View clinical trials related to Stroke.
Filter by:to detect the efficiency and safety of intravenous rtPA combined with RIPC in acute ischemic stroke patients
This trial aims at collecting standardized data concerning the early neurological clinical recovery of patients, 3 months after endovascular treatment of an acute ischemic stroke. Although this outcome is a major issue of patients' prognosis, it is rarely collected at this stage of their follow-up.
Previous studies suggested that both robot-assisted rehabilitation and non-invasive vagus nerve stimulation can improve upper limb function in chronic stroke patients. Aim of present study is to explore whether the combination of these two approaches might enhance their positive effects on motor recovery. Safety and efficacy of this combination will be assessed within a proof-of-principle, double-blinded, randomized, sham-controlled trial. Transcutaneous vagus nerve stimulation (tVNS) will be delivered at left ear, in order to improve the response to the following robot-assisted therapy. Patients with both ischemic and hemorrhagic chronic stroke will be randomized to robot-assisted therapy associated with real or sham tVNS, delivered for 10 working days. Change in Fugl-Meyer has been chosen as primary outcome, while changes in several quantitative indicators of motor performance extracted by the robot as secondary outcomes.
The overall aim is to identify key determinants for recovery of hand function after stroke by applying newly developed hand function measures together with MRI measurements of the lesioned cerebral structures.
The investigators design a randomized, control study to evaluate the therapeutic effect of scalp acupuncture using Jiao's motor area for motor dysfunction in ischemic stroke patients using the following outcomes: motor function, activity of daily living,quality of life.
This will be a prospective randomized 2 year study of patients admitted to the Hamad General Hospital (HGH) and the Stroke Prevention Clinic with a diagnosis of ischemic stroke (IS) and Transit ischemic attacks (TIAs). After signing of the informed consent forms and initial evaluation and investigations, all patients enrolled in the two arms ( study arm and control arm) of the study will be followed for one year (monthly visits for the first three months followed by visits three months until completion of study: total of 6 follow up visits) and the pre-specified investigations repeated at the one year follow up. In one arm (the control group), the patients will be offered best risk factor management strategies as currently being practiced by stroke specialists at HGH in Qatar. And in the second ( the subject group) arm, with assistance of a nurse-practitioner and pharmacist, the investigators will make aggressive attempts to meet "to target" defined risk factors and have the evaluations and investigations completed as in the initial year cohort. All patients will have risk factor stratification according the Framingham Risk Score (FRS) and the change in score measured over time.The primary objective will be to determine if an approach that utilizes a comprehensive strategy results in a significantly outcome. A clinically 'meaningful' difference in the blood pressure (BP) and lipid control of 10% between the aggressively managed versus patients treated with the standard of care will require minimum of 200 patients in each group (alpha error set at 0.05 and beta error at 0.20, power 80%) to be recruited over 1 year and followed for one year (total study duration 2 years). All patients will have screening magnetic resonance imaging (MRI) (including gradient echo (GRE) sequence), carotid 3D Doppler measurement of plaque volume, and PAD assessments, C-reactive protein (CRP) and evaluation for protein urea at baseline. These studies will be repeated in 1 year at the time of exit from the study. The co-primary objective would be to monitor progression (or regression) of plaque build-up on 3D Doppler imaging of the carotid arteries between the two cohorts. The investigators hypothesize that aggressive management of vascular risk factors to "recommended target levels" will lead to better vascular health. Compared to current practice, comprehensive and coordinated approach at preventive measures will lead to more patients with better control of blood pressure and lipid levels. Improved risk factor management will result in slowing of atherosclerosis and its downstream effects which will be measurable on sophisticated blood and imaging testing. Clinically this will translate into fewer hospital re-admissions.
In this study the investigators want to test the hypotheses that, serotonergic neuromodulation increases perilesional neuroplasticity, leading to improved behavioural outcomes through a more efficient allocation of functional resources, greater structural reorganization and less remapping via alternative circuits.
Stroke is a major cause of morbidity and mortality, especially in low and middle income countries including Iran. Patients with recent stroke or TIA are at high risk for new vascular events. Several evidence based strategies in secondary prevention of stroke are available but frequently underused. The study is aimed to evaluate an intervention to improve patients with Stroke.
Efficacy and safety of Neu2000, a multi-target drug designed to prevent both NMDA receptor-mediated excitotoxicity and free radical toxicity, will be investigated in acute ischemic stroke patients receiving endovascular treatment to remove clot within 8 hours following stroke onset. Neu2000KWL will be administered before endovascular treatment.
This randomized controlled trial investigates the effect of a single dose of glucagon-like peptide-1 (GLP-1) receptor agonist in the subacute phase of stroke in humans. The primary endpoint is the mean flow velocity in the middle cerebral arteries measured by transcranial doppler and cortical oxygination measured by near infrared spectroscopy (NIRS). The secondary endpoints are changes in endothelial/inflammatory biomarkers in the blood, changes in the ankle-brachial index and changes in the reactive hyperaemia index measured by EndoPAT2000.