View clinical trials related to Ischemic Stroke.
Filter by:Anticoagulant treatment for non-valvular atrial fibrillation (AF) associated with cerebral infarction/ TIA is one of the recognized treatment of stroke prevention. The ACC/AHA and national guidelines for the management of anticoagulation recommend that most of AF patients with cerebral infarction or TIA should be administrated anticoagulant therapy within 14 days of symptom onset, while European guidelines recommend that the timing of the initiation of non-vitamin K antagonist oral anticoagulants (NOACs) for AF patients with cerebral infarction or TIA is association with stroke severity in light of the "1-3-6-12" principle. However, there are still many problems about the use of NOACs in ischemic stroke with AF. for example, it is unclear what time to begin NOACs as to difference in stroke severity, ages, comorbidity with hypertension, diabetes, heart failure, liver and kidney dysfunction and bleeding risks. Thus, the timing of the initiation of NOACs is yet to be further studied. Current urgent need is to develop a guideline-based specific regimen in which the benefit-risk factors are further balanced with a combination of NHISS, CHA2DS2-VASC and HAS-BLED score. Rivaroxaban, a direct coagulation factor Ⅹa inhibitor, blocks the formation of the clot. ROCKET-AF study has shown that the efficacy of rivaroxaban is not inferior to that of warfarin in AF patients on stroke prevention, and rivaroxaban has a significantly decreased bleeding risk compared with warfarin. Recent study indicates that early administration with rivaroxaban for AF patients within 14 days of onset does not significantly increase hemorrhagic transformation. However, the relevant clinical data of the efficacy and safety of early initiation of rivaroxaban in AF patients with cerebral infarction or TIA are lacking in China. Therefore, the investigators conduct a multicenter cohort study to investigate the safety of early rivaroxaban in the AF patient with cerebral infarction or TIA within 12 days of onset.
SEACOAST 1 is a prospective, randomized, blinded endpoint trial comparing collateral vigor and clinical outcomes, with different forms of GA in patients with acute ischemic stroke due to anterior circulation large vessel occlusion (LVO) undergoing mechanical thrombectomy. The study compares GA with normocarbia (GAN) versus GA with mild hypercarbia (GAH), with a primary outcome of collateral robustness at measured at catheter angiography and clinical efficacy as secondary outcome. It is anticipated that the SEACOAST 1 will be followed by a larger, pivotal trial, SEACOAST 2, with primary clinical endpoints, in which the best method of GA identified in SEACOAST 1 is compared with the alternative strategy of anesthesia care (MAC) with minimal or no sedation. The current study focuses uppn SEACOAST 1, which is to be conducted in University of California, Los Angeles Ronald Reagan Medical Center and Santa Monica Medical Center. All acute stroke patients who arrive to one of these two stroke centers and are deemed eligible for thrombectomy will be considered for the proposed study. Physician-investigators will determine study eligibility. Informed consent to participate in the study will be obtained from legally authorized representatives or competent patients. For non-competent patients without on-scene legally authorize representatives, the consent process will utilize enrollment in emergency circumstances with exemption of informed consent (EFIC).
OPTIMISTmain is an investigator-initiated and conducted, international, multicentre, stepped wedge cluster randomized controlled trial comparing the effects of different intensities of nursing care monitoring for patients with acute ischemic stroke of mild severity and without critical care needs after IV-tPA.
The primary aim of the study is to investigate the relationships among FVIII, t-PA/PAI-1, MMP-9 levels, and intracranial hemorrhage after thrombolysis with alteplase using a combined analysis.
Placing the head of bed (HOB) at 0-degrees has been shown in small studies to improve blood flow to the brain in patients with ischemic stroke caused by large artery occlusions, thereby reducing stroke symptom worsening. This simple yet potentially impactful intervention has yet to be tested in a large clinical trial in hyperacute large artery ischemic stroke patients, but may provide nurses with a powerful contribution to acute stroke care that is capable of preventing worsening of stroke symptoms and promoting stabilization. Because stroke is the leading cause of preventable long-term disability in adults, this study may show that simple methods such as 0-degree HOB positioning should be considered one of the very first actions taken in the emergent management of acute ischemic stroke patients.
Acute ischemic stroke is caused by blockage of blood vessels in the brain. Blood vessels can be obstructed by several different mechanisms and identification of this cause is essential to minimize the risk of recurrence.
The CARDIOSTROKE is a randomized trial comparing mobile-device assisted control of hypertension together with screening of occult atrial fibrillation to standard care in patients with recent ischemic stroke or transient ischemic attack.
Endovascular thrombectomy (EVT) is the standard treatment for patients with a large vessel occlusion (LVO) stroke. Direct presentation of patients with an LVO to a comprehensive stroke center (CSC) reduces onset-to-treatment time by approximately an hour and thereby improves clinical outcome. However, a reliable tool for prehospital LVO-detection is currently not available. Previous electroencephalography (EEG) studies have shown that hemispheric hypoxia quickly results in slowing of the EEG-signal. Dry electrode EEG caps allow reliable EEG measurement in less than five minutes. We hypothesize that dry electrode EEG is an accurate and feasible diagnostic test for LVO in the prehospital setting. ELECTRA-STROKE is a diagnostic pilot study that consists of four phases. In phases 1, 2 and 3, technical and logistical feasibility of performing dry electrode EEGs are tested in different in-hospital settings: the outpatient clinic (sample size: max. 20 patients), Neurology ward (sample size: max. 20 patients) and emergency room (sample size: max. 300 patients), respectively. In the final phase, ambulance paramedics will perform dry electrode EEGs in 386 patients with a suspected stroke. The aim of the ELECTRA-STROKE study is to determine the diagnostic accuracy of dry-electrode EEG for diagnosis of LVO-a stroke when performed by ambulance personnel in patients with a suspected AIS. Sample size calculation is based on an expected specificity of 70% and an incidence of LVO stroke of 5%.
Study is designed for two parts, a perspective, multi-center, historial control study and a randomized controlled study of acute ischemic stroke patients. For achieving the target of diagnosis and treatment KPI (Key performance indicator) of AIS patients and improving the defects of the traditional working mode, our center developed the medical records data acquisition and KPI statistics system based on computer scan. This method guarantees the authenticity of the data, It computes the KPI of the corresponding medical institutions in the corresponding period and gives feedback on a regular basis. Based on the KPI feedback system, a multifaceted quality improvement intervention is conducted in the intervention group hospitals. This study aims to explore whether this new working mode can continuously improve the overall KPI in Zhejiang province, and thus reflect the improvement of quality and standardization of medical service in AIS patients.
The primary outcome of this study is to determine the quantitative increase in connectivity, as measured by fMRI brain and calculated as a percent increase from baseline in patients with ischemic stroke. Eligible patients will receive a listening session of music or spoken word listening, 30 days to 5 years following ischemic stroke. Assessments will include modified Rankin Scale, National Institute of Health Stroke Scale, functional Magnetic Resonance Imaging, motor function tests, and neuropsychological evaluations. Assessments occur at baseline, day 45, and day 90 after starting listening sessions.