View clinical trials related to Paresis.
Filter by: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.
This study will compare bilateral priming followed by task specific training to health care education followed by the same task specific training protocol. The intention is to understand the effects of priming on upper limb training post-stroke.
The purpose of this study is to examine the efficacy of MyndMove therapy in the early sub-acute, late sub-acute and chronic post-stroke patients. Other objectives include assessing the required doses of electrical current amplitudes, the usability of the device, and examining the overall safety.
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.
Hemiparetic cerebral palsy influences motor function in children during development and throughout their lifetime. The deficits one sees are the result both of the congenitally induced brain lesion and the subsequent plasticity that can impair function of the surviving neurons in the damaged brain. Many current treatments have limited influence on children's neurorecovery. Constraint-induced movement therapy (CIMT) involving constraining the unaffected limb to encourage use of the affected limb has shown promise, yet with new technology revealing the potential to directly influence the brain, there is an urgent need to study the synergy of combined techniques. Non-invasive brain stimulation (NIBS) as a direct neuromodulatory intervention has the potential to act synergistically with CIMT to influence neurorecovery. Combining behavioral therapies, constraint-induced movement therapy (CIMT), with a novel form of neuromodulation, transcranial direct current stimulation (tDCS), we investigated the influence of this intervention on improved motor outcomes in children with cerebral palsy. The study hypotheses surround the safety, feasibility and efficacy of combined CIMT and tDCS wherein those children who receive the combined intervention will reveal no major adverse events, yet improved hand function and cortical excitability. To Note: In addition to the combination of NIBS with CIMT, we also investigated the combination of NIBS with another form of motor intervention, bimanual, or two-handed, training. During bimanual training, children engage both hands in movements. The goal of bimanual training is to teach children how to most effectively use their hands cooperatively. During bimanual training, children play with games and toys that require the use of both hands. Children also practice activities of daily living that require the use of both hands, such as putting hair in a ponytail, tying shoes, and buttoning clothing. N=8 for this pilot study and no randomization. (Burke Medical Research Institute partnered with Columbia University and did a parallel pilot study. N=8 (PIs Friel and Gordon; Protocol BRC449)
This is a small pilot randomized controlled trial which will enroll both subacute (<6 mos) and chronic (>6 mos) stroke survivors with ankle dorsiflexion weakness. The subjects will be randomized to Contralaterally Controlled Neuromuscular Electrical Stimulation (CCNMES) versus control. The primary objective of this study is to compare the effect of 6-weeks of lower extremity CCNMES, applied in an anti-phase application, on motor impairment and functional mobility to a control group.
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.
1. To assess the clinical and neurophysiological efficacy of Xeomin® vs. Botox® in children with spastic equine and equinovarus foot deformation in pediatric cerebral palsy 2. To assess the safety of Xeomin® use as compared to Botox® in this patient population