View clinical trials related to Cerebrovascular Accident.
Filter by:The goal of this clinical trial is to explore Clinical Effect of Intermittent Oro-esophageal Tube Feeding in Dysphagic Stroke Survivors. The main questions it aims to answer are: Can Intermittent Oro-esophageal Tube Feeding improve psychological status in Dysphagic Stroke Survivors? Can Intermittent Oro-esophageal Tube Feeding improve social interaction in Dysphagic Stroke Survivors? Patients will be randomly allocated into the control group or the experimental group, all under rehabilitation treatment, the experimental group will be given Intermittent Oro-esophageal Tube Feeding as nutrition support and the control group will be given Nasogastric tube. The study lasts 15 days for each patient. Researchers will compare the Social Functioning Scale, Social Support Questionnaire, Patients Health Questionnaire-9, General Anxiety Disorder-7 to see if the Intermittent Oro-esophageal Tube Feeding can help improve the symptom.
The proposed study will generate a national mapping of healthcare utilization patterns in people post-stroke in the chronic phase living in the community; examine the associations between individual-level characteristics, health outcomes and healthcare utilization; and will describe patients' perspectives on their needs for health services and their experiences of using them. The study will use mixed-methods methodology (quantitative and qualitative) and will proceed in three parts. In part 1, data will be extracted retrospectively from electronic medical records of of Clalit Health Services, covering all patients with a stroke diagnosis. In part 2, a sub-sample of 240 patients will be asked to answer standardized questionnaires. In part 3, a sub-sample of 20 participants will participate in in-depth, semi-structured interviews.
Cardiovascular disease is regarded as main predisposing risk factor for cerebrovascular stroke. Cardiac dysfunction can both worsen the pre existing cerebral damage and cause new brain injury Diseases of the heart and the brain are closely entangled. Vascular diseases of both organs share the same risk factors.
Cardiovascular disease (CVD) represents the leading cause of death worldwide. While medications, such as statins, significantly reduce atherosclerotic CVD (ASCVD) risk by lowering low density lipoprotein levels, they may also have pleiotropic effects on inflammation. The immunomodulatory effects of these medications are relevant to ASCVD risk reduction given that inflammation plays a central role in atherosclerotic plaque formation (atherogenesis) and influences the development of vulnerable plaque morphology. Patients on statins, however, may have residual inflammation contributing to incident ASCVD despite the potent LDL-lowering effects of statins. While new therapies, such as proprotein convertase subtilisin/kexin type 9 (PSCK9) inhibitors, further reduce incident ASCVD and drastically reduce LDL-C below that achieved by statin therapy alone, PCSK9 inhibitors may also have pleiotropic effects on inflammation. Thus, PCSK9 inhibitors may help reduce arterial inflammation to a level closer to that of patients without ASCVD. This study will apply a novel targeted molecular imaging approach, technetium 99m (99mTc)-tilmanocept SPECT/CT, to determine if residual macrophage-specific arterial inflammation is present with statin therapy and the immunomodulatory effects of PSCK9 inhibition. Given the continued high mortality and morbidity attributable to ASCVD, strong imperatives exist to better understand the immunomodulatory effects of lipid lowering therapies and residual inflammatory risk. This understanding, in turn, will inform the development of new ASCVD preventative and treatment strategies as well as elucidate other indications for established therapies.
The purpose of the study is to induce plasticity in corticospinal-motoneuronal synapses serving an intrinsic hand muscle of the hemiparetic limb in humans with stroke. Neurologically-intact controls are included to verify that an effect was present in absence of stroke. Outcome measures in controls also provide a reference point that help us to understand the size of the effect and mechanisms mediating the effect in the neurologically-intact system.
The aim of this study: 1. To evaluate the correlation between the clinic tools and ultrasound elastography/ ARFI imaging in stroke patients. 2. To assess the reliability of elastography/ ARFI imaging in spasticity evaluation of stroke patients.
