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Active clinical trials for "Stroke"

Results 131-140 of 5353

Effect of NMES on Balance and Fall Risk in Chronic Stroke

Chronic Stroke

The aim of this study is to describe the effect of neuromuscular electrical stimulation (NMES) in the form of functional electrical stimulation (FES) applied to different lower limb muscles on reactive balance and gait performance in stroke participants. Methods: Twenty individuals with chronic stroke will be asked to perform an experimental protocol that includes a postural disturbance in the form of a slip- or trip-like perturbation and a standardized walking test in both laboratory and outdoor environments with and without FES applied to different lower limb muscles of the paretic leg. FES will be applied using an advanced software that is able to synchronize muscle activation with the time of perturbation onset and according to the phases of gait. This project design aims to examine whether a specific pattern of lower limb muscle stimulation could improve the kinematic and behavioral responses during reactive balance following slip- and trip-like perturbations. Additionally, the project aims to see if the kinematic and spatio-temporal gait parameters can be modified during a standardized walking test under different sensory and environmental conditions.

Recruiting22 enrollment criteria

Repetitive Nerve Stimulation to Improve Recovery After Stroke

Stroke

Upper limb paresis is the most common type of post-stroke neurological impairment and a major cause of functional disability. Repetitive peripheral electrical stimulation (RPES) is a novel strategy to improve upper limb motor performance in the post-stroke chronic phase but its effects in the subacute phase are still poorly understood. The objectives of this study are to compare the effects of RPES on motor performance of the upper limb in the subacute and chronic phases of stroke, and to identify the mechanisms underlying this intervention.

Recruiting13 enrollment criteria

Ischemic Conditioning Improves Walking Function Post Stroke

StrokeStroke4 more

This innovative study will address scientific and clinical areas relatively unexplored in chronic stroke that could lead to greater recovery of walking. Ischemic Conditioning (IC) is a non-invasive, simple procedure that improves motor function, exercise performance and cardiovascular function in healthy controls, but it has never been applied to the stroke population. We postulate that IC enhances the recruitment of motoneurons and results in positive neural adaptations, improves vascular endothelial function and peripheral blood flow, and together these improvements result in an increased capacity to exercise and faster walking speed. Future studies will examine the effects of IC and traditional therapy at different time points of recovery post stroke, durability of IC, molecular mechanisms of neural and cardiovascular adaptation and the efficacy compared with other adjuncts.

Recruiting18 enrollment criteria

Novel Training Environment to Normalize Altered Finger Force Direction Post Stroke

Stroke

Despite the functional importance, fingertip forces are rarely explicitly addressed with feedback in therapy. This gap in treatment is due to a lack of tools to provide explicit feedback on patients' volitional finger force generation. To address this unmet need, the investigators developed a novel tool for practice of volitional three-dimensional (3D) force generation with explicit feedback. The objective of this project is to determine if 3D finger force training is an effective tool in restoring hand function post stroke.

Recruiting12 enrollment criteria

Smartphone-based Balance Assessment System for Chronic Stroke

Stroke

Background: Stroke is the 4th deadly disease in Taiwan, 2016. Long term disabilities, balance impairments and limitations of activities of daily living are common characteristics of stroke. Balance assessment and training play an important role in stroke rehabilitation. However, there are some limitations. Clinical assessments (functional scales) could not avoid some errors caused by subjective observations from different test givers; instrumental assessments (force plates, Biodex system) are complex to approach, not easy to use, and difficult to get. Balance training could not meet the expected effectiveness due to inconvenient transportations, forgotten home programs, and time limitation caused by huge amount of patients with insufficient therapists. Smartphones had been used for health promoting and sport training. The balance training related applications could be found at Google Play store, but clinically proved effective App and stroke-designed App has not yet existed. The balance rehabilitation of stroke sufferers will be benefited if there is an easy-use and effective App that supports balance assessment and personalized training by combining the convenience and powerfulness of smartphones. Purpose: The purposes of this study are: Year 1 Develop a smartphone-based application to assess and train static balance for stroke sufferers, and evaluate the feasibility of the application; Year 2 Develop a smartphone-based application to assess and train dynamic balance for stroke sufferers, and evaluate the feasibility of the application; Year 3 Build a static and dynamic balance performance standard by recruiting healthy subjects, then evaluate the training effects of the application on balance performance of stroke sufferers. Methods: Android smartphones will be used to analyze the balance performance by collecting acceleration and angular velocity data from the built-in sensors. Static balance assessment and training system will be developed in the first year. The system will assess balance ability by testing the performance under different standing conditions, then provide a training plan according to the assessment result. Dynamic balance assessment and training system will be developed in the second year. The system will execute limits of stability test to assess dynamic balance, then provide a training plan according to the assessment result. Validity and reliability will be tested in the first and second year, by comparing the smartphone assessment result with Berg balance scale, force plate, and Biodex balance system. In the third year, we will recruit healthy subjects to create a balance performance standard, then recruit chronic stroke subjects to evaluate the training effect of the App by comparing with traditional rehabilitation therapy. Expected Results & Contribution When the study is completed, several valuable contributions will be provided. These include (1) developing a smartphone application which can be used to assess and rehabilitate static and dynamic balance functions on stroke sufferers; (2) evaluating the feasibility and the training effects of the smartphone application, and providing evidence-based results for scientific paper publication; (3) clinically offering an easy-used and effective tool for clinicians and subjects with stroke to evaluate and improve balance performance.

