View clinical trials related to Hemiplegia.
Filter by:The purpose of this project is to investigate the effect of functional electrical stimulation (FES) for recovery of dorsiflexion after stroke. It will be led from the University Department of Rehabilitation Medicine at Danderyd Hospital (RMDS) in collaboration with the MoveAbility Lab at KTH Royal Institute of Technology. Patients referred to RMDS for inpatient rehabilitation early after hemiparetic stroke will be included. The overall aim is to explore how 4 weeks of training incorporating the FES-system (L300 Go System ® Bioness, Ottobock) effect function of the lower extremity, gait function and mobility when compared to conventional training only, in the subacute stage after stroke.
Alternating Hemiplegia of Childhood (AHC) is a rare and severe disease that is in need of effective, and hopefully even curative, therapies. Afflicted patients suffer from severe paralyzing crises, often excruciatingly painful muscle spasms, severe often life threatening epileptic seizures, frequently severe developmental and psychiatric/psychological disabilities and other comorbidities, such as cardiac disturbances. Recent data indicate that AHC genotype is in relation to cardiac repolarization troubles and to cardiac arrhythmias. The primary hypothesis to explore is that there is an association between genotype and cardiac phenotype in AHC.
The purpose of the study is to determine the effect of rhythmic auditory cueing with bilateral arm training on upper limb functions in stroke patients.
In this study, it was aimed to evaluate whether or not NMES in front of the mirror brings an additional benefit to mirror therapy alone or NMES alone on upper extremity motor and functional development, spasticity, anxiety, depression, cognitive function and activities of daily living, and neuropathic pain.
The purpose of the current study will be focused on the following issues. Evaluation of the effect of radial extracorporeal shock wave on the pressure pain threshold and disability in stroke hemiplegic shoulder.
Recovery of upper limb and hand gestures is fundamental for autonomy restoration after stroke. Innovative technologies are a valid support for the delivery of rehabilitation treatments. Embedding surface electromyographic (sEMG) into wearable devices, allows the customisation of rehabilitation exercises, based on the clinical profile of each patient.
The primary objective of this study is to tailor and test implementation strategies to support the adoption of two upper extremity motor outcome measures for stroke: the Fugl-Meyer Assessment and the Action Research Arm Test. The study's interdisciplinary team will address this objective through the following specific aims: (a) Tailor a package of implementation strategies (referred to as I-STROM-Implementation STRategies for Outcome Measurement) to promote outcome measure use across the care continuum, (b) Determine the effectiveness of I-STROM on outcome measure adoption and (c) Evaluate the appropriateness, acceptability, and feasibility of I-STROM in rehabilitation settings across the country. The mixed-methods study design is informed by implementation science methodologies, and the tailoring of I-STROM will be guided by input from stakeholders, including occupational therapy practitioners and administrators. The investigators will collect robust quantitative and qualitative data by means of retrospective chart reviews, electronic surveys, and stakeholder focus groups. This study, "Strategies to Promote the Implementation of Outcome Measures in Stroke Rehabilitation," will address core barriers to outcome measure use through a package of implementation strategies, thus laying the groundwork for I-STROM scale-up in health systems nationwide.
Currently, the main treatment method for Intracerebral Hemorrhage (ICH) is medication or surgery. However, the effectiveness of medicines is moderate and there are several side effects. In this clinical trial, we would like to enhance the protein levels of brain derived neurotrophic factor in the brain by the transcranial ultrasound stimulation (TUS). By this technology, the symptoms of ICH could be alleviated and the side effects of medicines might be avoided. Preclinical trials have also shown that low-intensity pulsed ultrasound can alleviate the degree of neuroinflammation, neurodegeneration and significantly improve motor and cognitive deficits after brain injury. The purpose of this clinical trial is to evaluate the safety and feasibility of TUS for the treatment of patients with hypertensive intracerebral hemorrhage. The primary safety assessment indexes are brain magnetic resonance imaging (MRI) and brain magnetic resonance angiography (MRA). The secondary safety assessment indexes include weight, vital signs, electrocardiogram, general blood biochemical tests, adverse reaction events, and concurrent drug tracking. The feasibility assessment includes blood specific biomarker expression and neurological function & quality of life scales.
The purposes of this study are to examine sonographic structural changes pre and post the radial extracorporeal shock wave intervention in hemiplegic shoulder pain, and to assess the relationships between sonographic structural changes and hemiplegic shoulder pain.
The aim of this study is to investigate the effectiveness of shoulder slings on pain, motor function, daily life and balance in acute hemiplegic patients and to investigate whether different types of slings are superior to each other.