View clinical trials related to Stroke.
Filter by:Subjects will receive 30 treatments with AMES, to the proximal arm which has been affected by a chronic stroke.
Intravenous tissue plasminogen activator (IV t-PA) is the only proven treatment of hyperacute cerebral infarction. The outcome of this treatment highly depends on the time from symptom onset to the administration of thrombolytic agent. Last known normal time is widely used as the standard to determine the symptom onset. These stroke symptoms are usually caused by a sudden decrease in cerebral blood flow related with an embolic or thrombotic event. However, in some cases various symptoms may occur one after another. Myocardial infarction is also caused by a sudden caseation of blood flow. The symptom of myocardial infarction usually contains chest pain, and it is easy to identify the exact time of onset. In contrast, cerebral infarction may cause various symptoms according to the infarcted area of the brain, and sometimes multiple symptoms are presented in rapid succession. Therefore, it may be much unclear and uncertain to determine the onset time of cerebral infarction. Despite the importance of onset time in therapeutic decision making, there was no study focusing on the certainty of onset time in cerebral infarction patients. In this study, we will investigate the subjective certainty of patient about the onset time in clear-onset cerebral ischemia. The discrepancy in diagnosing the onset time will be analyzed among the clinicians involved in the practice. Then, the factors associated with this uncertainty will be verified.
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.
This study aims to determine the sensitivity and specificity of a Personal Heart Rhythm Monitor in the detection of prolonged paroxysmal atrial fibrillation (defined as lasting more than 12 hours) against pre-existing implantable devices, seen to be the 'gold-standard' for arrhythmia detection.
In the unilateral vs. bilateral hybrid rehabilitation trials, we will conduct two separate clinical trials: one to recruit subacute stroke patients and another to recruit chronic stroke patients. The two trials will have identical study designs and interventions. The overall goal of this research project is to provide scientific evidence of the treatment effects of unilateral and bilateral hybrid therapies in subacute and chronic stroke patients and thus to contribute to evidence-based stroke rehabilitation and translational research for neurorehabilitation.
This study is a French multicenter prospective study including 5 stroke units with available MRI and F-MISO PET for patients with acute ischemic stroke. Background and Purpose: 18F-Fluoromisonidazole (FMISO) PET has been used to identify hypoxic tissues in animals and stroke patients. While MRI has become the gold standard acute stroke imaging, no published study has compared FMISO PET and MRI. The aim of this prospective study is to identify hypoxic tissues in 40 patients with acute ischemic stroke with F-MISO PET and to compare the location and the outcome of these hypoxic cells with MRI datas (weighted diffusion and FLAIR) and to clinical outcome.
Stroke is a major cause of adult disability. Currently approved reperfusion therapies are provided to only a small percentage of patients in the U.S. New therapies are needed that improve outcome and that can be accessed by a majority of patients. Animal studies suggest that bone marrow-derived mesenchymal stem cells, administered intravenously days after a stroke, safely improve long-term behavioral outcome. A large human experience suggests the safety of allogeneic bone marrow-derived mesenchymal stem cells. The current study aims to assess the safety of this therapy in patients with recent ischemic stroke.
The purpose of this study is to determine whether tactile stimulation for reduced sensibility of the affected extremities after stroke has effect. Hypothesis: Stimulation of sensibility after stroke will have a significant contribution for improved sensibility. Without any stimulation, no signal is sent to the brain and there is no need for the healthy parts of the brain to adapt this function. Stimulation of the sensibility over a period of time on both sides of the body, gives the brain signals and the opportunity to compare how the signals should be recognized. New connection will be able to interpret signals correctly.
The purpose of this study is to determine whether reducing a patients body temperature (mild hypothermia of 33 degrees Centigrade) will significantly reduce the risk of brain injury (notably reperfusion injury and hemorrhagic conversion) in patients that have suffered a significant interruption of blood flow to an area of brain (occlusion of large proximal cerebral artery) and have undergone successful removal of that interruption (revascularization).This will be achieved by comparing patients that have undergone hypothermia to those that have not.
The purpose of this study is to determine if tailoring multiple sessions of upper extremity robotic therapy to focus on a particular aspect of movement (e.g smoothness vs. aiming; active range of motion vs. functional practice)can optimize therapeutic results and lead to greater functional returns in arm mobility after stroke.