View clinical trials related to Cerebrovascular Accident.
Filter by:This research investigated the heart rate variability (HRV) and stroke patients' orthostatic hypotension in hospitalized stroke patients accompanied with dizziness at varied tilting angle controlled by tilting table with intelligent biosensor.
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).
The goal of this project is to test a device (Zondervan et al, 2013) that can provide active assistance for arm training for people in Vietnam with severe to moderate stroke, but that is also simple and does not rely on powered actuators. The hypothesis is that individuals with a severe chronic stroke, who exercise with a mechanically passive rehabilitation device, will have improved arm movement ability without experiencing an increase in arm pain.
The main purpose of this study is to examine the treatment effects and the combined-therapy of the robot-assisted therapy (RAT) by using two groups of combined-therapy with different sensory feedback and one group of unilateral RAT in the investigators trial to compare the relative treatment effects to mirror therapy group, bilateral RAT, and conventional rehabilitation (CR) considering motor ability, basic daily functions, mobility, quality of life, and kinematic variables.
It has been found that arm and leg cycling is similar to walking. Thus, the objective of this research is to determine if arm and leg cycling can be used to improve walking ability in a post-stroke population. This outcome would directly impact the health and quality of life for those who have suffered a stroke.
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.
The investigators hypothesized that bilateral handgrip force training would result in significant improvements in paretic hand, arm movements and daily functional performances. In order to investigate whether the improvement of paretic hand could facilitate the motor recovery of paretic arm and functional performances, the investigators also hypothesized that motor recovery and functional performances improvements of paretic arm and hand have strongly correlation.
The purpose of this study is to examine the efficacy of a lifestyle modification telehealth program on health-related behaviours in community-dwelling individuals living with stroke.
Among patients admitted with cerebral ischemia (stroke and transitory ischemic attack (TIA)) it is important to reveal the underlying cause of the disease. In special it is important to reveal if carotid artery stenosis is present as such a finding will directly influence on treatment and follow-up. For the diagnosis of carotid artery stenosis due to atherosclerosis ultrasound examinations is the cornerstone, but computer tomography and magnetic resonance imaging may be better in some cases. Development of high quality pocket-sized ultrasound scanners has allowed for semi quantitatively bed-side assessment of the carotid arteries and the heart. The investigators aim to study the feasibility and reliability of bed-side assessment of the carotid arteries and the heart by pocket-sized ultrasound scanners and the clinical influence of this examination when performed by experienced users. The investigators hypothesize that a significant proportion of this patient population can be clarified bed-side with no need of further imaging procedures for the assessment of the carotid arteries and the heart.