View clinical trials related to Stroke.
Filter by:The clinical and radiological data of patients with an acute ischemic stroke treated with intravenous thrombolysis (IVT) or intraarterial thrombolysis (IAT) in a Swiss stroke unit are assessed in a Swiss Multicenter Thrombolysis Registry. Like in clinical routine, a clinical evaluation takes place in a 3-months follow-up. Furthermore quality of life is assessed with a standardized questionnaire. The aim of the registry is to compare the safety and efficacy of IVT and IAT in patients with acute ischemic stroke. The registry also helps to improve in-hospital-management of stroke patients.
The primary study objective is to assess the feasibility of using the MindFrame System to safely and effectively restore blood flow in a thrombotic neurovascular occlusion in patients experiencing an ischemic stroke.
1. Circulating bone marrow and blood vessel precursors home in to sites of ischemia and aid regeneration of injured tissue 2. Increasing the number of circulating precursors will improve in regeneration of damaged brain following ischemic stroke.
This study will be conducted in male and female subjects aged 18 to 80 years, inclusive, with non-valvular AF and a CHADS2 Score of at least 1. Subjects will be treated on an outpatient basis. The subjects will be allocated randomly to the open-label warfarin or any double-blind DU-176b dosages. DU-176b will be administered orally for 12 weeks at two fixed doses. Warfarin will be used as active control. Warfarin dosing will be managed and monitored by the Investigator with the dose adjusted to achieve an INR of 2.0 to 3.0, inclusive. The primary endpoints are incidence of major, clinically relevant non-major and minor bleeding events (all bleeding).
This study involves treating patients that have suffered an acute ischemic stroke with the medication donepezil (Aricept ®). The hypothesis is that taking donepezil (FDA-approved for the treatment of Alzheimer's Disease) for the first 90 days following a stroke enhances recovery.
The aim of this study is to determine whether optimal medical treatment can postpone carotid endarterectomy.
The purpose of this study is to determine the safety, tolerability, and to explore the possible benefit of extended-release niacin (Niaspan®) in attempting to improve the recovery of patients after ischemic stroke.
The overall aim of the proposed study is to determine whether whole body vibration is beneficial in promoting bone turnover, physical fitness and neuromotor performance in patients with subacute stroke.
The purpose of this study is to determine whether a non-painful, non-invasive, brain-stimulation technique called transcranial direct current stimulation (tDCS) combined with traditional physical-occupational therapy (OT) will improve motor function in patients with chronic stroke. The aim is to determine the effect of applying real (anodal and/or cathodal) - in a dual configuration - vs sham (pretend) tDCS to the motor brain regions on both hemispheres - in a dual configuration - to improve motor function in chronic stroke patients. Our research in normal subjects has shown that motor skills can be enhanced if tDCS is applied to the brain's motor region during motor learning. The effects after a single session of tDCS can last for up to 30 minutes, effects of multiple sessions (one session per day) can last for weeks. Furthermore, single sessions of tDCS applied to the motor regions in stroke patients have shown that improvements in motor functions can be seen and that effects may last for at least 30 minutes. Patients enrolled in this trial will be randomized to receive either real tDCS or sham tDCS in combination with PT-OT once a day for 5 days. Assessments will be done about 3 days and 7 days after the end of the experimental treatment by investigators who are blinded to the intervention. Patients are also blinded as to whether they are receiving real or sham tDCS. We hypothesize that real tDCS applied to the motor regions in combination with PT-OT results in a subsequent improvement in motor function of the recovering hand over sham tDCS in combination with PT-OT.
Stroke, the most common cause of permanent disability, the second most common cause of dementia and third most common cause of death, has tremendous socio-economic consequences. Currently, systemic thrombolysis with the tissue plasminogen activator represents the only causal and approved treatment for acute ischemic stroke. However, the chances to save the brain tissue by a thrombolytic therapy exponentially decrease with proceeding time after onset of symptoms. In most cases, the beginning of the thrombolysis therapy is delayed by a variety of factors, like delivery to the hospital, re-examinations and delay of blood analysis or of CT scans. Due to this, a thrombolytic therapy is possible only in a minority of the stroke patients (2-5 %). The aim of this study is to investigate whether a "Mobile Stroke Unit", a rescue car with an integrated CT scanner, necessary for essential diagnostics, contributes to a better stroke management by saving precious time until a therapeutic decision is made. The trial is planned as a monocentric, randomised prospective trial.