Stroke may result in lower extremity spasticity, which interfere with motor voluntary function and activities of daily living. Botulinum toxin type A (BTX-A) has been shown to improve lower extremity spasticity of stroke patients. There are no researches to compare the efficiency of BTX-A injection by different guidance methods in the deep muscles of lower extremity for stroke patients. The aims of investigator's study were to compare the effectiveness of BTX-A injection by different guidance methods (palpation of anatomical landmarks, ultrasonography direct) in deep spastic muscles of lower extremity for stroke patients with varus spasticity and spastic claw toes , and to study the correlation between muscles spasticity and elastic properties by the sonoelastography/acoustic radiation force impulse imaging and follow the change of elastic properties in spastic muscles after BTX-A injection. We will enroll 80 hemiplegic stroke patients with varus spasticity / spastic claw toes and duration more than 6 months. Under different guidance methods (palpation of anatomical landmarks, electric stimulation, ultrasonography direct and indirect methods), BTX-A will be injected to the flexor digitorum longus and posterior tibialis muscles. If the patients have moderate hallucis spasticity, flexor hallucis longus muscle will be injected. The BTX-A dose is 50 units for each muscle. Outcome measures include Modified Ashworth Scale, Brunnstrom stage, muscle power, range of motion, the visual analog scale of pain, Stroke Impact Scale, Barthel index and lower extremity function tests, balance test, Goal Attainment Scale, sonoelastography and acoustic radiation force impulse imaging. All the assessments will be performed before BTX-A injection and followed up at 1 months, 2 months, 3 months and 6 months after injection. After performing all the assessments, investigator will investigate the efficiency of BTX-A by different guidance methods.
The goal of this project is to test a device (Zondervan et al, 2013) that can provide active assistance for arm training for people in Vietnam with severe to moderate stroke, but that is also simple and does not rely on powered actuators. The hypothesis is that individuals with a severe chronic stroke, who exercise with a mechanically passive rehabilitation device, will have improved arm movement ability without experiencing an increase in arm pain.
Stroke represents the third commonest cause of death after heart disease and all types of cancer combined, and is the leading cause of long-term permanent disability among adults. Recombinant tissue plasminogen activator (tPA) is currently the only safe medical treatment for acute ischemic stroke but only a small fraction of patients are eligible for a thrombolysis treatment. Current guidelines on thrombolysis post stroke with tPA exclude its uses beyond 3 hours after stroke onset and when time of onset is unknown thus excluding many patients from potentially beneficial treatment. For an appropriate triage and management of patients, it is essential to improve imaging techniques beyond a simple CT scan. Perfusion computed tomography (PCT), currently considered as an investigational technique, permits a quantitative determination of the cerebral perfusion within the brain. It helps distinguish salvageable ischemic penumbra from irreversibly infarcted core in acute stroke patients. This technique has therefore the potential to select patients who are most likely to benefit from thrombolysis with tPA, can be used to predict the benefit after thrombolysis and determine the suitability for other therapeutic interventions. In patients with a primary diagnosis of TIA, PCT would help to identify possible persistent cerebral ischemia but also provide important information for rapid instigation of prophylactic strategies. The diagnosis and management of patients with ischemic stroke and TIA is challenging and is primarily based on clinical assessment in conjunction with neuroimaging. Development of specific molecular biomarkers as additional tools to support a clinical diagnosis, exclude common stroke mimics such as migraine or epileptic seizures, identify patients at risk of disease, and help guide patient treatment by predicting complications following t-PA treatment would be of great value.
The investigators are performing a study to determine whether changes in blood flow occur in the neck and back of the brain following a series of head positions and a manipulation of the upper neck. Each participant will be asked to undergo a series of MRI's to evaluate whether there are any changes in blood flow resulting from any of the head positions or manipulation. The study will be conducted over a period of 1 day and each participant can anticipate the testing to take approximately 120 minutes.