View clinical trials related to Stroke.
Filter by:This is a research study to understand how people who have experienced a stroke walk in order to develop better and more effective types of therapy. Data collected from people who have experienced a stroke and healthy individuals will be used to compare a neurologically healthy person to someone, which has sustained an injury.
This is a prospective study including acute ischemic stroke patients aged 18 to 90. Multidetector raw CT is performed in acute ischemic stroke patients. Heart, neck vessels and brain arteries are studied during the same acquisition. Results are compared with the standard methods including transesophageal echocardiography (TEE), Doppler ultrasound (DUS) and MR angiography (MRA) of neck vessels. The main criteria is the ability of CT to classify the stroke etiology correctly according to the TOAST classification in comparison with the standard methods.
The purpose of this study is to refine and evaluate the Preventing Recurrence of Thromboembolic Events through Coordinated Treatment in the District of Columbia (PROTECT DC) intervention. PROTECT DC is a program consisting of in-hospital education coupled with community-based "stroke navigators" and is designed to reduce the rate of vascular events or death in a population of underserved individuals with stroke.
The specific objectives of this thesis are in a cohort of patients with an acute ischemic stroke, 1. To establish the degree of coronary arteriosclerosis. 2. To describe left ventricular systolic and diastolic function in relation to changes of NT-proBNP.
The primary objective is to explore the safety of low doses of oral levosimendan in patients with recent history of an ischaemic cerebrovascular event (stroke or TIA). The main focus will be on the evaluation of proarrhythmic potential of the different dose regimens.
This study will determine the safety and efficacy of transcranial magnetic stimulation (TMS) in treating acute ischemic stroke (stroke resulting from a blood clot in the brain). TMS was found to be effective and safe in the set up of depression. TMS acts by generating magnetic fields in the brain which simulate neuro-chemical changes and stimulate neuronal activity translating into increased secretion of growth factors such as brain derived neurotrophic factor (BDNF). This is followed by positive effects of these growth and survival factors on neuronal sprouting, re-organization and also potentially on neurogenesis. Hence it is postulated that TMS will have a positive effect on the recovery rate and extent of recovery after stroke. Brainsway innovative project involves the development and use of deep Transcranial Magnetic Stimulation in humans to treat a host of behavioral disorders, including depression and addiction. Brainsway developed a novel coil design for stimulation of deep structures in the human brain and conducted several safety and efficacy studies and recently completed a large study (70 subjects) demonstrating effectiveness in depressive patients. Deep TMS produces directed electromagnetic fields that can induce excitation or inhibition of neurons deep inside the brain. The treatment is non-invasive, with no significant side effects, and no need of hospitalization or anesthesia. Consistent with animal studies using brain stimulation deep TMS of the prefrontal cortex was found to exert potent antidepressant effects on patients not previously responsive to antidepressant drugs in two different studies. Therefore, it is expected that TMS will also be safe in patients with stroke. Patients between 18 and 80 years of age who have had a mild or moderate acute stroke may be eligible for this study. Candidates will be screened with a medical history and physical examination, blood tests, rating of neurological deficits such as cognition deficits or problems walking that resulted from the stroke, and a computed tomography (CT) or a magnetic resonance (MRI) scan of the head. CT involves the use of specialized X-rays and MRI involves a magnetic field to obtain images of the brain. All participants will receive standard medical and rehabilitation therapy for stroke. In addition, patients recruited for the study will receive x sessions of TMS with the Brainsway device delivered over the motor strip of the affected hemisphere. Each session will last for y minutes. Sessions will begin on day 3 after stroke onset and will be given on an alternate day basis for 14 days (7 treatments). Patients will be monitored daily until discharge from the hospital, or until day 17, whichever is earlier. Assessments will include physical examinations and safety evaluations including blood tests to and MRI or CT scans to evaluate both the response to treatment and side effects if needed. Patients will return for a follow-up examination 30 and 90 days after treatment conclusion to evaluate their recovery rate and functional status.
The study sought to assess the rate of recurrent stroke and death in stroke patients with a patent foramen ovale randomized to treatment with warfarin or aspirin. This was a multicenter study conducted at 48 U.S. Institutions.
The purpose of the study is to use diffusion tensor imaging (DTI) derived axial diffusivity and susceptibility weighted imaging (SWI) to evaluate the severity of acute ischemic stroke and to predict its functional outcome.
To identify the circumstance during decision making processes to seek medical help in patients with symptoms of acute ischemic stroke.
Letigen® was a combination drug containing ephedrine, an adrenergic agonist with lipolytic and appetite-inhibiting properties. The drug was used as adjuvant treatment of obesity from 1990 and up to 2002 when it was withdrawn from the market by the manufacturer. The basis for this was a number of spontaneous reports about patients that died during treatment with Letigen®. The causal relation has never been addressed. There are only sparse data from randomised studies and the above-mentioned reports are not conclusive. We propose a controlled study based on data from Statistics Denmark that hold a complete copy of the Prescription Register of the Danish Medicines Agency and the Danish Hospital Discharge Register. The aim of the study would be to determine whether there is an excess frequency of deaths and serious cardiovascular events that can not be explained by particular characteristics of users of the drug. A well-known problem in such observational studies is a fundamental incomparability between users and non-users of drugs. In the present setting, it should be expected that use of Letigen® is associated with high BMI, smoking, alcohol abuse, type-2 diabetes, mild hypertension, low physical activity and other indicators of unhealthy lifestyle. Thus, an uncritical comparison between users and non-users of Letigen® regarding serious cardiovascular events will probably show an excess frequency that can not necessarily be attributed to the drug. This problem can be addressed by a special epidemiological technique - the case-crossover design - which is particularly robust to such comparability problems. In brief, only cases should be included. Controls are the same persons at an earlier time, , where the case-defining disease has not yet developed. The exposure of cases will be compared with the exposure of the same persons' case history. To account for the effect of chronic exposure, we also perform, as a secondary analysis, a conventional case-control study nested within the cohort of Letigen users, and employing a risk-set sampling technique.