View clinical trials related to Stroke, Acute.
Filter by:The purpose of this trial is to investigate whether intravenous rhTNK-tPA prior to endovascular treatment can improve 90-day functional outcome of stroke patients with large vessel occlusion who are thrombolysis-eligible within 4.5 hours of symptom onset.
In order to explore the role and expound the mechanism of rehabilitative brain computer interface (BCI)-based training (referred to as the Walk Again Neurorehabilitation protocol) in neurofunctional reconstruction in acute phase of cerebral infarction, the investigators choose non-invasive BCI to study lower limb function of patients with acute cerebral infarction. The investigators evaluate lower limb function, the influence on the central brain functional network and relevant immuno-inflammatory indicators, so that the investigators can explore the therapeutic effect and mechanism in the acute phase of cerebral infarction and provide theoretical bases and feasible guidances for the treatment of post-stroke dyskinesia.
The WE-TRUST study is a multi-center randomized clinical trial to assess the impact of a Direct to Angio Suite (DTAS) workflow on stroke patient outcomes.
The INSPIRE study is interventional, European, prospective, open, multicentric, each patient being his/her own control. It is conducted to assess the safety and performance of the Atalante exoskeleton system in patients presenting an hemiplegia due to cerebrovascular accident. The primary endpoint is defined by the reported adverse events. The study will include 40 patients and takes place in six rehabilitation centers (4 in France, 1 in Luxembourg, 1 in Belgium).
The purpose of this clinical pilot study is to evaluate the effects of the MR-010 on tolerability, biomechanics and walking speed in the acute stroke care setting in addition to its impact on length of stay.
Stroke is the most common neurological disease leaving one third dead and one third with permanent impairment despite best medical treatment. The aim of the present study is to investigate why patients differ in how they benefit from neurorehabilitation by collecting clinical, electrophysiological, imaging and laboratory data in the acute phase of stroke as well as later on during rehabilitation and after 90 days. Following a closed-loop approach the data is analyzed by a machine learning algorithm to create a personalized neurorehabilitation strategy.
The current endovascular treatment has increased the recanalization rate to more than 90%. Even so, the prognosis rate of stroke is still less than 50%. Our previous research confirmed that the neuroprotective effect of Normobaric Hyperoxia (NBO) from multiple perspectives. However, the clinical study on NBO was not satisfactory, which might be due to the absence of vascular recanalization therapy. Therefore, The investigators conducted this RCT study to further explore the Efficacy and safety of NBO combined with endovascular treatment in patients with acute ischemic stroke.
More than 12.000 patients suffer acute stroke in Norway every year, but less than half of them reach hospital within the current treatment window for thrombolysis. Stroke is the third-highest cause of death and the number one cause of severe disability requiring long time care at institutions. Consequently this has a high impact on society, patients and relatives, in addition to high costs related to care estimated to approximately 10 billion NOK per year. Although there are few studies on emergency medical communication centres (EMCC) in Norway, some have shown that the performance of the emergency medical communication centres can be improved. This project will seek to amend EMCC´s handling of acute stroke inquiries using artificial intelligence (AI), thus contributing to getting the patient to hospital in time for optimal treatments.
We propose to enhance the effects of brain plasticity using a powerful noninvasive technique for brain modulation consisting of navigated transcranial magnetic stimulation (TMS) priming with transcranial direct current stimulation (tDCS) in combination with motor-training-like constraint-induced movement therapy (CIMT).
Multi-centre prospective study evaluating computed tomography angiography studies performed for stroke patients as a diagnostic and prognostic imaging biomarker.