View clinical trials related to Muscle Weakness.
Filter by:The purpose of this study is to assess the efficacy of non-invasive BCI-exoskeleton technology based on EEG patterns recognition matching to motor imagery in post-stroke patients with hand paresis.
This is a pilot study for evaluating the feasibility of using High Intensity Interval Training in geriatric hospitalized patients compared to the standard current rehabilitation practice.
To evaluate the safety and efficacy of eculizumab in the treatment of refractory generalized myasthenia gravis (gMG) as an extension study for the participants who previously completed Study ECU-MG-301(NCT01997229).
This study investigates different resistive co-contraction trainings effect on knee strength recovery after ACL reconstruction. Participants will be divided into three groups. Group 1 will receive standard ACL rehabilitation with 8 week co-contraction training in open kinetic chain position, Group 2 will receive standard ACL rehabilitation with 8 week co-contraction training in open kinetic chain position and Group 3 (control group) will only receive standard ACL rehabilitation.
This study evaluates the effects of a 12-week whole-body electromyostimulation (WB-EMS) training combined with individualized nutritional support on body composition, muscle strength and function and quality of life of patients with malignant disease undergoing curative or palliative anti-cancer treatment
The purpose of this project is to investigate the effect of Kinesio tape on muscle strength of the quadriceps femoris in people with knee pain or symptoms and decreased muscle strength in the quadriceps femoris - a randomized controlled trial.
The purpose of this project is to investigate the effect of Kinesio tape on muscle strength of the lower trapezius in people with shoulder symptoms and decreased muscle strength in the lower trapezius - a randomized controlled trial.
The study compares the effectiveness of Tiemann and Suction catheters, with regard to attempts to enter the trachea and the time required for the procedure.
Motor deficits are common after stroke, being one of the major causes of disability in this population. Because of the impact that motor impairments have in the life of patients and the associated financial costs, it is a health care priority to develop effective and efficient treatments to restore motor deficits. Music-supported therapy (MST) has been recently developed to enhance the use of the affected extremity after stroke. In the present project, a new multidisciplinary approach (neurology, neuropsychology, music and cognitive neurosciences) will be undertaken in order to investigate the effectiveness of MST as a neurorehabilitation technique to restore the motor function in stroke patients. In addition, the complex pattern of reorganization of the sensorimotor system will be studied in order to provide information about the physiological mechanisms underlying the neurorehabilitation process. A randomized controlled trial is proposed to compare for first time the effectiveness of MST (at the hospital and at home) compared to conventional treatment in subacute stroke patients suffering from motor deficits. Our hypothesis is that patients will experience a large improvement in the functional use of the affected arm due to the implementation of the MST program when compared to conventional treatment. We also expect to observe improvements in cognitive functions, mood and quality of life. Besides, we hypothesize that these amelioration in motor and cognitive domains will be accompanied by neuroplastic changes in the sensorimotor cortex and corticospinal tract.
To determine, in a double blind trial, the effects of creatine supplementation during 12 weeks on muscle mass and function of community living older women subjected to resistance training. Material and methods: Fifty healthy older women will be selected for the study. All participants will be subjected to a progressive resistance training program using elastic bands and weights, consisting in three sessions per week lasting 1 hour. Participant will be randomly allocated in a double blind fashion, to receive creatine 5 g per day or an identical placebo. The training and supplementation period will last 12 weeks. At baseline and at the end of the study, body composition will be measured by dual energy x-ray absorptiometry, rectus femoris cross sectional height and surface will be measured by ultrasound, quadriceps strength will be measured in a quadriceps table and 12 minutes' walk will be assessed. The main outcome measure will be quadriceps cross sectional height. Expected results: We expect that creatine supplementation will increase rectus femoris height over and above the effect of resistance training.