View clinical trials related to Paresis.
Filter by:A case series aimed to describe a new clinical condition for the first time in the medical literature called Ankle Spine Syndrome or "RAFFET Syndrome II". This syndrome was reported in 6 patients (2 males and 4 females) out of 1000 patients with a history of chronic ankle injuries affecting their calf muscles' strength throughout the last 3 years. The patients suffered from unresolved CLBP with radiculopathy contralateral to their calf muscle atrophy (i.e., an ipsilateral calf muscle weakness induces contralateral lumbar radiculopathy) that did not respond to physical therapy or any medication for long.
To establish a relationship between malnutrion and respiratory muscle dysfunction in patients with bronchectasis
The purpose of this study is to evaluate the limb functional improvement after contralateral C7 root transfer in stroke patients.
The goal of this randomised controlled trial is to learn about the effect of therapeutic climbing in hemiplegic children. The main questions it aims to answer are: Does climbing affect muscle strength and tone? What is its connection between normative data drawn from healthy children? How can it affect balance? Participants (children) will be asked to complete an series of movements used in sports climbing, such as inside-flag, back-flag and horizontal traverse, while hanging on an in-door climbing wall.
The purpose of the study is to assess implementation and effectiveness of a caregiver-delivered rehabilitation intervention for infants and toddlers with cerebral palsy.
The loss of sensorial feedback causes gait impairment in hemiparesis. The studies show that proprioceptive impairment of knee is related to falling in these patients. The aim of this study is to investigate the effects of proprioception on balance and gait functions in hemiparetic individuals.
The loss of sensorial feedback causes gait impairment in hemiparesis. The studies show that proprioceptive impairment of knee is related to falling in these patients. The aim of this study is to investigate the effects of proprioception on balance and gait functions in hemiparetic individuals.
To assess the impact of a 12-week virtual seated physical intervention on cardiovascular health and wellness in people with chronic neurological impairments (CNI).
The Occupational Therapy Department at Boston Children's Hospital is teaming up with MGH Institute of Health Professions to explore the benefits of using robot assisted therapy (Amadeo) and a problem solving approach (Active Learning Program for Stroke) to achieving functional goals for children ages 7-17 years old that have hemiparesis. The hope is to help participants make gains in both hand/arm skills and progress in everyday activities such as self-care, play, school and work. Participation will look like regular therapy with sessions 3 times weekly for 8 weeks. Each visit will include time for games on the Amadeo and time spent problem solving current activity challenges for each child. Families are encouraged to participate.
Stroke often leads to long-term disability including upper extremity (UE) dysfunction even with the provision of timely rehabilitation services. Brain injury stemming from stroke, affecting the corticospinal system results in weakness, alterations in muscle tone and incoordination during the performance of functional tasks. Recovery of functional task performance after injury to the corticospinal system involves a residual neural network that engages the premotor cortex, frontal cortex and supplementary motor cortex. In particular, the dorsal premotor cortex (PMd) is anatomically and physiologically poised to reorganize and support motor recovery after corticospinal damage. The goal of this study is to determine the feasibility and efficacy of stimulating the ipsilesional PMd in adults with chronic stroke using noninvasive anodal transcranial direct current stimulation (tDCS) during the training sessions of a 4-week circuit-based, UE, task-related training (TRT) program. Pilot data from six adults, using anodal tDCS over the injured PMd just before each session of TRT, led to significant improvements in UE function in 5 of the 6 adults after only 4 weeks of training. We will assess the motor function of both arms using clinical assessments immediately before and after the 4-week TRT program. In addition to effects of tDCS-primed UE-TRT on clinical outcomes, we will use functional magnetic resonance imaging (fMRI) to determine the changes in neural network reorganization. We hypothesize that the training program will reveal significant improvement in motor function based on clinical assessment as well as significant global network changes based on resting state functional MRI and hybrid diffusion MR imaging. The long-term goal of this research is to develop an effective intervention strategy to improve UE function in individuals with moderate impairment from chronic stroke.