View clinical trials related to Hemiplegia.
Filter by:The investigators design a randomized, control study to evaluate the therapeutic effect of scalp acupuncture using Jiao's motor area for motor dysfunction in ischemic stroke patients using the following outcomes: motor function, activity of daily living,quality of life.
Transcortical direct current stimulation (tDCS) is an emerging technique in the rehabilitation of hemiplegic patients after stroke. This study aims to assess the observance and the tolerance of repeated tDCS stimulation over the primary motor cortex of the lower limb coupled to a motor training program, among hemiplegic patients at the sub-acute stage. This is a prospective, randomized, double-blind, study with two parallel groups of 15 subjects each. The study will analyze first, the patient's observance considered good if 75% of the patients completed the entire protocol duration and the tolerance through a questionnaire. The secondary end point will try to estimate, if possible, the effect size of the walking performance measured with the six-minute walk test and aerobic performance measured with VO2peak of this training program compared to the same program combine with placebo stimulations. These evaluations are performed before, during and after the rehabilitation program.
To examine efficacy of combined unimanual and bimanual intensive therapy in children with unilateral brain injury. A key question in hemiplegia therapy is whether the affected hand should be trained alone or in tandem with the other hand. In constraint-induced movement therapy (CIMT), a participant's less-affected upper extremity is restricted with a sling, cast, or mitt, while the participant actively uses the affected arm and hand in skill-based therapeutic activities. Bimanual therapy, in contrast, engages both hands in therapeutic movement. Since constraint and bimanual therapy target different aspects of hand use, they could have synergistic effects on hand function when given in combination.
Our study goal is to assess natural patient-therapist interactions in order to map such human-human activities to robot-human interactions. Critical to accomplishing this mapping will be determining the feasibility of a humanoid robot interacting with a patient in a more intuitive and flexible way, while concomitantly investigating the issue of safe contact and release.
We propose a study that uses challenging walking exercises as a research training program and compare balance and walking abilities against a non-challenging exercise program, in a group of 40 people with long standing (> 6 months) weakness that occurred after a stroke. Our main balance measure will be changes with the Berg Balance Score and Dynamic Gait Index, and our main walking measure will be walking speed over a 10 meter walkway and distance walked over a six minute period. Also, we will measure balance confidence, using scores on Activities-specific Balance Confidence Scale, changes in quality of life as measured by the Geriatric Depression Scale, SF-36 and Stroke Impact Scale. If challenging exercises are shown to be more effective than non-challenging exercises, then we will share this promising new approach with the community in hopes of improving people's lives after a stroke.
Stroke survivors with hemiplegia will be evaluated by rehabilitation professionals and asked to perform a battery of assessments to test the viability and usability of a force-feedback robot that adapts to each individual subject's performance. Subsequently, they will be asked to complete post-assessment questionnaires that provide feedback to the researchers on their observations and thoughts about the therapy devices.
Twenty pediatric patients aged 5-17 years with Acquired Brain Injuries (ABI) will be randomized to receive either a bimanual-to-unimanual device home training program (10 subjects) or a conventional non-device home training program (10 subjects) for a period of 6 weeks. The specific aims of this proposal are to: Aim 1: Introduce home-based targeted upper limb training in children with hemiplegia from ABI (Acquired Brain Injuries) using a bimanual-to-unimanual training approach It is hypothesized that child-friendly home-based upper limb bimanual-to-unimanual training will lead to greater compliance and improved motor outcome on the Fugl Myer Scale compared to a conventional home training program. Aim 2: Improve the understanding of the pattern of recovery of isolated joint movements in the pediatric population with hemiplegia following ABI. It is hypothesized that individuals receiving device-based bimanual-to-unimanual training will show improvement in active range of motion across upper limb joints compared with a conventional home training program.
PURPOSE: The purpose of this study will be to identify whether patients in the subacute stage of stroke, who demonstrate foot drop, will have better gait outcomes when using a Double Adjustable AFO, or a Posterior Leaf Spring AFO. A secondary purpose will be to determine whether one week of practice significantly changes gait outcomes with either of the AFO conditions. INCLUSION CRITERIA: Twenty participants over the age of 18, of any gender and ethnicity, diagnosed with first time unilateral stroke, 4 - 20 weeks post-stroke onset, resulting in hemiparesis with foot drop will be recruited for this study. EXCLUSION CRITERIA: 1. Not able to receive a double adjustable AFO through their insurance 2. Unable to follow two steps commands 3. Unable to ambulate 20 feet with or without assistive device with a minimum level of assistance of contact guard assistance. 4. Cerebellar Stroke 5. Inability to ambulate prior to stroke 6. receiving chemotherapy at the time of study OUTCOME MEASURES: 1. Six Minute walk test 2. Gait Symmetry and Gait velocity measured with GAITRite for self paced velocity walk and fast paced velocity walk. DATA COLLECTION: Data will be collected three times over two weeks period. First Visit: Demographics, Fugl-Meyer Lower Extremity Assessment of sensorimotor function, Mini Mental State Examination 6MWT and GAITRite measurements using Both types of AFO in a random order. Afterwards participant will be given one type of AFO (randomly selected) to practice walking for a week. Second Visit: 6MWT and GAITRite measurements using the type of AFO they were practicing with. Then the other type of AFO will be given to practice walking for a week. Third Visit: 6MWT and GAITRite measurements using the second type of AFO that they were practicing with the week prior. Patient will be asked which type of AFO they prefer to use.
The aim of this study was to determine the effects of an innovative child-friendly remind-to-move treatment (RTM) treatment by comparing it with constraint-induced movement therapy (CIMT) on upper extremity outcomes in children with hemiplegic Cerebral Palsy. In an evaluator-blinded randomized controlled trial, 73 children, among of whom 20 in Manual Ability Classification System level I, 38 level II, and 15 level III, were recruited from 3 special schools and randomized to receive 75-hour RTM (n=25) and CIMT (n=24) programme over 15-weekdays, and conventional treatment (n=24). The primary outcomes were Jebsen-Taylor Hand Function Test (JTHFT) and Bruininks-Oseretsky Test of Motor Proficiency (BOTMP-II) Subtest 3 for assessing the motor efficiency at baseline, posttest, and 1- and 3-month follow-up.
The purpose of this study is to evaluate the use of the Armeo®Spring Pediatric as therapy for children with hand and arm weakness. The Armeo®Spring Pediatric is a device that supports the weight of the child's arm and uses joystick that helps to play computer games. The child will be assessed before and after this therapy. Participating children with upper extremity impairments will receive therapy 3x/week for 6 weeks during 30-45 minutes sessions at progressively increasing degrees of difficulty. Each child's performance will be tracked with regard to time necessary to complete a predetermined number of trials of the activity. The standardized assessment tools that will be used are the Assisting Hand Assessment (AHA), Box & Blocks test, Jebsen Taylor hand function test, and the Pediatric Evaluation of Disability Inventory-Computer Adaptive Test (PEDI-CAT). Data will be analyzed to determine the efficacy of this training method.