View clinical trials related to Cerebrovascular Accident.
Filter by:The purpose of this study is to determine if an "intentional act" improves treatment response for patients with nonfluent aphasia. The treatment involves naming pictures and saying members of categories. The "intentional act" requires initiating picture naming or category member trials with a left-hand movement sequence. Nonfluent aphasia is a disorder of language production in which patients with damage to the brain's language system have trouble initiating and maintaining spoken communication. All patients participating in the study take part in functional MRI scans to determine how treatments affect brain systems.
High blood pressure is one of the most common health problems in the United States. There are many medications to treat high blood pressure, but there is a large variance in how people respond to these medications. It is believed that genetic variations may contribute to the inconsistent treatment response. This study will use genetic analysis to determine whether particular genes interact with high blood pressure medications to modify the risk of certain cardiovascular diseases.
German stroke units are hesitating to use Aggrenox for secondary ischaemic stroke / transient ischaemic attack (TIA) prevention in a sub-acute treatment setting. They argue that clinical experience with sub-acute Aggrenox treatment is limited and poorly documented when compared with sub-acute acetylsalicylic acid (ASA) treatment. However, long term treatment (started after 3-6 months after stroke/TIA) with Aggrenox was safe and superior to ASA treatment in preventing recurrent strokes. There is no evidence for ASA to prevent from neurological progression after stroke during the first 3 months. Results from a cohort study suggest that starting Aggrenox within 72 hours after stroke predicts clinical improvement in the National Institute of Health Stroke Scale (NIHSS) at discharge from the hospital. Dipyridamole suppresses acute inflammatory responses to stroke. This study is designed to investigate the tolerability and efficacy of a secondary stroke prevention treatment with Aggrenox when initiated within 24 hours of stroke onset on a stroke unit compared to later initiation after a 7 day ASA treatment and outside off a stroke unit setting.
The purpose of this study is to determine whether a painless and noninvasive procedure called transcranial direct current stimulation (tDCS) combined with a method of physical therapy called constraint-induced movement therapy improves motor function in patients with chronic stroke. Research in healthy subjects has shown that when tDCS is combined with motor learning tasks, there is an increase in learning as compared to motor learning tasks only. The tDCS procedure sessions will be compared to sham (fake) procedure sessions, which is also called placebo stimulation. This study is double blind, which means neither the subjects nor researchers analyzing motor function will know if participants are receiving real tDCS stimulation or placebo. Only the person performing the procedure will know which one participants are receiving. Only by comparing the tDCS procedure to a sham (placebo) procedure can we understand if the tDCS actually improves motor function. We hypothesize that tDCS will enhance the effects of constraint-induced movement therapy on motor recovery in chronic stroke patients.
The purpose of this study is to determine whether intra-arterial rt-PA within 6 hours from an ischemic stroke onset, compared with intravenous infusion of the same drug within 3 hours, increases the proportion of independent survivors at 3 months.
The study is designed to determine whether vorapaxar, when added to the existing standard of care (SOC) for preventing heart attack and stroke (eg, aspirin, clopidogrel) in participants with a known history of atherosclerosis, will yield additional benefit over the existing standard of care without vorapaxar in preventing heart attack and stroke. The study is also designed to assess risk of bleeding with vorapaxar added to the standard of care versus the standard of care alone.
Adults who sustain brain damage due to stroke, traumatic injury or surgery may develop difficulty finding words. This study compares the effectiveness of two behavior-based programs to improve picture naming ability in these individuals.
Stroke is a major cause of morbidity in western society, and an infrequent complication of cardiac surgery. The majority of thromboembolic strokes arise from the left atrium, in particular the left atrial appendage. This study aims to assess the short-term effects of left atrial appendage ligation in terms of postoperative clinical and biochemical parameters; and the long-term effects of left atrial appendage ligation in terms of stroke incidence.
This study will examine how the brain rewires itself to make up for the lack of movement many people with stroke experience. It will try to determine if the rewiring differs depending on the location of the stroke and the amount of time since the stroke occurred. For some stoke patients, weakness may persist, while others recover completely after time. It is not known which parts of the brain are involved in the recovery of different types of stroke and if the type of stroke affects recovery. People 18 years of age and older who have had subacute thromboembolic or hemorrhagic stroke more than 3 months before enrolling may participate in this study. Participants come to the NIH Clinical Center three times every 2 years for up to 10 years. At the first visit, patients have a neurological examination and perform tests of motor abilities such as lifting small objects, turning cards, using a spoon, stacking checkers and lifting cans during a short period of time as rapidly as possible. At the second visit, subjects have structural magnetic resonance imaging (MRI) scans of the brain. MRI uses a strong magnetic field and radio waves to obtain images of body organs and tissues. The MRI scanner is a metal cylinder surrounded by a strong magnetic field. During the scan, the subject lies on a table that can slide in and out of the cylinder, wearing earplugs to muffle loud knocking noises associated with the scanning process. Total scan time is about 30 minutes At the third visit, subjects perform some simple movement tasks during functional MRI (fMRI) scans. The procedure is the same as with structural MRI, except that subjects are asked to perform simple movement tasks in the scanner. Before the fMRI scans, electrodes are attached to the subject's arms and legs to monitor muscle activity (surface electromyography). Total scan time is about 1.5 hours. Movement tasks might include pinching a force-measuring instrument with the fingers, pressing different keys on a keyboard as fast as possible, inserting pegs into small holes on a board, lifting weights, flipping cards or similar activities.
This is a study to confirm the superior efficacy of GSK1358820 over placebo in patients with equinus deformity associated with post-stroke lower limb spasticity using the Modified Ashworth Scale (MAS) ankle score.