View clinical trials related to Cerebrovascular Accident.
Filter by:The Investigators are performing a study to determine, in patients with chronic/recurrent neck pain, the cerebrovascular hemodynamic consequences of cervical spine movements, including manipulation, in vivo using fMRI technology on vertebral and cranial blood flow dynamics affecting brain perfusion, and extend the current data set on these variables
This study will evaluate the effectiveness of sustained peripheral nerve stimulation coupled with functional motor training, to improve hand motor function in poorly recovered stroke patients. The central hypothesis is that stroke patients with severe motor deficit receiving hand nerve stimulation and intensive task-oriented therapy will have improved motor function compared to patients receiving sham nerve stimulation and task-oriented therapy.
Aim of the study is to determine whether endovascular systemic cooling to a target temperature of 34-35°C initiated before, and maintained during Carotid EndoArterectomy (CEA), is feasible and safe
The investigators proposed to evaluate the effectiveness of sustained peripheral nerve stimulation (PNS) to enhance the therapeutic effects of a modified form CIT (mCIT).
Claw toes deformity result in spasticity often seem in patients with central nerve disease. It also cause pressure sore in foot and pain during walking that didn't well improve under traditional treatment. There are few relative reports about the Botulinum toxin type A (BTX-A) injection on claw toe. The investigators' study has two main purposes: 1. assess the efficiency of BTX-A injection under ultrasonographyic guidance on improving lower extremities function, pain and spasticity in patients with symptomatic claw toes. 2. assess if regular stretching exercise can strength the efficiency of BTX-A injection on improving lower extremities function, pain and spasticity.
The investigators are trying to determine the therapeutic effect of the music glove and conventional hand exercise program to the subacute stroke patients. All participants will be randomized into two groups: AB and BA. They will all exercise at least 3 times a week for 3 weeks with a minimal 3 hours exercise time per week. Participants will receive the other intervention at 3-month post stroke date. Clinical evaluations will be performed at baseline, post therapy after first intervention, 3-week post intervention follow up, 3-month post stroke, post therapy after second intervention, 3-week post second intervention follow up, and 6-month post stroke follow up visits.
To evaluate the efficacy and safety of embolic protection devices to reduce ischemic brain injury in patients undergoing surgical aortic valve replacement (AVR).
The purpose of this research study is to improve methods for evaluation of brain changes during motor learning for patients with stroke, who have difficulty performing daily tasks with their arm and hand. The methods for evaluation of brain changes will consist of the combination of magnetic resonance imaging (MRI) and electroencephalography (EEG).
This is a multicenter, double-blind, randomized, placebo-controlled study designed to compare Botulinum Toxin Type A for Injection (HengLi®) with placebo on the efficacy and safety of treatment in post-stroke subjects with focal wrist, finger and in some cases, thumb spasticity. Approximately 180 subjects will be enrolled. The core period of the subjects will receive a single treatment session of intramuscular HengLi® 200U or 240U (if thumb spasticity is present) or placebo in a randomization ratio of 2:1. Research contains two parts: core phase and extension phase. In the core phase, subjects will finish 6 visits (12 weeks ) after initial injection. During the extension phase, subjects will accept two follow-up visit (6 weeks). Outcome measures include changes from baseline at every post injection visit as measured on the Modified Ashworth Scale (MAS), Disability Assessment Scale (DAS) and Global Assessment Scale(GAS). The primary efficacy endpoint is the change from baseline at week 6 for wrist flexor muscle tone as measured on the Modified Ashworth Scale. Safety parameters will also be measured including adverse events, vital signs (pulse and blood pressure) and clinical laboratory tests (haematology, serum chemistry and urinanalysis).
We hypothesize that (1) the hybrid therapy will induce greater improvements on some health-related outcomes compared to other therapies; (2) such benefits will retain at 6-month follow-up; (3) better motor control and brain reorganization will be found in the hybrid therapy than the other therapies; (4) correlations will be found between brain activity and movement kinematics/health-related outcomes.