View clinical trials related to Stroke.
Filter by:The purpose of this study is to examine if practicing joint movements using specially designed devices can help in the recovery of muscle function in the arm/hand after a stroke. Subjects may qualify for participation in this study because they had a stroke and have had difficulty using their affected arm/hand ever since.
Quantifying Collateral Perfusion in Cerebrovascular Disease-Moyamoya disease and stroke patients
Visual field areas, which are not absolutely blind, are hypothesized to have some residual capacities that constitute their potential for vision restoration. Vision restoration can be achieved by varies methods including behavioral training and electrical brain stimulation such as transcranial direct current stimulation (tDCS) and repetitive transorbital alternating current stimulation (rtACS) which are able to influence the excitability and activity of cortical areas. It is hypothesized that transorbital alternating current stimulation (tACS) can improve the residual field of vision in patients with post-chiasmatic lesions.
In literature review, thermal stimulation (TS) intervention is effective in facilitating upper extremity functional recovery in stroke patients. In addition, several functional MRI studies have indicated that thermal stimuli promoted activation in the premotor and motor cortices of healthy participants. These imply the possibility of TS in cortical reorganization. However, there were no studies exploring the relationship of the TS intervention and cortical reorganization. By the functional recovery of stroke patients, findings of brain image and brain mapping, it could enhance the understanding the TS influences on brain reorganization. Regarding with clinical application of the TS intervention for improving functional performance of upper extremity in participants with stroke, the best parameters of TS intervention in clinical practice have not been decided. Therefore, this five-year study recruited three groups of stroke patients (acute, sub-acute, chronic) undergoing TS intervention with different parameters. Functional scales, kinematic data, brain image were taken in several timelines as outcome measures.
This is a cluster randomized controlled trial in which client-centered rehabilitation of activities of daily living (CADL) will be compared to usual rehabilitation of activities of daily living (UADL) regarding participation in activities of daily living, independence in activities of daily living and life satisfaction during the first year after stroke. In addition use of health services, caregiver burden and significant others' life satisfaction will be studied. Study design, methods and power analysis are based on our previous pilot study. Participating rehabilitation centers in the counties of Stockholm, Uppsala and Gavleborg have been randomized to supply CADL or UADL. Patients are included who are: < 3 months after stroke, dependent in at least two activities of daily living, understand instructions and referred to a participating rehabilitation unit. Data are collected at baseline, 3, 6 and 12 months. For sufficient power 280 participants will be included. In addition qualitative longitudinal studies will be performed in order to describe how CADL is integrated.
Intracerebral hemorrhage (ICH) occurs when small arteries in the brain rupture due to weakening by age, high blood pressure, and/or elevated cholesterol. In addition to artery rupture, recent data suggests that patients with ICH are also at risk for developing occlusion of arteries during the acute phase, called ischemic strokes. Data suggests these ischemic strokes can negatively impact patient outcomes. Diffusion weighted imaging (DWI) is a sequence on Magnetic Resonance Imaging (MRI) that is a sensitive marker for ischemic strokes in the brain. In this proposal, our primary aim is examine prospectively the effect DWI abnormalities have on functional outcomes in patients with ICH. Our hypothesis is that the DWI abnormalities found on MRI of the brain lead to worse functional outcomes in patients with ICH
This is the first phase of a study that will investigate the effects that different approaches to physiotherapy have on the expression of associated reactions. During this phase, current practice among neuro-physiotherapists will be explored in relation to: the learning strategies used in stroke rehabilitation, the common interventions used in gait re-education, and the strategies adopted for the assessment and management of associated reactions.
More than half of individuals post-stroke have residual movement disabilities, including reduced mobility, balance, and increased risk of falling. There is a need for innovative, long-term and economically-feasible interventions for those with chronic stroke. Recently, a focus has been placed on the use of virtual reality and interactive gaming as a low cost and effective manner of treating movement disorders. Yet few studies have investigated interactive gaming platforms effect on balance following stroke. The proposed study is a randomized, single-blind, control group cross-over study for individuals with chronic stroke designed to examine an innovative therapeutic approach by investigating the effects of commercially-available gaming systems on balance, mobility and fear of falling in a sample of individuals with chronic motor deficits following stroke.
This study aims to test whether repeated sessions of tDCS result in long-lasting improvements in motor function in patients with chronic stroke.
Carotid artery stenting (CAS) with cerebral embolic protection is the preferred treatment for narrowing of the carotid arteries in patients at high risk for open surgery. Special devices are used to protect the brain from particles(emboli) that may break off when the narrowing or blockage is cleared during the angioplasty and stenting procedure. Although filters are most frequently used, protection systems consisting of balloons and flow reversal are also available for cerebral embolic protection. However, there is little information about the effectiveness of filters compared with balloons and flow reversal for prevention of embolization during CAS. The aim of our study is to address this major problem. Our study was designed to answer two specific questions: First, the study will investigate whether balloon-based protection systems are more effective than filters in reducing the amount of particles that break off and travel to the brain during CAS. For this purpose two imaging techniques will be used: magnetic resonance imaging of the brain (MRI), and transcranial doppler (detection of microparticles in the small brain vessels using ultrasound). Second, it will be investigated whether the use of balloon-based protection devices are more effective than filters for prevention of stroke, heart attacks, and death after carotid stenting. The results of the study will provide important information to find out the best way to protect the brain from plaque fragments that may break off during CAS.