View clinical trials related to Stroke.
Filter by:The use of virtual reality technology in a telerehabilitation service is not well established in Singapore. This feasibility trial aims to evaluate the benefits of using Jintronix to deliver a clinic-to-home, caregiver-supervised and individualised exercise telerehabilitation program to complement outpatient services and improve clinical outcomes for post-stroke users.
To determine the diagnostic yield of a 30-day smartphone electrocardiogram recording compared to 24-hour Holter monitor for detecting occult paroxysmal atrial fibrillation in patients with a recent ischemic stroke or transient ischemic attack of undetermined etiology after completion of a standard clinical stroke work-up.
The aim of this study is to investigate motivators and barriers for physical activity in patients discharged from hospital for a minor stroke or TIA. The study has a qualitative research design and will be conducted by focus group interviews.
Stroke can be defined as an abrupt loss of brain function that is caused by decreased cerebral blood flow. Stroke can occur at all stages of life, but presentation is variable depending on age, involved artery, and underlying risk factors.
Uncertainty remains regarding the impact of enteric-coated (EC) aspirin as it relates to the reduction of CV risk. We hypothesize that EC formulation based on the previous report may blunt aspirin response as evidenced by reduced Thromboxane A2 (TXA 2) levels in diabetic patients.
Stroke patients have limited hand mobility post-stroke, thus inhibiting them from performing daily functional tasks independently, resulting in reduced quality of life. Current hand rehabilitation robotic devices are typically driven by rigid linkages/joints, which subject the fingers into a single plane of motion that is unnatural and uncomfortable. These devices belong to the class of continuous passive motion (CPM) devices that only promote hand range-of-motion, but do not require the patient to play an active role in performing the hand exercises. There is a strong need for a device that can resolve the lack of compliant robot-assisted hand motion and lack of intuitive user control in assistive and rehabilitation processes. This proposed research aims to fill the above-mentioned gaps for current hand rehabilitation devices by developing a soft robotic glove that provides compliant assistance to bidirectional hand motion, coupled with intuitive user control. In the short term, the robotic glove will likely enhance the patients' hand flexion-extension range of motion and improve the neuro-motor control of the hand. In the long term, the robotic glove will act as an adjunct to therapists, thereby raising productivity in the presence of growing manpower constraints and optimizing therapy time for the patients; this can potentially enhance recovery time and quality of life, as a result of improved hand mobility for common daily tasks.
The objective of this study is to investigate psychometric properties of dual-task walking assessments and compare effects of multi-task walking interventions on walking for patients with chronic stroke. Specifically, we will investigate psychometric properties (i.e. reliability, validity, and responsiveness) of dual-task walking assessments with the Stroop task for chronic stroke individuals (Aim 1). The second aim of this study is to compare the effects of multi-task walking training mode to traditional rehabilitation in patients with chronic stroke (Aim 2). The third aim of this study is to compare the immediate, retained, and transfer effect of multi-task overground walking training to multi-task treadmill walking training on walking function, cognitive performance, task coordination, and community ambulation in patients with chronic stroke (Aim 3).
Fish oil contains a large amount of long-chain omega-3 polyunsaturated fatty acids, which are considered an important component of a healthy diet. As many patients do not eat fish, supplementation with fish oil is a common strategy to provide sufficient amounts of these particular fatty acids in daily life. Fish oil supplementation has been investigated for decades for its cardio-protective effects and its ability to lower serum triglycerides. People with diabetes mellitus have an increased risk for cardiovascular events and show alterations in lipids with high triglycerides. Whether there is a benefit of fish oil supplementation in this high risk group remains unclear with major international diabetes associations recommending against the use of fish oil supplements. The European Association for the Study of Diabetes (EASD) has not made any recommendations about the use of fish oils in people with diabetes since 2004. To inform the update of the EASD clinical practice guidelines for nutrition therapy, the Diabetes and Nutrition Study Group (DNSG) of the EASD has commissioned the proposed systematic review and meta-analysis of randomized controlled trials of the effect of fish oil supplementation on cardiovascular outcomes in people with diabetes and use the Grading of Recommendations Assessment, Development and Evaluation (GRADE) approach to assess the certainty of the evidence.
Mirror therapy (MT) has been demonstrated, in terms of neuroplasticity, to improve sensorimotor function of paretic upper extremity (UE) in chronic stroke patients. Central and peripheral electrical stimulation techniques such as ranscranial direct current stimulation (tDCS) and functional electrical stimulation (FES) can individually enhance effects of MT, combining both of them with MT can be a potentially valuable approach to maximize neural and functional recovery post stroke. To our knowledge, no studies combined central and peripheral neural network reorganization technique with motor behavioral learning approach to investigate its possible benefit after stroke. This project will be the first to design a "dual neurotechnology-aided MT (DNA-MT)", which combines tDCS and FES with contemporary neurorehabilitation approaches (i.e., MT) to stimulate both central and peripheral nervous systems to maximize neural and functional recovery post stroke. Investigators will determine the efficacy and neurophysiological and motor mechanisms related to this novel DNA-MT approach and identify potential responders to this novel intervention.
This project will employ the robot-assisted system to assist patients to perform the grasping and releasing movement of both hands simultaneously while mirror priming strategy is applied, and, then, perform intensive and game-based finger movement training with the robotic assistance. This randomized controlled trial is the first study to explore the benefits of combined robotic-assisted therapy and mirror priming strategy in stroke patients. This proposed combined approach might be a novel combination of enhancing movement performance, daily function and quality of life for patients with stroke.