View clinical trials related to Cerebral Infarction.
Filter by:This explorative prospective study aims to assess the effects of heart rate variability biofeedback (HRV biofeedback) in patients with acute ischaemic stroke. Furthermore, the investigators aim to examine the impact of the intervention on cardiac autonomic function and further autonomic parameters such as sudomotor (sympathetic perspiratory gland function) and vasomotor function (sympathetic arterial function). Patients testing is going to be conducted at the Department of Neurology, University Hospital Carl Gustave Carus, Dresden, Germany.
Cerebral infarction is a major health problem. The two most common causes are atherosclerosis (30 to 35%) and cardio-embolic origin (35 to 40%). However, in 25% of cases the cause is undetermined, known as cryptogenic stroke or stroke of undetermined origin. Paroxysmal Atrial Fibrillation appears to cause a significant proportion of these cryptogenic cerebral infarctions. One of the major challenges in the management of cerebral infarctions is the prevention of recurrence. If the cause is atheromatous, treatment is based on platelet antiaggregants and the correction of cardiovascular risk factors. If the cause is atrial fibrillation, the treatment of choice is anticoagulation therapy. Cryptogenic strokes are managed with antiplatelet therapy. In past studies, the thrombi responsible for cerebral infarctions have been analyzed anatomopathologically to see if the composition of the thrombi could help identify the cause of the cerebral infarction. These studies have proved to be contradictory. The composition of the bacterial flora of cerebral infarct thrombi has not yet been studied, apart from some limited data on septic emboli. In myocardial infarction, the cause of which is almost exclusively atheromatous, bacteria of the periodontal flora have been detected in thrombi of ST-segment elevation infarctions. The causes of cerebral infarction are multiple. The hypotheses explored in this study are that there are differences in the composition of the bacterial flora of the thrombus depending on whether the cause is atheromatous or cardio-embolic and that the study of the composition of the thrombus could be used to identify the cardio-embolic cause in patients with cryptogenic cerebral infarction.
Accurate diagnosis of stroke due to large vessel occlusion (LVO) is an essential step in providing acute stroke care to a community. The gold-standard for diagnosis LVO is brain imaging, which is impractical in the pre-hospital setting. A non-invasive method to detect LVO is needed. Using highly sensitive accelerometers, one can measure the "HeadPulse"- tiny forces exerted on the skull from the cardiac contraction. This study tests the hypothesis that LVO alters the HeadPulse characteristically. Analysis of these data along with the subjects vascular status (LVO vs. non-LVO as measured by CT angiography) will be used to create a model that can predict LVO status in suspect stroke subjects.
This cohort study will evaluate the relatiobship of stroke recurrence and anti-platelet resistance in ischemic stroke patients
The study is a randomized, prospective, parallel-group, multicenter, open-label, non-inferiority trial. Patients are randomized 1 : 1 to either stent retriever(Catfish) or Solitaire for endovascular therapy for acute ischemic stroke. The study aims to evaluate the benefit and safety of stent retriever(Catfish) for acute ischemic stroke therapy, as compared to Solitaire FR.
This is a registry for all patients admitted to hospital settings with Ischemic stroke in Mansoura University Hospital. The registry will capture patients' data, investigations and vitamin D level on admission. Follow-up is taking place using MODIFIED RANKIN SCALE
The purpose of this study is: - to evaluate efficacy of MMH-MAP in the treatment of mild cognitive impairment in subjects in early rehabilitation period of ischemic stroke - to evaluate safety of MMH-MAP in the treatment of mild cognitive impairment in subjects in early rehabilitation period of ischemic stroke
The primary objective of the trial is to establish the effectiveness of IAT (versus medical management) in patients with moderate-large infarcts (NCCT ASPECTS 2-5) at baseline, with adaptive enrichment to better define the upper limit of infarct volume for treatment eligibility. Furthermore, the investigators aim to determine whether certain subgroups of patients with large baseline infarcts will have a greater treatment benefit. Finally, the investigators will assess the agreement of ASPECTS scores between site investigators, the core imaging lab, and automated software.
To assess safety of single IV (bolus + infusion) doses of ACT017 in patients with an acute ischemic stroke in addition to best emergency standard of care (including fibrinolysis by rtPA with or without added thrombectomy), with a specific focus on hemorrhage, whether clinically symptomatic (NIHSS score + 4 points or death, without other explanation), or seen (excluding other diagnoses) on 24-hour (hr) CT scan, serious adverse events (SAEs), suspected unexpected serious adverse reactions (SUSARs), and medically important events and other safety items including biological and immunological tolerability.
Chronic cerebral ischemia (CCI) is viewed as an alarming state induced by long-term reduction in cerebral perfusion, which is associated with neurological deficits and high risk of stroke occurrence or recurrence. CCI accounts for a large proportion in both outpatient and inpatient subjects with cerebrovascular disease, while the treatment of CCI remains a formidable challenge to clinicians. Normobaric oxygen (NBO) is an adjuvant hyper-oxygenation intervention supplied with one atmosphere pressure (1ATA=101.325kPa). A plethora of studies have demonstrated the efficacy of NBO on the penumbra in acute stroke. NBO has been shown to increase oxygen pressure, raise intracranial blood flow, protect blood-brain barrier and enhance neuro-protective effects. As the similar underlying mechanisms shared by the penumbra in stroke and the ischemic-hypoxic brain tissues in CCI, the investigators speculate that NBO may serve as a promising therapeutic strategy for attenuating short-term symptoms or improving long-term clinical outcomes amongst patients with CCI. Due to the scant research exploring the efficacy of NBO for treating CCI so far, the clinical studies are warranted to verify this hypothesis urgently.