View clinical trials related to Hemorrhagic Stroke.
Filter by:In this pilot trial, the investigator will compare early post-stroke BP management using an integrated Telehealth After Stroke Care (iTASC), to usual care with a primary outcome of BP control defined by the mean 24-hr blood pressure through remote monitoring at 3 months and survey patient reported outcomes. As this is a preliminary trial with a small sample, estimates derived will be used to plan the subsequent larger confirmatory trial. Descriptive statistics will characterize the randomized patients completing surveys and outcome assessments. The study will evaluate the primary clinical outcome (BP <140/90 mmHg) 90 days post-discharge as a function of treatment and adjusted for from baseline BP. Change from baseline BP will also be assessed as an outcome. Change in activity level and duration, as well as trends in sedentary time will be compared between arms, and pre- and post-intervention with visual tailored infographics in the intervention arm. Moderating effects of demographics will also be evaluated. Decisions regarding the pursuit of a subsequent trial will use the primary outcome, and analysis of all other measures will be hypothesis generating.
Adults with stroke-related disability spend more time sedentary than adults without stroke-related disability, which places them at risk for poor cardiovascular health outcomes. Few interventions are designed to reduce post-stroke sedentary time. The purpose of this research is to test whether the teleABLE (Activating Behavior for Lasting Engagement) Intervention is feasible and acceptable to adults within the first 12 months post-stroke. The hypothesis is that teleABLE can be feasibly delivered using videoconferencing within the first 12 months post-stroke. 10 participants will complete assessments and activity monitoring (activPAL micro3) at 0 (baseline) and 8 (post-intervention)-weeks. Participants will complete 12 sessions of the teleABLE intervention. Findings from this study will be used to guide the intervention protocol in the planned next phase of this research.
Patients after stroke with upper limb spasticity treated with botulinum toxin-A (BTX-A) will be included in this two-part study. In the first part, goal attainment scaling and comprehensive assessment of motor functioning will be performed before BTX-A application and after two weeks. In the second part, the patients will be randomised into a test group performing prescribed regular exercise for two weeks and a control group exercising at their own discretion during the same period, whereby the patients' health-related quality of life will be assessed at the beginning and end of the two-week period.
After stroke, blood vessels in the brain can become damaged, and the brain's ability to control blood flow can be impaired. The brain therefore may be less able to maintain a healthy level of blood flow during challenges such as changes in posture. Studies have shown that sitting upright early after stroke can cause brain blood flow to reduce. However, no studies have investigated how standing up affects blood flow to the brain. In this study, transcranial Doppler ultrasound will be used to assess how cerebral blood flow velocity changes when acute stroke patients stand up.
The purpose of this prospective observational study is to create a database in which data will be collected from every patient admitted to the Stroke unit and who has explicitly given his or her informed consent for this data collection. The data that will be collected are part of the standard clinical data. No additional investigations, blood tests or any other tests will be performed. The purpose of this database is to conduct retrospective observational research in the future and will allow the hospital to keep track of some important quality indicators in stroke care.
The purpose of this study is to compare the effectiveness of a 4-week lower extremity telerehabilitation protocol with aims to improve lower extremity function to a 4-week attention-controlled education program on lower extremity clinical outcomes, quality of life, and healthcare resources utilization among community dwelling adults with stroke across Canada.
This research aims to examine changes in plastic potential of the visual system with time from stroke affecting primary visual cortex. We will measure structural and mechanistic aspects of progressive degeneration along the early visual pathways, correlating them with changes in visual performance, and in responsiveness to visual restoration training. This project will advance both scientific knowledge, as well as technical capability and clinical practices for restoring vision and quality of life for people suffering from cortical blindness.
Delipid Extracorporeal Lipoprotein filter from Plasma (DELP) has been found to improve neurological function and life ability of AIS patients and approved for the treatment of AIS by China Food and Drug Administration (CFDA). Our recent study imply that the neuroprotective effect of DELP involved multiple neuroprotective mechanism such as anti-inflammation, free radical scavenging, and decreasing MMP-9. Based on the multiple mechanisms, we argue that DELP may exert neuroprotective effect on acute cerebral hemorrhage.
This is a pilot, monocentric clinical investigation to evaluate the suitability of StrokeWave in distinguishing haemorragic from ischaemic strokes. The StrokeWave is a microwave device which employs a novel technique to generate images by processing very low power (<1mW) microwaves. The trial design has been developed in order not to interfere with thw standard diagnostic approach used for the hyperacute stroke patients, nor to modify the usual standard timing of the routine assessment.
Stroke is the first cause of death among Spanish women and main cause of disability. Reperfusion therapies of the occluded artery remain the only useful approach in acute ischemic stroke. However, the efficacy of these strategies is highly time-dependent and due to the need of neuroimaging (CT or MRI) to differentiate between ischemic and hemorrhagic stroke, impossible to be performed at the pre-hospital level. The investigators aim to set-up a point of-care (POC) device to validate a biomarker panel differentiating ischemic and hemorrhagic stroke at the pre-hospital level using a blood sample and to validate a second biomarker panel for the early identification of patients with large vessel occlusions (LVO), which are candidates for mechanical thrombectomy. For that, the investigators will recruit a 300 patients' cohort with pre-hospital blood samples using available POCs for each of those markers.