View clinical trials related to Stroke, Ischemic.
Filter by:The present trial is addressing the question if a biologically distinct subgroup of ischemic stroke patients without known atrial fibrillation at admission, selected by a cut-off level of MRproANP concentration, which represents a underlying increased risk of cardiac thrombogenicity, benefits from direct oral anticoagulation (DOAC) within 7 days of symptom onset versus standard of care (antiplatelet) as preventive treatment.
This study is to find out the significance of gut-microbiota in acute stroke patients, including their neurological, radiological outcomes as well as their stroke mechanisms.
The benefit of mechanical thrombectomy in the treatment of ischemic stroke has been demonstrated in several multicenter randomized trials. However, it leads to a sudden reperfusion of the brain parenchyma associated to an extension of the infarct volume. Evidence has indicated that remote ischemic conditioning (RIC) reduces final infarct size in animal stroke models. The main objective of the present study is to determine whether remote ischemic conditioning can limit the final infarct volume after recanalization of the occluded cerebral artery.
The proposed study will investigate the clinical use of the ISCDX test that may differentiate between diverse stroke etiologies as listed below: Aim 1: Differentiate between cardioembolic and large artery atherosclerotic ischemic strokes, when hemorrhagic stroke is ruled out, as defined by TOAST classification of subtypes of acute ischemic stroke. Aim 2: In cases of ischemic strokes of unknown or "cryptogenic" etiology, determine the ability of biomarker blood tests to predict etiology between cardioembolic and large artery atherosclerotic.
Stroke patients frequently suffer from stroke associated pneumonia. Pathophysiologically speaking, dysphagia and central nervous system (CNS)-injury induced immunosuppression largely contribute to the risk for pneumonia. In mouse models for stroke, the self-cleaning mechanisms of the lung are also affected by stroke, possibly further contributing to this risk. The investigators designed a pilot-study to examine the structural and functional integrity of the self-cleaning mechanisms of the lung in stroke patients.
This study explores the use of CRP level reduction in patients after suffering from acute ischemic stroke. Using selective CRP-apheresis, the investigators aim to reduce the secondary inflammatory tissue damage in the course of infarction maturation using infarction growth in MRI as the primary outcome as a surrogate.
This study evaluates the effectiveness of stochastic resonance electric stimulation on neuromuscular control and proprioception in healthy and individuals with stroke.
This research study is to find out if brain stimulation at different dosage level combined with an efficacy-proven rehabilitation therapy can improve arm function. The stimulation technique is called transcranial direct current stimulation (tDCS). The treatment uses direct currents to stimulate specific parts of the brain affected by stroke. The adjunctive rehabilitation therapy is called "modified Constraint-Induced Movement Therapy" (mCIMT). During this therapy the subject will wear a mitt on the hand of the arm that was not affected by a stroke and force to use the weak arm. The study will test 3 different doses of brain stimulation in combination with mCIMT to find out the most promising one.
This is a pilot randomised control trial to assess the safety, compliance, and acceptability of delivering a 6-week programme of remote ischaemic conditioning (RIC) to stroke patients suffering with fatigue, and study feasibility. A minimum of 34 patients who have suffered an ischeamic or haemorrhagic stroke and who suffer from fatigue, will be recruited and randomised to receive a 6-week programme of either RIC or a sham intervention.
Intracranial atherosclerotic disease is the most common cause of ischemic stroke that is directly attributed to the progression or rupture of intracranial high-risk plaque in Asia. Many studies mainly from Euro-American population with a focus on extracranial carotid plaque have fully demonstrated the advantages of intensive statin therapy on stabilizing or reversing plaque burden, reversing plaque composition presenting that lipid-rich necrotic core (LRNC) is gradually replaced by fibrous tissue, and even reversing pattern of arterial remodeling to reduce the occurrence of cerebrovascular events. Yet, direct evidence of the effect of intensive statin therapy on intracranial atherosclerotic plaques is lacking and the effect of statin intensity and duration on intracranial plaque burden and composition is still unclear. High resolution magnetic resonance imaging (HRMRI) is a new and non-invasive technique that enable to assess the morphologic characteristics of vascular wall and plaque composition of intracranial artery. Based on above discussion, the investigators conduct this study to further determine the effect of intensive statin in ischemic stroke with intracranial atherosclerotic plaques.