View clinical trials related to Stroke.
Filter by:The purpose of this study is to evaluate the efficacy and safety of ginsenoside-Rd for acute ischemic stroke.
Patients with blockage of the blood vessels that supply blood to the back of the brain, known as vertebrobasilar disease (VBD), are at risk of having a stroke or temporary symptoms of a stroke known as transient ischemic attack (TIA). The risk of repeated stroke associated with VBD may be affected by several risk factors, including the degree to which the blockage reduces the blood flow to the brain. Patients with VBD have different levels of blockage ranging from partial blockage to complete blockage, which can affect the blood flow to the brain by variable amounts. The purpose of this research is to determine if patients with symptomatic VBD who demonstrate low blood flow to the back of the brain on magnetic resonance (MR)imaging are at higher risk of developing another stroke or TIA than patients with normal blood flow.
The purpose of this study is to examine if the strong hand can assist in the recovery of muscle function in the weak hand after a stroke.
The goal of this proposal is two-fold: (1) to further develop and validate a technology, magnetic resonance elastography (MRE), for quantitatively imaging mechanical properties and tension distribution in muscle and (2) to apply the technique for in vivo evaluation of patients with four common, and clinically significant muscle disorders (spasticity, disuse atrophy, myofascial pain and a metabolic myopathy). These studies will employ a magnetic resonance imaging sequence with synchronous motion-sensitizing gradients to map propagating shear waves in the muscle. The technique will assess the mechanical properties of the muscle and its tension distribution. Specifically, the study can be divided into three specific aims. Aim 1: Optimize MRE methods of acquisition and analysis for the assessment of muscle, including electromechanical drivers, data acquisition techniques, and methods for image analysis. Advanced techniques for very rapid MRE assessment of muscle will continue to be developed. Aim 2: Validate the MRE assessment of muscle properties and tension with phantom, ex-vivo muscle, and Finite Element Modeling (FEM) techniques. Finite Element Analysis will be performed by using both phantom and bovine muscles to better correlate MRE wave-length findings as function of muscle properties, tension and fiber architecture. Aim 3: Study In Vivo Normal and Abnormal Muscle. The MRE technique will be applied in vivo to provide elastographic images of abnormal muscle with known disorders. The patient groups chosen for study are each important in their own right, and furnish unique information across the spectrum of muscular disease and dysfunction. Groups to be studied include individuals with new onset of spasticity following an ischemic, hemispheric stroke, disuse atrophy as a result of immobilization, metabolic (hyperthyroid) myopathy and myofascial pain for trigger point identification. The overall hypothesis of this work is that will bring benefits to both basic research and clinical care.
We are inviting patients who have been diagnosed with an ischemic or hemorrhagic stroke and are being transferred by Air Care helicopters to the University of Iowa Hospitals and Clinics (UIHC) for further care to participate in this research study to test the following: 1) To test whether it is possible to go through all the procedures necessary to start a study, including an informed consent, before the patient is transferred by helicopter to Iowa City. 2)To test a low risk medication called, Ranitidine, that might lower the chances of developing chemical pneumonitis (irritation of the lungs by stomach contents), a fairly common complication in patients that have had a stroke. Patients will be randomly assigned to receive a single dose injection of either Ranitidine (50 milligrams (mg)) or placebo (normal saline).
Closure of Patent Foramen Ovale with the AMPLATZER® PFO OCCLUDER in patients with at least two cryptogenic strokes due to presumed paradoxical embolism through a patent foramen ovale and who have failed conventional therapy.
The goals of this trial are to determine the prognostic significance of an elevated level of inflammatory blood markers in people who have experienced small subcortical strokes and who are enrolled in the Secondary Prevention of Small Subcortical Strokes (SPS3) trial.
PRIMARY HYPOTHESIS: Compared with intensive medical therapy alone, intracranial angioplasty and stenting combined with intensive medical therapy will decrease the risk of the primary endpoint by 35% over a mean follow-up of two years in high-risk patients patients with 70% - 99% intracranial stenosis who had a transient ischemic attack (TIA) or stroke within 30 days prior to enrollment) with symptomatic stenosis of a major intracranial artery. SUMMARY: The best treatment for prevention of another stroke or TIA in patients with narrowing of one of the arteries in the brain is uncertain. A common treatment is the use of anti-clotting medications to prevent blood clots from forming in the narrowed vessel. There are a variety of medicines used for this purpose. These medications are usually taken for the rest of a patient's life. However, a treatment that has been used successfully together with anti-clotting medications in patients with narrowing of the blood vessels of the heart is now being studied in the blood vessels of the brain. This treatment is called stenting. Recent research has also indicated a benefit in prevention of recurring stroke by Intensive Medical Therapy, which is defined as treating risk factors for stroke like high blood pressure, elevated LDL (low density lipids - the "bad" form of cholesterol) and diabetes. The purpose of this study is to compare the safety and effectiveness of either Intensive Medical Therapy PLUS Stenting or Intensive Medical Therapy ONLY in preventing stroke, heart attacks or death. The study will enroll patients over a 5 year period. Each participant will be involved in the study for a minimum of 1 year and a maximum of 3 years. Fifty different medical centers in the United States are part of this study. Both the Clinical Coordinating Center and the Statistical Coordinating Center for the entire study will be located at Emory University.
The aim of the proposed study is to implement and evaluate Outreach Facilitation as a means to increase the uptake of evidence-based practice for secondary prevention and management of patients with established CVD and cardiovascular risk factors, in primary care practices throughout the Champlain LHIN. This initiative centers on the use of an Outreach Facilitation Model, in which skilled health professionals known as facilitators (Practice Change Consultants) serve as an expert resource to primary care practices in three areas: a) practice performance assessment, feedback, and consensus building towards goal setting and implementation; b) clinical, technical, organizational resources and practical advice; and c) encouragement to face and move through the challenges associated with implementing system change.
1) Research questions: 1a. Can non-sonographer health care professionals in a community medical office practice setting be trained to detect and evaluate subclinical atherosclerosis? 1b. Can carotid ultrasound performed in community office practices improve physician use of evidence-based, risk-reducing interventions and patient motivation to adhere to therapeutic recommendations?