View clinical trials related to Stroke, Acute.
Filter by:- Generate a dynamic mapping of the distribution of iodine within the cerebral parenchyma in the patient suspected of acute ischemic disorder with the CT spectral scanner. - Correlate the anomalies of iodine mapping to the other parameters acquired during the classic dynamic infusion phase to define the ischemic area (MTT higher and rCBV normal) versus infarcted zone (MTT higher and rCBV decreased)
Stroke is the 4th leading cause of mortality in Hong Kong. It also carries considerable socioeconomical consequences due to disability. Ischemic stroke can be classified by the TOAST classification, which includes large artery atherosclerosis, cardioembolism, small-artery occlusion and other causes (1). Among which, intracranial atherosclerosis (ICAS) had been major cause of acute ischemic stroke (AIS) in the Asia Pacific. It was estimated as high as 24.1% of AIS or transient ischemic attacks (TIAs) were attributed to ICAS in China (2). Management of ICAS related strokes has been challenging owing to its high rate of recurrence despite medical therapy. Recent randomized clinical trial suggested that aggressive medical therapy may result in reduction in recurrence compared with historical cohorts (3). Our group has previously observed a 2.5-fold increase in atrial fibrillation related stroke over a 15-year period (4). The inverstigator also observed a decline in ICAS related AIS as well as its recurrent stroke risk throughout the recent years. Possible mechanisms include better management of metabolic risk factors and aggressive secondary prevention. Other possible reasons are increased atrial fibrillation (AF), small vessel disease (SVD) or other stroke mechanisms. This study is aim to find the evolution of different stroke subtypes in relation to the characteristics of our stroke population over a 15-year period. This may influence territorial prevention strategy.
The proposed trial is a pragmatic, registry linked, prospective, randomized (1:1) controlled, open-label parallel group clinical trial with blinded endpoint assessment of 1600 patients to test if intravenous tenecteplase (0.25 mg/kg body weight, max dose 25 mg) is non-inferior to intravenous alteplase (0.9 mg/kg body weight) in patients with acute ischemic stroke otherwise eligible for intravenous thrombolysis as per standard care. All patients will have standard of care medical management on an acute stroke unit. There are no additional trial specific management recommendations. Patients will be followed for approximately 90-120 days.
Multicenter, randomized, placebo-controlled, double blind, phase 2b trial of acute stroke patients treated with mechanical thrombectomy (MT), in which two therapies are compared: rt-PA or placebo. Allocation at each center will account for 1 stratum: use of alteplase (yes vs. no) before MT. Subjects will be followed up to 90 days post-randomization.
This study will investigate the feasibility of using a finger food menu on an acute stroke rehabilitation ward. This study has a mixed methods design, with quantitative, qualitative and economic components which will be used to inform a future randomised control trial.
The objective of this Phase 1 trial is to assess the safety, tolerability and pharmacokinetics of AER-271 in health subjects.
A multicentre, ambulance-delivered, prospective, randomized, open-label, blinded endpoint (PROBE) study to assess the effects of hyperacute intensive blood pressure (BP) lowering initiated in ambulance setting on (i) functional outcome in patients with acute stroke (ii) safety in patients with confirmed acute stroke and other conditions that were initially suspected as acute stroke (i.e. stroke mimic).
The Virtual Reality Glove for Hand and Arm Rehabilitation (vREHAB) trial is a randomized, controlled, phase 3 trial aiming to evaluate the safety, usability, and efficacy of a virtual reality biofeedback system (Neofect RAPAEL Smart Glove) to promote recovery of distal arm and hand function in the acute and subacute period after stroke, as compared to standard of care therapy. The aims of the study is to demonstrate: 1. the effect of Smart Glove use on functional recovery, in addition to standard of care rehabilitation therapy. 2. the feasibility of increasing the dose of rehabilitation in acute stroke patients with the Smart Glove. 3. the effect of Smart Glove use on quality of life.
This study aims to determine safety and feasibility of non-invasive transcutaneous cervical Vagus nerve stimulation (nVNS) when delivered promptly after clinical diagnosis of acute stroke. Vagus nerve stimulation will be performed via GammaCore® device. A total of 60 patients will be randomized to each of 3 different groups; 'standard dose' vagal stimulation, 'high dose' vagal stimulation, and 'sham stimulation' (1:1:1 ratio). Adverse device events, serious adverse device events, and feasibility of vagal nerve stimulation at the setting of acute stroke will be evaluated. The study will be performed in a multi-center fashion among stroke centers within TurkStrokeNet Network.
Haemorrhagic stroke, an emergency caused by bleeding in the brain, often leads to death or long-term disability. A quarter of these patients are taking blood-thinning drugs (antiplatelet drugs, such as aspirin) because they are at risk of a heart attack or ischaemic stroke. Patients taking these drugs are more likely to die or be disabled if they have a haemorrhagic stroke. At present, there is no effective treatment for reversing their effects. Desmopressin is a drug which may reverse the effects of antiplatelet drugs and stop bleeding. The investigators would like to run a large randomised trial to see if Desmopressin can reduce the number of people who die or are disabled after haemorrhagic stroke.