View clinical trials related to Hemiparesis.
Filter by:The complexity of sensorimotor control required for hand function as well as the wide range of recovery of manipulative abilities makes rehabilitation of the hand most challenging. The investigators past work has shown that training in a virtual environment (VE) using repetitive, adaptive algorithms has the potential to be an effective rehabilitation medium to facilitate motor recovery of hand function. These findings are in accordance with current neuroscience literature in animals and motor control literature in humans. The investigators are now in a position to refine and optimize elements of the training paradigms to enhance neuroplasticity. The investigators first aim tests if and how competition among body parts for neural representations stifles functional gains from different types of training regimens. The second aim tests the functional benefits of unilateral versus bilateral training regimens.The third aim tests whether functional improvements gained from training in a virtual environment transfer to other (untrained) skills in the real world.
Transcranial galvanic stimulation (tDCS), seems to promote motor recovery after stroke by stimulating (anodal) or inhibiting (cathodal) neural circuits in the brain. In the treatment of severe lower limb paresis after stroke, the GangTrainer GT1 (GT) proved to be effective, but nevertheless only a few patients could use their affect lower limb functionally in daily life on deambulation after robot training. Therefore the present study intends to combine both approaches, tDCS + GT, apply at the same time every day for two weeks in order to improve the effectiveness of GangTrainer therapy in the gait rehabilitation.
Ankle dorsiflexor weakness (paresis) is one of the most frequently persisting consequences of stroke. The purpose of this exploratory study is to compare two different treatments -- Contralaterally Controlled Neuromuscular Electrical Stimulation (CCNMES) and Cyclic Neuromuscular Electrical Stimulation (cNMES) -- for improved recovery of ankle movement and better walking after stroke.
This study aims to determine if Aquatic Treadmill Therapy is effective for improving economy of gait, gait speed, balance, and cardiovascular fitness in people with chronic stroke.
Impaired hand function is one of the most frequently persisting consequences of stroke. The purpose of this study is to compare two different treatments -- Contralataterally Controlled Functional Electrical Stimulation (CCFES) and Cyclic Neuromuscular Electrical Stimulation (cNMES) -- for improved recovery of hand function after stroke.
The investigators will study motor recovery after robot-assisted therapy after stroke. A small clinical trial will be conducted to quantify the central nervous system changes associated with robotic or standard training, and identify trends across high and low responders in terms of patterns of change in cortical activity and type of white matter connectivity.The investigators hypothesize that robot training will lead to larger improvements as compared to standard occupational therapy. The investigators hypothesize that high responders to the robot training will have reduced compensatory activation in the bilateral area and will connectivity in the motor tracts.
This randomized, single-blind study compares the effectiveness of bilateral training to unilateral training for individuals with moderate hemiparesis. We hypothesize that bilateral training will be superior to unilateral in the proximal extremity but not the distal one.
Aerobic treadmill exercise has been shown to improve walking, cardiovascular fitness and thereby risk factor profiles in chronic stroke patients (Macko et al., Stroke 2005). The proposed project is a randomized controlled trial in geriatric stroke patients with chronic disabilities to investigate potential mechanisms of treadmill therapy. The hypothesis is tested that 3-months of aerobic treadmill exercise induces structural brain plasticity and reorganization. The outcome measures are walking ability, gait pattern, cardiovascular fitness and brain morphology. This study will elucidate fundamental mechanisms of brain adaptations linked to task-repetitive aerobic lower extremity exercise. These mechanisms will not only lead to a better understanding but may also help to identify predictors of treatment response. 40 patients aged over 60 years with lower extremity paresis after a first-ever clinical stroke longer than 6 months prior to study inclusion will be recruited from: 1) The Geriatric Rehabilitation Clinic at the Robert-Bosch Hospital in Stuttgart 2) the Dept of Neurology, University Hospital in Tübingen. Subjects will be randomized to 3 months progressive graded aerobic treadmill exercise training (TAEX; 3 times/week, duration 10-45 min) or an attention control group (CON). Because we expect that localization and size of stroke affect therapy outcomes, stratified randomization will be used to balance entry into groups. We hypothesize that 3 months of treadmill gait training but not conventional care leads to improvements of cardiovascular fitness and gait and to brain reorganization (structural plasticity) in regions in which functional adaptations have been demonstrated using fMRI in previous studies. The specific aims are: - To assess reorganization by comparing cortical thickness, cortical density and fiber tract morphology before (time point 0), and after therapy (3 months) using T1-weighted 3D-MPRAGE images, voxel based morphometry and diffusion tensor imaging. - To correlate brain reorganization with improvements in walking velocity, and analysis of gait patterns (parameters, swing time, stance time, gait symmetry). - To correlate brain reorganization with location and size of the index stroke lesion and of diffuse white matter damage (subcortical vascular encephalopathy). Lesion and white matter damage will be evaluated based on T2-weighted FLAIR sequences.
Impaired hand function is one of the most frequently persisting consequences of stroke. The purpose of this study is to investigate whether two different types of treatment improve recovery of hand function after stroke.
The purpose of this study is to determine if a modified protocol of constraint-induced movement therapy (CIT) is effective in rehabilitation treatment of arm paresis in children with cerebral palsy. In these children one main problem the non-use of the affected arm. Many studies showed that the non-use phenomenon can by reversed by the CIT, a rehabilitation program consisting of 15 days of restraining the unaffected arm plus a daily intensive (6 hours/day) physiotherapy training of the paretic arm. The present study aims at evaluating if a shortened CIT protocol (restraining device plus only 2 weekly hours of physiotherapy) is effective in improving use and function of children paretic arm