Recruiting5 enrollment criteria

Spiral Strapping for Improving Upper Limb Functions

StrokeSplints1 more

Upper limb recovery after stroke is unacceptably poor with almost half of stroke survivors likely to regain some functional use. The rehabilitation process for upper extremity for individuals with stroke is of long duration and clinicians face the challenge of identifying a variety of assistive appliances that may be adapted and graded to facilitate this process. One of these appliances that is widely used in rehabilitation is splint and strapping. Therefore, this study aims to investigate the effectiveness of this modality in rehabilitation of the upper limb in stroke survivors.

Recruiting14 enrollment criteria

A Study to Test Asundexian to Prevent a Clot-related Stroke in Participants After an Acute Ischemic...

Prevention of Ischemic StrokeAcute Non-cardioembolic Ischemic Stroke1 more

Researchers are looking for a better way to prevent an ischemic stroke which occurs when a blood clot travelled to the brain in people who within the last 72 hours had: an acute stroke due to a blood clot that formed outside the heart (acute non-cardioembolic ischemic stroke), or TIA/mini-stroke with a high risk of turning into a stroke (high-risk transient ischemic attack), and who are planned to receive standard of care therapy. Acute ischemic strokes or TIA/mini-stroke result from a blocked or reduced blood flow to a part of the brain. They are caused by blood clots that travel to the brain and block the vessels that supply it. If these blood clots form elsewhere than in the heart, the stroke is called non-cardioembolic. People who already had a non-cardioembolic stroke are more likely to have another stroke. This is why they are treated preventively with an antiplatelet therapy, the current standard of care. Antiplatelet medicines prevent platelets, components of blood clotting, from clumping together. Anticoagulants are another type of medicine that prevents blood clots from forming by interfering with a process known as coagulation (or blood clotting). The study treatment asundexian is a new type of anticoagulant currently under development to provide further treatment options. Asundexian aims to further improve the standard of care without increasing the risk of bleeding. The main purpose of this study is to learn whether asundexian works better than placebo at reducing ischemic strokes in participants who recently had a non-cardioembolic ischemic stroke or TIA/mini-stroke when given in addition to standard antiplatelet therapy. A placebo is a treatment that looks like a medicine but does not have any medicine in it. Another aim is to compare the occurrence of major bleeding events during the study between the asundexian and the placebo group. Major bleedings have a serious or even life-threatening impact on a person's health. Dependent on the treatment group, the participants will either take asundexian or placebo as tablets once a day for at least 3 months up to 31 months. Approximately every 3 months during the treatment period, either a phone call or a visit to the study site is scheduled on an alternating basis. In addition, one visit before and up to two visits after the treatment period are planned. During the study, the study team will: Check vital signs such as blood pressure and heart rate Examine the participants' heart health using an electrocardiogram (ECG) Take blood samples Ask the participants questions about how they are feeling and what adverse events they are having. An adverse event is any medical problem that a participant has during a study. Doctors keep track of all adverse events that happen in studies, even if they do not think the adverse events might be related to the study treatments. In addition, the participants will be asked to complete a questionnaire on quality of life at certain time points during the study.

Recruiting6 enrollment criteria

Changes in Motor Function and Brain Connectivity on Subacute Stroke Patients, Associated With Videogame...

Ischemic Stroke

The use of interactive applications associated with movement sensors has begun to spread as an option for the reinforcement of physical rehabilitation therapies in patients with acquired motor disabilities as a consequence of some neurological damage, due to their portability and the relative autonomy that they grant to the patient. However, the results of its effectiveness and impact continue to be discreet compared to traditional therapy. The present study aims to explore possible changes in motor function and in the brain's functional connectivity through resting-state functional Magnetic Resonance Imaging (rs-fMRI), for subacute ischemic stroke outpatients, associated with occupational therapy using interactive applications as a therapeutic complement, comparing with patients on conventional therapy, for which a randomized pilot study with an experimental group and a matched control group will be carried out. The intervention will consist of the application of a virtual rehabilitation program in addition to physical therapy for the experimental group, while the control group will receive conventional physical therapy. Before and after the said intervention, standardized tests will be applied to evaluate the mobility, motor function, and cognitive impairment of the participants. The results obtained will be subject to statistical analysis.

Recruiting13 enrollment criteria

Efficacy of Acupuncture at Acupoints Group Around the Base of Skull for Post-Stroke Depression

Post-stroke Depression

The objective of this trial is to evaluate the efficacy and safety of electroacupuncture at acupoints group around the base of skull for post-stroke depression.

Recruiting9 enrollment criteria

Fibrinogen Replacement to Prevent Intracranial Haemorrhage in Ischemic Stroke Patients After Thrombolysis...

Intracranial HemorrhagesIschemic Stroke

Fibrinogen replacement could prevent haemorrhagic complications in ischemic stroke patients with secondary post-rtPA hypofibrinogenemia

Recruiting7 enrollment criteria
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