View clinical trials related to Ischemic Stroke.
Filter by:The management of cerebral infarctions (CI) is a real public health issue. The French National Authority for Health recommends Mechanical Thrombectomy (MT) either in combination with Intravenous Thrombolysis (IVT), or alone, after failure of IVT or in case of contraindication to IVT, within 6 hours of the onset of symptoms. The objective is to determine the factors predicting good functional recovery at 3 months in order to establish the typical profile of the "good responder" patient to MT and to evaluate functional recovery at 3 and 12 months (mRS ≤ 2) according to the modality of MT (depending on whether it is performed during the day or at night), the age of the patients, the equipment used for MT, the type of anaesthesia, as well as the impact of the metrics from the radiological evaluation in the patient's management. patient management.
The overall goal of the DISCOVERY study is to better understand what factors contribute to changes in cognitive (i.e., thinking and memory) abilities in patients who experienced a stroke. The purpose of the study is to help doctors identify patients at risk for dementia (decline in memory, thinking and other mental abilities that significantly affects daily functioning) after their stroke so that future treatments may be developed to improve outcomes in stroke patients. For this study, a "stroke" is defined as either (1) an acute ischemic stroke (AIS, or blood clot in the brain), (2) an intracerebral hemorrhage (ICH, or bleeding in the brain), (3) or an aneurysmal subarachnoid hemorrhage (aSAH, or bleeding around the brain caused by an abnormal bulge in a blood vessel that bursts). The investigators hypothesize that: 1. The size, type and location of the stroke play an important role in recovery of thinking and memory abilities after stroke, and pre-existing indicators of brain health further determine the extent of this recovery. 2. Specific stroke events occurring in individuals with underlying genetic or biological risk factors can cause further declines in brain heath, leading to changes in thinking and memory abilities after stroke. 3. Studying thinking and memory alongside brain imaging and blood samples in patients who have had a stroke allows for earlier identification of declining brain health and development of individualized treatment plans to improve patient outcomes in the future.
Dexmedetomidine can attenuate the activity of the sympathetic nervous system under stress response and improve ischemia-reperfusion injury. The investigators hypothesized that the prolonged sedation of dexmedetomidine after successful reperfusion of endovascular thrombectomy may improve the clinical outcome of acute ischemic stroke patients.
This study is aiming to evaluate the efficacy and safety of Huatuo Zaizao pill in ischemic stroke patients who diagnosed as the phlegm and blood-stasis blocking collaterals syndrome in TCM. A total of 80 subjects will be randomly assigned to Huatuo Zaizao pill group or the control group.
Robot-assisted gait training (RAGT) represents a modern concept of neurorehabilitation in stroke patients. This single-center randomized parallel-group neurorehabilitation trial with blinded primary outcome assessment is aimed at patients after the first-ever ischaemic stroke in the anterior or posterior cerebral circulation.
The purpose of this study is to compare the effectiveness of a 4-week lower extremity telerehabilitation protocol with aims to improve lower extremity function to a 4-week attention-controlled education program on lower extremity clinical outcomes, quality of life, and healthcare resources utilization among community dwelling adults with stroke across Canada.
