View clinical trials related to Ischaemic Stroke.
Filter by:This study aims to establish a multicenter, large-scale, prospective cohort of patients with ischemic stroke. Various biological samples such as blood, feces, and urine are collected to identify biomarkers associated with ischemic stroke. By integrating demographic information, clinical indicators, imaging parameters, and biomarker parameters, the study aims to develop risk assessment, early warning, and prognosis prediction models. Additionally, the study aims to identify key genes and explore relevant signaling pathways related to ischemic stroke.
A non-interventional post-approval study on Safe Implementation of Treatment in Stroke - International Stroke Thrombolysis Register (SITS-ISTR) existing data of intravenous recombinant tissue plasminogen Activator (rt-PA) (0.9 mg/kg) in acute ischaemic stroke patients over 80 years, treated according to the Summary of Product Characteristics (SmPC) in European countries.
When to start anticoagulation in patients with an acute ischaemic stroke and atrial fibrillation (AF) is a relevant unanswered question in clinical practice. Direct oral anticoagulants (DOACs) are highly effective for secondary stroke prevention in these patients, but DOACs were never initiated <7 days after stroke onset in recent trials. The ELAN trial will determine the net benefit of early versus late initiation of DOACs in patients with acute ischaemic stroke related to AF. The main objective is to estimate the net benefit of early versus late initiation of DOACs in patients with acute ischaemic stroke related to AF. The secondary objectives are to assess all vascular events and all-cause mortality after early initiation of DOACs in patients with acute ischaemic stroke related to AF compared to late initiation.
Cerebral autoregulation is an important mechanism whereby cerebral perfusion is normally maintained at a constant level, over a relatively wide blood pressure range. It can be assessed noninvasively by the use of Trans Cranial Doppler (TCD). This means using ultrasound probes over both sides of the head to measure changes in blood flow in one of the main brain arteries (the middle cerebral artery) in response to beat to beat changes in blood pressure dynamic cerebral autoregulation (dCA). It is established that dCA is impaired following moderate to severe stroke, acting as a key role in the development of secondary brain damage related to brain swelling and further damage related to low blood flow. The administration of clotbusting therapy (thrombolysis), one of the main approved treatments of acute ischaemic stroke (AIS), results in recanalization of the blocked artery in over approximately 50% patients. However, due to its clot dissolving property, it may increase the risk of bleeding in the body, especially in the brain, leading to greater disability or even death. To date, there has been very little information regarding the natural history and prognostic significance of impaired Cerebral Autoregulation during and following reperfusion, especially those who receive thrombolysis. This research will use the noninvasive technique of Trans Cranial Doppler (TCD) to see how blood flow changes in AIS patient at the initiation and completion of thrombolysis, and during acute, subacute and chronic phase post stroke onset, compared with those AIS patient who did not receive thrombolysis. This study will provide important data regarding perithrombolysis blood pressure management, an important and common clinical dilemma
Stroke affects over 125,000 people each year in the UK and leaves at least 50% disabled. Treatment of stroke caused by a blockage in a blood vessel (ischaemic stroke), with clotbusting drugs improves the chances of good recovery, but must be given within 4.5 hours of onset. Currently only a small proportion of patients who arrive in hospital within 4.5 hours are treated. This is largely due to uncertainty about diagnosis and concerns about risk of bleeding associated with clotbusting medication. Patients with mild or improving symptoms in particular are often not treated because of uncertainty about relative risks and benefits. However, around one third of these patients go on to be significantly disabled. Routine CT scanning often does not show abnormalities in acute stroke (which take hours to become easily visible), and cannot show the extent or severity of blood flow changes in ischemic stroke. We wish to investigate the value of additional CT scanning that gives information on the blood vessels (angiography, CTA) and blood flow to the brain (perfusion, CTP) by undertaking a randomised trial. Extra scans are done in the same scanner and involve some extra radiation, injections of a contrast dye, and some extra time to acquire process and interpret. The extra scans may allow better treatment decisions for patients by increasing diagnostic certainty and by better assessment of stroke severity. However, we do not know whether the potential gains from better selection justify the resources and potential treatment delays that are involved. We will investigate whether the proportion of patients given clotbusting drugs differs between the two scanning protocols; and whether the outcomes differ, using standard measures of disability. We will also investigate whether use of different scanner manufacturers' software affect interpretation of scans.
Stroke and dementia are two of the most common and disabling conditions worldwide, responsible for an enormous and growing burden of disease. There is increasing awareness that the two conditions are linked, with cognitive impairment and dementia common after stroke, vascular dementia accounting for about one-fifth of all dementia cases and recent evidence on the contribution of vascular risk factors to Alzheimer's disease. Yet little is known about whether brain volume loss - a hallmark of dementia - occurs after stroke, and whether such atrophy is related to cognitive decline. The aim of this research is to establish whether stroke patients have reductions in brain volume in the first three years post-stroke compared to control subjects, and whether regional and global brain volume change is associated with post-stroke dementia in order to elucidate potential causal mechanisms (including genetic markers, amyloid deposition and vascular risk factors). The hypotheses are that stroke patients will exhibit greater brain volume loss than comparable cohorts of stroke-free controls, and further, that stroke patients who develop dementia will exhibit greater global and regional brain volume loss than those who do not dement. An understanding of whether stroke is neurodegenerative, and in which patients, may be used to help guide the early delivery of disease-modifying therapies.
Purpose 1. To validate 2 -day loop recording ( R.Test Evolution 4 ) to 2 -day Holter recording (gold standard) for the detection of atrial fibrillation of ≥ 30 seconds duration in a consecutive population of patients with stroke or transient ischemic attack (TIA). 2. To determine whether short run of atrial fibrillation (< 30s ) or the presence of many supraventricular extrasystoles detected on Holter recording, is associated with risk of re-stroke in a consecutive population of patients with stroke or TIA . 3. To test whether a 7-day Loop Recording (R -test) detects more patients with atrial fibrillation than 2 days of Holter recording in a consecutive population of patients with stroke or TIA.
Recurrent stroke and cognitive decline are common after ischaemic stroke. Allopurinol, a drug usually used to treat gout, has been shown to reduce heart ischaemia, heart size, and arterial stiffness and to relax brain blood vessels and may reduce the blood pressure. All of these properties may be associated with a lower risk of second stroke and cognitive decline. We now aim to explore whether allopurinol will reduce further damage to the brain (called white matter hyper-intensities) after stroke and also whether it reduces heart size and blood pressure after stroke. We will conduct a multi-centre randomised, double-blind placebo controlled study to investigate whether two years allopurinol 300 mg twice per day (BD) improves these 3 outcomes, which are inextricably linked to risk of recurrence and cognitive decline after ischaemic stroke.
The primary aim of this Phase II trial is to determine whether it is sufficiently likely that CTX DP treatment at a dose level of 20 million cells improves the recovery in the use of the paretic arm in acute stroke patients to justify a subsequent larger prospectively controlled study. This study will evaluate the safety and efficacy of intracerebral CTX DP at a dose level of 20 million cells in patients with paresis of an arm following an ischaemic middle cerebral artery (MCA) stoke. Eligible patients will have no useful function of the paretic arm a minimum of 28 days after the ischaemic stroke (a modified NIH Stroke Scale (NIHSS) Motor Arm Score of 2, 3 or 4 for the affected arm).
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: 1. Control occupational therapy + pharmacotherapy for 2 weeks 2. Assisted Virtual-Reality physiotherapy + pharmacotherapy for 2 weeks