View clinical trials related to Cerebrovascular Stroke.
Filter by:The goal of this randomized controlled trial is to evaluate body composition, fatigue, mobility level, functional status in with stroke individuals. The main questions it aims to answer are: How is body composition affected in individuals with stroke? How is the level of fatigue affected in individuals with stroke? How is the mobility level affected in individuals with stroke? How is functional status affected in individuals with stroke? In this study, we included 21 patients with stroke and 21 healthy controls. The body composition of the participants was evaluated by Bioelectrical Impedance Analysis (BIA), fatigue level by Fatigue Severity Scale (FSS), mobility level by Rivermead Mobility Index (RMI), and functional status by Functional Independence Scale (FIM).
To evaluate the effect of different risk factors on carotid arteries via ultrasonography parameters.
Evaluation of the safety and performance of the BOBBY™ Balloon Guide Catheter (BGC) in patients with an acute ischemic stroke treatment, a sudden reduction or termination of the blood circulation of the brain, caused by a clot. Immediate treatment is needed to restore the blood circulation in the brain, performing a mechanical removal of the clot (thrombectomy). To prevent clot particles migrating in other parts of the brain circulation during the thrombectomy, balloon guiding catheters are inserted. The aim of the study is to evaluate the safety and performance of the balloon guide catheter BOBBY™ by collecting information from patients, treated with a mechanical thrombectomy and the balloon guide catheter (BOBBY™) after acute ischemic stroke
In this multi-center prospective observational study within a cohort of symptomatic cerebral atherosclerotic stenosis (sCAS) patients, 850 subjects were planed to be enrolled to explore the relationship between cerebral autoregulation (CA) and stroke recurrence, determine the threshold values of CA parameter for predicting stroke recurrence associated with particular stenosis.
Every year, almost 800,000 people experience a stroke in the United States, which lead to upper-limb impairments, making recovery of motor function a priority in stroke rehabilitation. 1) The primary objective of this study is to determine whether fast arm movement training on a tracking task ("Speed-training"), in chronic stroke survivors with mild to moderate paresis, will generalize to improve arm function better than dose-equivalent accuracy training on the same task. 2) study the effect of intensive arm training on the recovery of anticipatory feedforward control. 3) Determine the involvement of cerebellar-cortical circuits in the recovery of arm movements due to speed training.
In this work, a novel hybrid ankle-foot robot is designed for gait rehabilitation after stroke, i.e., exoneuromusculoskeleton with balance sensing feedback (ENMS-BSF) by integrating the advantages of soft pneumatic muscle, functional electrical stimulation, exoskeleton and foot balance feedback in one system. With the assistance of the ENMS-BSF the foot drop and foot inversion could be corrected with improved muscle coordination in the paretic lower limb. The device is wearable and light-in-weight for unilateral application during walking. It is hypothesized that with the intervention of the ENMS-BSF the gait pattern of persons after stroke can be improved with long-term rehabilitative effects.
This study was conducted to determine whether mirror therapy has an additive effect on cross-education of the strength of neuromuscular electrical stimulation (NMES) in patients with hemiplegia. As an outcome measure, the ankle dorsiflexion strength of hemiplegic patients was measured.
The aim of this study is to investigate whether a cold application to the contralateral (affected side) extremity in addition to unilateral neuromuscular electrical stimulation (NMES) application has a facilitating effect on muscle strength in post-stroke hemiplegia patients.
In ischemic stroke, the recanalization rate after intravenous thrombolysis has been estimated to be less than 50% in patients with proximal intracranial artery occlusion; this rate is greater than 80% after endovascular thrombectomy. Thromboelastometry is a method of analysis of coagulation and fibrinolysis in whole blood. The main objective of this study is to evaluate whether the parameters obtained by thromboelastometry are predictive of revascularization at arteriography during mechanical thrombectomy, after treatment with rt-PA thrombolysis.
Deficits in upper limb (UL) functional recovery persist in a large proportion of stroke survivors. Understanding how to obtain the best possible UL recovery is a major scientific, clinical and patient priority. We propose that UL motor recovery may be improved by training that focuses on remediating an individual's specific motor impairment. Our approach is based on evidence that deficits in the control of muscle activation thresholds (spatial thresholds) of the elbow in stroke underlie impairments such as disordered movement and spasticity. Our novel training program focuses on improving the individual's active elbow control range using error augmentation (EA) feedback. Since training intensity and lesion load are key factors in motor recovery that lack guidelines, we will also investigate effects of exercise dose and corticospinal tract (CST) injury on UL recovery. In this multicenter, double-blind, parallel-group, randomized controlled trial (RCT), patients with stroke will participate in an individualized intensive technology-assisted reaching training program, based on error augmentation (EA), in order to improve voluntary elbow function. They will practice robot-assisted reaching in a virtual reality (VR) game setting. We will identify if intensive training with feedback aimed at expanding the range of spatial threshold (ST) control at the elbow (experimental group) is better than intensive training with general feedback about task success (control group). We will also determine the patient-specific optimal therapy dose by comparing kinematic and clinical outcomes after 3, 6 and 9 weeks of intensive training, and again at 4 weeks after training to determine carry-over effects. We will quantify the severity of the participant's motor deficit, as the amount of cortico spinal tract (CST) injury due to the stroke (%CST injury) and relate training gains to their %CST injury. Results of this pragmatic trial will provide essential information for optimizing individualized post-stroke training programs and help determine optimal patient-specific training dosing to improve motor recovery in people with different levels of stroke severity. This type of research involving personalized, impairment-based feedback and dose-effective training has the potential to significantly improve rehabilitation for a greater number of post-stroke individuals and improve the health and quality of life of Canadians.