View clinical trials related to Ischemic Stroke.
Filter by:AISDTS is a prospective registry study, in which clinical information, examination and imaging data of patients with acute ischemic stroke receiving different treatment strategies were collected, grouped and statistically analyzed, and corresponding clinical prediction models were constructed to explore the role of clinical biological indicators in the occurrence and development of stroke.
Stroke is a leading cause of physical and cognitive disabilities. The most common type of stroke is ischemic (lack of blood flow to the brain due to clot blocking a blood vessel). Many people with stroke (PwS) have changes on the brain imaging called small vessel disease (SVD). This is a condition that affects tiny blood vessels supplying the brain, leading to decreased blood flow in some parts of the brain. These brain changes may hamper the recovery process after stroke, or lead to recurrent stroke and cognitive impairment. SVD is a slow process that can be seen as multiple black spots on computed tomography or white spots on magnetic resonance imaging. Current treatments to reduce the effect of SVD on PwS are to control high blood pressure, high blood sugar, high cholesterol and increase physical activity. However, these approaches do not lead to a reduction in SVD. Remote Ischemic Conditioning is a type of treatment delivered with help of a regular blood pressure machine. This does not involve any drug. A typical treatment involves the application of a blood pressure cuff followed by brief sessions of compressions and relaxation on the arm muscles much akin to blood pressure measurement but for 5 min. It leads to a transient safe state of less blood flow in arm muscles which initiates the release of molecules and signals transmitted by blood. These signals may then go on to improve blood flow in the brain. Recent animal and human studies have suggested that the use of RIC may reduce the SVD load. A new device will be used to deliver remote ischemic conditioning therapy in a better manner. Existing devices generate the same amount of compression for all people. The pressure applied by the machine in the arm may be either more than required or less than required. The ideal compression would be one that achieves a low blood flow state in the arm at the least possible pressure. To achieve this our group is using a small light sensor to inform us. The light sensor is closely applied to the skin over the arm below the blood pressure cuff. It emits light that is absorbed by the skin and the light is then reflected. This is detected by other sensors placed together. From the reflected light the sensor can obtain information about blood flow in the skin. When the pressure increases with help of an automated machine the light sensor can detect that blood flow are reduced and this information is displayed on the computer. The information about skin blood flow will inform about the level of pressure to apply to give accurate treatment. The new device with optical feedback will deliver RIC in PwS and SVD in a safe and reliable manner. A total of 51 patients will take part in this study. Thirty-four will get remote ischemic conditioning therapy and 17 patients will get sham-control therapy. All patients will get standard post-stroke treatment according to the Canadian Stroke Best Practices Recommendation.
Rationale: Recently, two prospective multicenter RCT reported a potential beneficial effect of endovascular thrombectomy (EVT) in patients with an acute symptomatic basilar artery occlusion (BAO). However, the high rate of crossover in BEST study and the long-term of recruitment in BASICS study influenced the validity of the results. Objective: To assess the outcomes and prognostic factors of recanalization therapy in patients with BAO, caused by a CTA/MRA/DSA confirmed occlusion of the basilar artery. Study design: This is a prospective observational study. Study population: Patients with acute ischemic stroke and a confirmed basilar artery occlusion by CTA/MRA/DSA. Main study parameters/outcomes: Favorable outcome at day 90 defined as a modified Rankin Score (mRS - functional scale) of 0-3. The estimate will be adjusted for the known prognostic variables age, time from onset to treatment, stroke severity (NIHSS), PC ASPECT and collateral flow and adjusted and unadjusted estimates with corresponding 95% confidence intervals will be reported.
This is a randomized open-label, with blinded outcome pilot study to evaluate the effect on inflammatory laboratory values and explore clinical outcomes in patients who present with ischemic strokes due to large vessel occlusions and are treated with either current accepted management, or accepted management in addition to transcutaneous auricular vagal nerve stimulation.
This observational study comprises consecutively patients with cerebrovascular diseases admitted to the Stroke Unit at Akershus University Hospital in Norway. Akershus University Hospital is the largest emergency care hospital in Norway and has a catchment area covering a population of 550.000, which is approximately 10 % of the Norwegian population and reasonably representative according to data from Statistics Norway. The hospital is public and serving both as a primary hospital and a university hospital. Due to the Norwegian, national, all-covering health-insurance, all patients enter the hospital and are considered for further in-patient care on the same conditions. The hospital has a stroke unit classified as a comprehensive stroke center according to European Stroke Organisation standards. Acute stroke management follows national and international guidelines. Overall, the ASIST-1 study will investigate management, outcome and prognosis of stroke and stroke care pathways and later follow up in primary care using several approaches combining existing clinical data from a representative population with different Norwegian health registries. Parts of the study are retrospective with prospective follow-up by health registries and parts of the study are prospective.
The investigators evaluate the activation and connectivity of patients' motor regions in the acute phase of ischemic stroke by fNIRS.
Determine the effects of sphenopalatine ganglion (SPG) block in post-stroke headache.
STARS is a prospective, multicentre, open-label, dose escalation, Phase IIa study to assess the safety and tolerability of TBO-309, an adjuvant antiplatelet therapy, in patients with AIS. Acute ischaemic stroke (AIS) is caused by a severe blockage of an artery leading to immediate reduced blood flow to part of the brain. Standard therapies target the blocked artery by either dissolving the blockage or removing the blockage. However, even after successful treatment, re-blockage of arteries can occur. The use of an antiplatelet therapy, TBO-309, in addition to standard therapies offers the possibility of improved restoration of blood flow and reduced rates of artery re-blockage.
In a double-blinded sham-controlled study the effect of patient-tailored transcranial direct current stimulation during rehabilitation training will be examined.
The primary purpose of this study is to explore the feasibility and safety of normobaric oxygen therapy (NBO) under pre-hospital condition in patients with suspected stroke.