View clinical trials related to Stroke.
Filter by:We propose to enhance the effects of brain plasticity using a powerful noninvasive technique for brain modulation consisting of navigated transcranial magnetic stimulation (TMS) priming with transcranial direct current stimulation (tDCS) in combination with motor-training-like constraint-induced movement therapy (CIMT).
Randomized clinical trial comparing two monitoring strategies, the use of a 48-hour Holter (routine care branch) and an event recorder for 7 days (intervention branch). Patients admitted for cryptogenic stroke will be included. Enrollment and randomization of patients will be carried out during the index case hospitalization, while follow-up will be done on an outpatient basis until day 7.
POLYPATCH® study is RWE multicentre study which examine short and long-term outcomes of using POLYPATCH® when exposed to a larger and more varied population. All data will be retrieved from medical charts for each patient from time of surgery (considered as baseline of study) until a maximum of 3 years after surgery. A minimum of 250 up to a maximum of 300 subjects will be evaluated from 3 to 8 different sites. At least 100 subjects will be evaluated in carotid location and at least 100 in femoral location.
To test capacity of chronic cerebellar stroke patients and healthy individuals to learn and retain a complex bimanual motor skill, trained on the neurorehabilitation robot REAplan® (bimanual version).
People with spinal cord injury (SCI), stroke and other neurodegenerative disorders can follow two pathways for regaining independence and quality of life. One is through clinical interventions, including therapeutic exercises. The other is provided by assistive technologies, such as wheelchairs or robotic systems. In this study, we combine these two paths within a single framework by developing a new generation of body-machine interfaces (BoMI) supporting both assistive and rehabilitative goals. In particular, we focus on the recovery of muscle control by including a combination of motion and muscle activity signals in the operation of the BoMI.
Stroke - still the second commonest cause of death and principal cause of adult neurological disability in the Western World - is characterised by rapid changes over time and marked variability in outcomes. A patient may improve or deteriorate over minutes, and the resultant disability may range from an obvious complete paralysis to subtle, task dependent incoordination of a single limb. Unlike many other neurological disorders, stroke can be exquisitely sensitive to prompt and intelligently tailored treatment, rewarding innovation in the delivery of care with real-world, tangible impact on patient outcomes. Optimal treatment therefore requires both detailed characterisation of the patient's clinical picture and its pattern of change over time. Arguably the most important aspect of the patient's clinical picture -- body movement -- remains remarkably poorly documented: quantified only subjectively and at infrequent intervals in the patient's clinical evolution. The combination of artificial intelligence with high-performance computing now enables automatic extraction of a patient's skeletal frame resolved down to major joints, like that of a stick-man, to be delivered simply, safely, and inexpensively, without the use of cumbersome body worn markers. Central to this technology is patient privacy, with the skeletal frame extracted in real time, ensuring no video data, from which patients can be identified, to be stored or transmitted by the device. Our motion categorisation system -- MoCat -- will be used to study the rapid dynamics of acute stroke, seamlessly embedded in the clinical stream. By quantifying the change in motor deficit over time we shall examine the relationship between these trajectories with clinical outcomes and develop predictive models that can support clinical management and optimise service delivery.
The Telehealth After Stroke Care (TASC) trial is a pilot randomized controlled trial. It aims to evaluate the feasibility of a telehealth based model providing multidisciplinary access including nursing, pharmacy and physician care, and obtain preliminary evidence of efficacy of an integrated telehealth approach to blood pressure management after stroke.
Multi-centre prospective study evaluating computed tomography angiography studies performed for stroke patients as a diagnostic and prognostic imaging biomarker.
Context: After stroke, most patients suffer from hemiparesis with variable functional consequences that can strongly impact autonomy in daily activities. Motor recovery is, therefore, an essential part of the therapeutic strategy in order to optimize the patient's capacities and functional autonomy. Some authors suggest that trunk control would be essential in the capacities of standing balance, transfer tasks and gait. However, no studies have tested the reliability and validity of proprioceptive and sitting balance clinical tests for patients with post-stroke hemiparesis. These tests would be very useful in advancing our understanding of trunk impairments and for clinicians to manage an appropriate treatment strategy. Objective: The main objective is to assess the reliability of the Trunk Positional Sense Test, the unstable sitting test with forceplate and the Modified Functional Reach Test (MFRT) in individuals with post-stroke hemiparesis. The secondary objectives is 1) to assess the validity of the Trunk Positional Sense Test and the unstable sitting test with forceplate, 2) to assess the validity of a phone inertial captors to assess the instable sitting. Method. - Thirty-two individuals with subacute post-stroke hemiparesis will be included in this study. After clinical tests (trunk strength, Balance Assessment in Standing and Sitting, Timed Up and Go test), the MFRT, Trunk Positional Sense Test and unstable sitting will be evaluated by two physiotherapists in a first session (inter-rater reliability). After a rest of 2-4 h, a second similar session was conducted with the first physiotherapist (intra-rater reliability). For unstable seated balance, two tools will be used: the force platform and a smartphone. Reliability will be tested by calculating the intraclass correlation (ICC) and Bland-Altman analysis. For trunk positional sense test and unstable sitting test, the validity will be tested with correlations with each clinical test. The validity, between forceplate variables and inertial phone variables, will be tested with correlations. Perspectives. - The promotion of quality tests to assess patients in clinical practice is essential. The results of this study should provide knowledge for selecting the best trunk control tests to assess the individuals after stroke and to understand the influence of trunk control on functional activities.
The Hong Kong Jockey Club Charities Trust has supported CUHK to launch a three-year project 'CUHK Jockey Club HOPE4Care Programme' to implement four evidence-based advanced rehabilitation technologies in 40 local elderly day care centres and rehabilitation centres, to benefit the community. Our research team had developed the "Augmented Reality (AR) Rehabilitation Training System" that can be used as tools for rehabilitation by individuals who have suffered from a stroke or elderly. The system facilitates an active rehabilitative exercise.