View clinical trials related to Cerebral Infarction.
Filter by:Rationale Acute ischemic stroke due to atrial fibrillation (AF) carries a high risk for early recurrence. In acute stage, guidelines recommend aspirin, but do not recommend anticoagulation due to the increased risk of intracranial bleeding. Since, aspirin has a limited efficacy of preventing recurrent stroke in AF, expert consensus suggests early anticoagulation in non-severe stroke with AF. The current practice for acute ischemic stroke patients with AF is delayed warfarin administration with aspirin use for non-minor stroke or immediate warfarin administration (sometimes with heparin bridging) for minor stroke. However, conventional anticoagulation with warfarin in acute ischemic stroke with AF has the following limitations: 1) risk of intracranial bleeding particularly in acute stage, 2) delayed action and transient paradoxical thrombogenic tendency due to the inhibition of protein C, resulting in the risk of early recurrent embolic stroke, and 3) prolongation of hospitalization waiting for full anticoagulation. In contrast, as compared to warfarin, rivaroxaban is advantageous for reduced risk of intracranial bleeding and immediate anticoagulation efficacy. Goal The current trial will examine whether early initiation (within 5 days from stroke onset) of rivaroxaban as compared to conventional warfarin would reduce intracranial bleeding, recurrent embolic stroke, and hospital stay in patients with acute ischemic stroke due to AF.
Intravenous (IV) tissue plasminogen activator (tPA) is the only FDA-approved therapy for treatment of acute ischemic stroke. In the United States, IV tPA is typically administered in the Emergency Department (ED) for patients presenting with acute ischemic stroke within 4.5 hours of symptom onset. It is current practice that post-tPA patients are monitored in an intensive care unit or intensive care unit (ICU)-like setting for at least 24 hours, in part due to frequent vital sign and neurological monitoring that is currently the standard of care. However, rigorous evidence to support this practice is largely lacking. In a retrospective analysis of 153 patients receiving IV tPA at Johns Hopkins Hospital (JHH) and Johns Hopkins Bayview Medical Center (JHBMC), investigators have shown that most patients who have ICU needs in the first 24 hours after tPA administration develop such needs by the end of the tPA infusion. Patients without ICU needs by the end of the tPA infusion, do not require further ICU resources if patients' presenting NIH Stroke Scale (NIHSS) is below 10. This study is a prospective clinical trial that aims at establishing the first proof-of-concept and feasibility of whether patients with a low NIHSS (NIHSS 9 or less) and that do not need ICU care by the end of the tPA infusion, can be monitored safely in a non-ICU setting with a novel monitoring protocol. Identifying post-tPA patients who can be safely monitored in a non-ICU environment may improve cost-effective utilization of ICU resources and reduce the length of hospitalization for stroke patients.
Stroke is one of the main severe disease of public health importance. Increasing evidence suggests that inflammatory mechanisms plays a significant role in stroke. So, immune targets are supposed to be an effective one. The sphingosine-1-phosphate receptor regulator Fingolimod(FTY720)is an effective immunology modulator which has been widely used in autoimmune disease and has been testified effective on stoke animal models.
To examine the efficacy and safety of dual antiplatelet therapy (DAPT) including cilostazol (Pletaal OD Tablet ®) in comparison with antiplatelet monotherapy (excluding cilostazol) for secondary prevention of ischemic stroke in high-risk patients for stroke
Beachchair position is used by many orthopaedic surgeons for shoulder surgery. Most patients undergoing surgery in this position have no complications. However, reported cases of postoperative neurological deficits have highlighted the risk of cerebral and spinal cord ischemia. The etiology of such complications remains unclear. The most plausible explanation for these events would be intraoperative hypotension followed by cerebral hypoperfusion. General anesthesia is commonly used for shoulder surgery in conjunction with interscalene brachial plexus blockade. During the block, local anesthetic's spread is frequently observed leading to a block of sympathetic fibres. Since all nerves located in the head and neck area go through the stellate ganglion, its block will cause a sympathetic denervation and a decrease of the peripheral vascular resistance, thus increasing the circulation in cerebral blood vessels. In normal situations, there is a vasoconstriction of the cerebral blood vessels in response to a sympathetic stimulation and a vasodilation if sympathetic fibres are blocked. Transcranial Doppler (TCD) is a non-invasive examination that provides a reliable evaluation of intracranial blood flow in real-time. It can help to detect sudden changes in perfusion and identify potential embolic events. Some studies using TCD have shown an increased ipsilateral cerebral blood flow (CBF) secondary to a reduced vascular tone associated with a stellate ganglion block. Others have shown a reduction of contralateral CBF that could theoretically increase the risk of ischemia in the affected area. This study will assess the role of interscalene nerve blockade in the protection of cerebral ischemia and preservation of cerebral autoregulation. This study will also aim to identify changes in contralateral CBF. The investigators hypothesize that: 1. Interscalene nerve block will increase CBF 2. Interscalene nerve block will not decrease contralateral CBF 3. Cerebral autoregulation will be preserved under general anesthesia in conjunction with an interscalene nerve block in this setting.
BACKGROUND: Alteplase dissolves blood vessel clots in acute ischemic stroke and is the only approved acute drug treatment <4½ hours of stroke onset. The overall benefit from alteplase is substantial, but up to 2/3 of patients with large artery clots may not achieve reopening of the vessel and up to 40% of the patients may remain severely disabled or die, leaving substantial room for improvement. Tenecteplase, widely used in coronary heart disease, may be more effective and may have less bleeding complications than alteplase, and may be the drug of choice also in stroke. HYPOTHESIS: Tenecteplase may be given safely to patients with acute ischemic stroke at a dose that is associated with improved clinical outcome compared with existing treatment options. AIMS: To compare efficacy and safety of tenecteplase vs. alteplase given <4½ hours after symptom onset. STUDY ENDPOINTS: The primary study endpoint is excellent clinical outcome at 3 months (effect). Secondary study endpoints are major early clinical improvement (effect) and bleeding complications (safety).
To study the effects of Erigeron Injection on human serum VEGF, MMP-9 and EPC levels after acute cerebral infarction,test is made by random double-blind controlled.patients with acute cerebral infarction were divided randomly into erigeron injection+aspirin group,aspirin group,and health people. The main indexes are the serum level of VEGF, MMP-9 and EPC.The review is made by the reference to NIHSS and so on. So, Erigeron Injection have the function of promoting angiogenesis in multiple targets through this test.
The purpose of this study is to determine if mesenchymal stem cells given by IV is feasible and safe in patients with recent ischemic stroke and to decide the maximum tolerated dose when given between 3-10 days after an ischemic stroke.
The purpose of this study is to assess the effects in improving life self-care ability of stroke patients after taking Tongxinluo Capsule(within 72 hours after onset) versus Placebos for 90 days.
The purpose of this study is the evaluation and comparison of blood pressure variability indices and ambulatory arterial stiffness index obtained by ambulatory blood pressure monitoring as prognostic indicators in the functional outcome of acute ischemic stroke.