View clinical trials related to Stroke.
Filter by:The purpose of this study is to see whether treating subjects for wrist rehabilitation following stroke with Botox® and robotic therapy is more effective than treatment with robotic therapy alone and no Botox®.
To establish equivalence or incremental benefit to standard of care Ankle-Foot Orthosis (AFO) for patients with foot drop due to stroke, and to assess the functional improvement of ambulation and improved activities of daily living.
The primary objective is to determine the extent to which participation in life's roles can be optimized through the provision of a community-based structured program providing the opportunity for physical activity, leisure, and social interaction. A secondary objective is to estimate the extent to which participation is associated with health benefits including health-related quality of life and reduction of unplanned health-care encounters for the person with stroke and reduction of burden and improvement in quality of life for caregivers.
The damage of the brain parenchyma, as well as the stroke-induced dysfunction of the blood-brain-barrier can make previously hidden CNS antigens "visible", and can thus lead to the development of autoimmune mechanisms. It seems plausible that stroke-associated immunodepression influences the development and the phenotype of these autoreactive immune responses. This study will investigate whether cerebral ischemia leads to changes in the immune response, in particular to the development and/or proliferation of autoreactive effector T-cells and/or regulatory T-cells. Furthermore, the association between the severity and the phenotype of this autoimmune response and the clinical course, i.e. prognosis and mortality, will be investigated.
The aim of this study is to assess if rTMS on healthy hemisphere at one hertz could improve patients with post stroke dysphagia.
Stroke-associated pneumonia (SAP) constitutes a clinically relevant complication of stroke, because it increases the mortality and has a negative impact on the neurological prognosis of the patient. An early identification of patients at risk for SAP allowing an early initiation of antiinfective therapy may improve the prognosis. To date, no reliable prediction models or clinical scores for stroke-associated pneumonia exist. Recently, it was shown that parameters indicating an impaired immune function are associated with the subsequent occurrence of SAP and could therefore be used as predictors for SAP. This study will develop and prospectively validate a prognostic score to predict SAP based on clinical parameters. Furthermore, the study examines the prognostic properties of selected immune and infectious parameters for the prediction and diagnosis of SAP. The study will further address the question whether these infectious and immune parameters predict the 3-month-outcome. In a subgroup of patients, MRI parameters on stroke size and localization will be assessed to investigate whether these parameters might allow prediction of SAP or the 3-month-outcome.
Improving upper extremity movement and function in patients with stroke has been one of the primary goals for patients and rehabilitation professionals. Thermal stimulation (TS) had been first found by a domestic research group to be effective to facilitate sensory and motor recovery in patients with stroke within a month. However, the immediate and long-term effects of TS and the mechanism of brain plasticity in patients with stroke for more than three months (golden recovery stage) remain unknown. Thus, we will design a single-blind randomized controlled trial to investigate the immediate and long-term effects of TS in patients with stroke at subacute and chronic stages.
Patients are admitted to the critical care unit of the hospital because of medical conditions that have a high likelihood of causing severe problems with blood flow, breathing, or brain function. These conditions also have a high likelihood of causing death. Approximately 10 to 15% of all critically ill patients die in hospital. A large amount of scientific evidence suggests that a substantial proportion of these deaths is due to a combination of blot clotting and inflammation in the blood vessels. Statins are drugs that interfere with cholesterol and fat metabolism. Cholesterol and fat in the blood are associated with blood clotting and inflammation in the blood vessels. Statins are known to be very beneficial in improving the survival after heart attacks, and in preventing heart attacks. The question that VASTVALUS asks is: do statins improve survival among all critically ill patients? In VASTVALUS, we will concentrate on patients that do not currently require a statin because of their medical condition e.g. after a heart attack, but we are concerned with the rest of the critically ill. In VASTVALUS, participating patients will receive either atorvastatin 80 mg daily or a placebo. Atorvastatin is a statin with a well-established record of safety and effectiveness. A placebo has no known medical activity. We will follow all patients in VASTVALUS to determine whether atorvastatin has any effect on the occurrence of death, stroke, heart attack, or kidney failure among the critically ill. Results from VASTVALUS will be shared with the medical community after the study is completed. As with all clinical trials, patients in VASTVALUS participate of their own choice, and can change their mind at any time.
The purpose of this study is to determine whether simvastatin treatment started within the first 12 hours from stroke onset improves neurological and functional outcomes, evaluated at seventh day/discharge or at the third month. Also, to demonstrate that simvastatin is safe and not associated with higher rates of hemorrhagic transformation in patients who receive thrombolysis.
The complexity of sensorimotor control required for hand function as well as the wide range of recovery of manipulative abilities makes rehabilitation of the hand most challenging. The investigators past work has shown that training in a virtual environment (VE) using repetitive, adaptive algorithms has the potential to be an effective rehabilitation medium to facilitate motor recovery of hand function. These findings are in accordance with current neuroscience literature in animals and motor control literature in humans. The investigators are now in a position to refine and optimize elements of the training paradigms to enhance neuroplasticity. The investigators first aim tests if and how competition among body parts for neural representations stifles functional gains from different types of training regimens. The second aim tests the functional benefits of unilateral versus bilateral training regimens.The third aim tests whether functional improvements gained from training in a virtual environment transfer to other (untrained) skills in the real world.