This study is designed to determine the efficacy and safety of Cerebrolysin treatment as an add- on therapy to mechanical thrombectomy (MT) in reducing global disability in subjects with acute ischemic stroke (AIS). The investigators have planned a single centre, prospective, open-label, single-arm study with 12 months follow-up of 50 patients with moderate to severe AIS, with a small established infarct core and with good collateral circulation who achieve significant reperfusion following MT and who receive additional Cerebrolysin within 8 hours of stroke onset compared to 50 historical controls treated with MT alone - matched for age, clinical severity, occlusion location, baseline perfusion lesion volume, onset to reperfusion time and use of iv thrombolytic therapy (rt-PA). The primary outcome measure will be overall proportion of subjects receiving Cerebrolysin comparing to control group experiencing a favorable functional outcome (by modified Rankin Scale [mRS] 0-2) at 7 day, 30 days, 90 days and 12 months following stroke onset. The secondary objectives are to determine the efficacy of Cerebrolysin as compared to control group in reducing risk of symptomatic secondary hemorrhagic transformation, improving neurological outcome (NIHSS 0-2 at day 7, day 30 and 90); reducing mortality rates (over the 90-day and 12 months study period); and improving: activities of daily living (by Barthel Index; BI), health-related quality of life (as measured by the EQ-5D-5L) assessed at day 30, 90 and at 12 months. The other measures of efficacy in Cerebrolysin group will include: assessment of final stroke volume and penumbral salvage (measured by CT/CTP at 30 days) and its change compared to baseline volume, changes over time in language function (by the 15-item Boston Naming Test), hemispatial neglect (by line bisection test), global cognitive function (by The Montreal Cognitive Assessment) and depression (by Hamilton Depression Rating Scale) between day 30 and day 90 assessments). The patients will receive 30 ml of Cerebrolysin within 8h of AIS stroke onset and continue treatment once daily until day 21 (first cycle) and they will receive a second cycle of treatment (30 ml/d for 21 days given in the Outpatient Department or Neurorehabilitation Clinic) from day 69 to 90 (± 3 days). All the patients (including those from the control group) receive the same standardized rehabilitation program (including speech therapy, occupational and physical therapy) during hospitalization at Stroke Unit and at Neurorehabilitation Clinic until day 90 according to local procedures. Historical data will be obtained by retrospective clinical chart reviews of patients hospitalized in the study center between Jan.2018 and Dec.2020 and fulfilling the same clinical and radiological inclusion criteria in whom 12-month follow-up (including mRS, NIHSS, BI, EQ-5D-5L) could be obtained.
Near-infrared spectroscopy (NIRS) is a non-invasive technology that continuously monitors regional tissue oxygenation (tissue saturation with oxygen). NIRS is used to evaluate the oxygen saturation of the brain and other tissues (such as muscle, liver, lung). NIRS is a non-invasive, simple, bedside method that can be used safely in stroke patients, as it is a method that can be performed at the bedside and does not affect the treatment process. The NIRS, which we will use in our study, continuously measures with the help of two electrodes affixed to the forehead area, right and left. There are previously created scales and scales based on neurological examination in the follow-up of patients with acute ischemic stroke. The main ones are the Glasgow Coma Scale (GCS), which is used without evaluating the patient's consciousness; It is the National Institutes of Health Stroke Scale (NIHSS), which is used to evaluate the severity of ischemic stroke, its suitability for treatment and treatment response, and the Modified Rankin Scale (mRS), which is used to evaluate the daily activity ability of individuals. However, since these cannot predict the patient's response to treatment and complications that will develop early, and there are no objective parameters, there is a need for methods that require objective monitoring of the patients. Acute ischemic stroke patients who received intravenous thrombolytic therapy with NIRS and / or who underwent endovascular thrombectomy are monitored for 24 hours and the data obtained from this method are compared with the vital findings, GCS, NIHSS, mRS, which are traditionally used in the follow-up of these patients. Thus, it was aimed to evaluate the utility of this method in evaluating the treatment efficacy and prognosis of patients compared to traditional methods in acute ischemic stroke patients.
The purpose of this study is to determine whether a non-invasive brain stimulation technique, transcranial direct current stimulation (tDCS), combined with traditional cognitive therapy will improve cognitive function in patients with subacute stroke.
Mechanical thrombectomy is a very effective treatment in patients who have suffered an acute ischemic stroke associated with intracranial large vessel occlusion. However, less than half of the patients achieve functional independence despite treatment. The optimization of blood pressure after mechanical thrombectomy based on the degree of recanalization achieved at the end of the procedure could improve the perfusion of the ischemic brain tissue thanks to the improvement of blood circulation provided by collateral circulation. For this, authorized hypotensive or hypertensive drugs will be used. Moreover, this individualized treatment would allow to decrease reperfusion injury and therefore decrease the risk of intracerebral bleeding complications and cerebral edema. Therefore, we designed a clinical trial in which the standard management of blood pressure after mechanical thrombectomy will be compared with a specific protocol in which blood pressure targets are applied according to the degree of recanalization obtained during the thrombectomy procedure. The beneficial effect and risk reduction of this treatment will translate into a better short and long-term outcome