor of adverse outcomes than chronological age alone. Therefore, several medical specialties have started to assess frailty in cancer patients, heart surgery candidates and potential organ transplant recipients.
Over 40 million Americans take statins to reduce their risk of atherosclerotic cardiovascular disease (ASCVD). Unfortunately, 10 to 20% stop taking them due to statin-associated muscle symptoms (e.g. pain, aches, weakness, cramps, or stiffness) (1, 2). The pathophysiology of these statin-associated muscle symptoms (SAMS) has remained elusive. Consequently, no objective diagnostic method exists, causing confusion for patient and providers since muscle symptoms can often be multifactorial.
In recent years, suprainguinal fascia iliaca block (SFIB) has emerged as a reliable analgesic option for primary total hip arthroplasty (THA). In 2018, a new block was described, termed pericapsular nerve group block or PENG block, that selectively targets the articular branches of the femoral and obturator nerves while sparing their motor components. In this randomized trial, the investigators will compare US-guided SFIB and PENG block in patients undergoing primary THA. Since the main benefit of PENGB stems from its quadriceps-sparing effect, it was selected the incidence of quadriceps motor block (at 6 hours) as the primary outcome and the hypothesis that PENG block will result in significantly less motor block compared to SFIB.
The study will investigate the effects of a traditional, high-intensity strengthening program compared to an investigational low-intensity strengthening program that also uses blood flow restriction as part of the training program. Both groups will be compared to a control group, which will receive no training. Measures of strength, function, and patient outcomes will be taken before starting the training, at mid-term, and at the end of the 8-week training program. Additionally, investigators will collect outcome data at 6 and 12 months after completing the program to assess for long term outcomes. The eligible populations are participants with rheumatoid arthritis (RA), osteoarthritis (OA), or myositis. The study will include about 15 participants per group, or 45 people with each diagnosis.
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.
The purpose of this 12-week, interventional study is to determine the effects of oral supplementation with Indus810 (dietary supplement with active ingredient Fenugreek) on body composition, muscular performance, and training adaptations
Traumatic Brain Injury (TBI)patients often suffer from loss of muscle strength in the hand and foot, decrease in coordination and high muscle tone (spasticity). In this study, investigators seek to compare how two different training programs can improve the coordination and symptoms of fatigue in individuals with movement deficits secondary to TBI. Using brain imaging, the study will also investigate changes in brain structure and activity associated with hand movement.
The objective is to diagnose earlier and more precisely the occurrence of a weakness neuromuscular syndrome at the end of intensive care, or within 28 days if the stay is longer than 28 days. The amyotrophy has been shown to be proportional to muscle strength in healthy subjects. The amyotrophy can be reliably evaluated by measuring the cross-sectional area of the right femoral muscle. The hypothesis is that amyotrophy measured by muscle ultrasound can allow an early and reliable diagnosis of neuromuscular weakness syndrome (NMWS), even though the measurement of the MRC score (the Gold Standard), has shown its limitations in intensive care in terms of reliability and delayed diagnosis. Moreover, this syndrome is associated with a loss of functionality and a deterioration of long-term quality of life. One of the objectives is thus to determine if the muscular ultrasound allows a prediction of the occurrence of these alterations far from the intensive care. Early rehabilitation has shown a benefit on mortality, duration of stay, mechanical ventilation and on functional alteration after intensive care. This is why an earlier and more precise means of diagnostic of this pathology is searched. The target population is therefore patients from 18 to 80 years hospitalized in intensive care for prolonged stay (> 5 days), and prolonged ventilation (> 48H).
Evaluation of a new EMG controlled game to improve hand function in chronic stroke survivors.