Active clinical trials for "Stroke"

The goal of this study is to develop a novel study design to safely and ethically conduct a long-term randomized controlled trial among patients at high risk for both sleep apnea and cardiovascular events that will examine whether effective positive airway pressure(PAP) therapy reduces cardiovascular risk. Patients with transient ischemic attack(TIA) or stroke have a high prevalence of sleep apnea(60-80%), and they are at high risk of cardiovascular events(myocardial infarction, congestive heart failure, recurrent stroke, and cardiovascular death)in the first year post event, despite current prevent strategies. Therefore, the treatment of sleep apnea may represent a novel therapeutic target to reduce cardiovascular outcomes in this high risk population.

The aim of this trial is to provide evidence that Actovegin has a symptomatic effect in subjects with post stroke cognitive impairment (PSCI) during a six month treatment period compared to subjects administered placebo. Subjects received IV infusions whilst in hospital, and tablets once discharged. Subjects were followed up for a further six months after their treatment had been stopped to explore if the cognitive symptoms of the subjects treated with Actovegin showed sustained improvement. The trial also explored the possible prevention of dementia with Actovegin in patients who had suffered a recent ischaemic stroke, as well as the effect of Actovegin on other stroke outcomes. Safety information on Actovegin was collected.

Patients with cerebral hemorrhage (ICH) have a high risk of venous thromboembolism. Intermittent pneumatic compression combined with elastic stockings have been shown to be superior to elastic stockings alone in reducing the rate of asymptomatic deep vein thrombosis after ICH in a randomized trial (4.7% vs. 15.9%). Graduated compression stockings alone are ineffective in preventing deep vein thrombosis in patients with ischemic or hemorrhagic stroke. Less clear is the role of anticoagulation in the prevention of venous thromboembolism in patients with ICH because the use of anticoagulants may cause an enlargement of the hematoma. In a multicenter, randomized trial, the investigators will assess the efficacy and safety of enoxaparin in the prevention of venous thromboembolism in patients with spontaneous intracerebral hemorrhage. Enoxaparin (40 mg once daily) or standard therapy (graduated compression stockings and/or intermittent pneumatic compression and/or early mobilization) will be given subcutaneously for not less than 10 days beginning after 72 hours from stroke onset.

The primary objective of this study is to evaluate the efficacy of PG2 Injection 500 mg versus placebo, administered intravenously within 3-6 hrs of stroke onset to patients with an acute ischemic stroke, as determined by Modified Rankin Scale (mRS) score at Day 90. The secondary objectives are as follows: To evaluate the efficacy of PG2 Injection 500 mg versus placebo as determined by Barthel Index (BI) score at Day 90. To evaluate the efficacy of PG2 Injection 500 mg in reducing the risk of recurrent stroke, cardiovascular events and death of all causes. To evaluate the safety of PG2 Injection 500 mg treatment

The goal of this study is to determine robotic hand system is more effective than conventional physical and occupational therapy at promoting functional recovery of the affected arm in subjects after stroke.

The present proposal aims to assess whether a combined rehabilitation approach using virtual reality based therapy with motivational feedback, levodopa for pharmacotherapy and standard rehabilitative occupational therapy and physiotherapy will lead to signifcantly better outcomes for stroke recovery. It is a randomised controlled trial with blinding of the assessors only. It will be preceeded by a Phase 1 pilot trial of the VR physiotherapy and standard therapy only. Recruited in-patient rehabilitation ward patients who have recently suffered stroke will be randomized, through a computer-based random number generator, to either one of two treatment arms: Control occupational therapy + pharmacotherapy for 2 weeks Assisted Virtual-Reality physiotherapy + pharmacotherapy for 2 weeks

The purpose of this study is to determine whether the combination of low frequency repetitive transcranial magnetic stimulation (rTMS) and motor-imagery-based brain computer interface (BCI) training is effective for enhancing motor recovery after stroke. The PI's hypothesis is that, in comparison with traditional physical therapy alone, subjects receiving supplementary rTMS and BCI training will show greater functional improvements in hand motor ability over time as well as recovery of normal motor connectivity patterns.

To aim of this study is to establish the feasibility of undertaking a phase III trial of transcutaneous posterior tibial nerve electrical stimulation (TPTNS) to alleviate stroke-related urinary incontinence.

The aim of the project is to assess whether the continuous visualization of on-line teacher in virtual reality (VR) is effective for the improvement of upper limb motor function, in stroke patients.

In this study investigator's aim to assess the effect of a type of non-invasive brain stimulation technique called repetitive transcranial magnetic stimulation (rTMS) in conjunction with fluoxetine on motor recovery after stroke.