View clinical trials related to Stroke.
Filter by:This study will evaluate the safety and efficacy of intravenous ex vivo cultured adult allogenic mesenchymal stem cells in patients with ischemic cerebral stroke. Patient will be given single intravenous dose of allogenic mesenchymal stem cells 2 million cells/Kg body weight or placebo within 10 days of stroke. Patients will be followed up till 12 months. Safety will be evaluated by type, number and proportion of patients with adverse events. Efficacy will be evaluated by clinical parameters and MRI.
The aim of the study is to investigate patients with acute stroke prehospital with transcranial duplex ultrasound to detect an infarct of the middle cerebral artery.
The study's objective is to measure changes in human visual cortex organization that may arise as a result of injury to the visual pathways. Subjects with retinal or cortical injury will be studied and compared to appropriate controls. Functional magnetic resonance imaging methods are used to monitor cortical topography in time. The main aims of the study are to determine: 1) what are the patterns of cortical reorganization that are seen spontaneously after injury, and 2) whether rehabilitative training can promote adaptive reorganization enhancing recovery.
This study will examine the safety of two different cellular therapies in the treatment of stroke.
The purpose of this study is to determine whether neural block and neuromuscular electrical stimulation are effective in treating finger impairment due to stroke.
To assess the safety and tolerability of NTx™-265 when given to acute ischemic stroke patients. To assess the neurological outcome in acute ischemic stroke patients treated with NTx™-265, when compared with patients given a placebo control.
Patients with acute ischemic stroke and persistent arterial occlusion following failed mechanical revascularization, who can undergo NeuroFlo treatment within 18 hours of last time symptom free, will be eligible for enrollment to assess the safety and feasibility of the NeuroFlo catheter in treating ischemic stroke patients with persistent arterial occlusion following attempted thrombectomy. The NeuroFlo catheter is designed to partially obstruct the abdominal descending aorta thereby increasing blood flow to the brain. Cerebral perfusion is improved by diverting more blood through vessels as well as by expansion of the collateral circulation. Improved regional perfusion leads to clinical improvement.
Patients who are suffering from a stroke often present to the hospital with elevated blood pressure. Elevated blood pressure in the setting of stroke increases the risk of brain swelling or bleeding into the brain. Even so, there has been concern about lowering the blood pressure with medications because the newly injured parts of the brain may not get the blood flow they need, thereby worsening the damage from the initial stroke. We hope to demonstrate that the drug valsartan can be used safely and modestly to lower blood pressure in acute stroke patients, without having a detrimental effect on brain blood flow or neurologic status. Novel MRI techniques to measure brain blood flow will be used in conjunction with clinical scales to demonstrate safety.
High blood pressure is one of the most common health problems in the United States. There are many drug treatment options for high blood pressure, but these medications are not always effective. People with treated high blood pressure can still suffer from other serious cardiovascular health problems, including heart attack, sudden death, or stroke. Genetic variations may cause some people to be more susceptible to these cardiovascular outcomes despite treatment. This study will identify new gene regions that may influence the effectiveness of high blood pressure drugs in preventing the above mentioned cardiovascular conditions.
This is a study on how acute clinical state and final clinical outcome in patients with stroke (exclusive subarachnoid hemorrhage) relate to ICP/ABP-derived pressure waveform parameters recorded during intensive care management.