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CVA (Cerebrovascular Accident) clinical trials

View clinical trials related to CVA (Cerebrovascular Accident).

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NCT ID: NCT05847595 Recruiting - Clinical trials for CVA (Cerebrovascular Accident)

Implicit Versus Explicit Motor Training for Upper Extremity Rehabilitation in Chronic Stroke Patients

Start date: June 10, 2023
Phase: N/A
Study type: Interventional

Training methods that improve proprioception of the shoulder joint involve specific tasks targeting joint position sense, kinesthesia, or sense of force. These exercises can involve explicit or implicit motor learning. Explicit learning involves verbal knowledge of movement performance, while implicit learning involves minimal verbal knowledge and learning in a less conscious manner. The purpose of the study is to identify the efficacy and difference between implicit and explicit motor training in improving upper extremity functions in chronic stroke patients. The study will use laser pointer pattern tracking exercises and precise repositioning tasks for explicit motor training and a cognitive-motor dual-task training for implicit motor training. The laser-pointer assisted angle reproduction test, Wolf Motor Function Test and Arm Motor Ability Test will be used for evaluation.

NCT ID: NCT05515237 Recruiting - Stroke Clinical Trials

Constraint-Induced Movement Therapy Plus Sensory Components After Stroke

Start date: March 30, 2023
Phase: N/A
Study type: Interventional

Constraint-Induced Movement Therapy or CI Therapy is a form of treatment that systematically employs the application of selected behavioral techniques delivered in intensive treatment over consecutive day with the following strategies utilized: behavioral strategies are implemented to improve the use of the more- affected limb in life situation called a Transfer Package (TP), motor training using a technique called shaping to make progress in successive approximations, repetitive, task oriented training, and strategies to encourage or constrain participants to use the more-affected extremity including restraint of the less-affected arm in the upper extremity (UE) protocol. Numerous studies examining the application of CI therapy with UE rehabilitation after stroke have demonstrated strong evidence for improving the amount of use and the quality of the more-affected UE functional use in the participant's daily life situation. CI Therapy studies with adults, to date, have explored intensive treatment for participants with a range from mild-to-severe motor impairment following stroke with noted motor deficits and limited use of the more-affected arm and hand in everyday activities. Each CI Therapy protocol was designed for the level of impairment demonstrated by participants recruited for the study. However, often following stroke, patients not only have motor deficits but somatosensory impairments as well. The somatosensory issues have not, as yet, been systematically measured and trained in CI Therapy protocols with adults and represent an understudied area of stroke recovery. We hypothesize that participants with mild-to-severe motor impairment and UE functional use deficits can benefit from CI therapy protocols that include somatosensory measurement and training components substituted for portions of motor training without loss in outcome measure gains. Further, we hypothesize that adults can improve somatosensory outcomes as a result of a combined CI therapy plus somatosensory component protocol.

NCT ID: NCT05492513 Recruiting - Stroke Clinical Trials

Constraint-Induced Movement Therapy for Adults Post-Stroke With Mild Upper Extremity Impairment

Start date: December 8, 2022
Phase: N/A
Study type: Interventional

Constraint-Induced Therapy (CI Therapy) is a behavioral approach to neurorehabilitation and consists of multi-components that have been applied in a systematic method to improve the use of the limb or function addressed in the intensive treatment. CI Therapy for the more-affected upper extremity (UE) post-stroke is administered in daily treatment sessions over consecutive weekdays. Sessions include motor training with repeated, timed trials using a technique called shaping, a set of behavioral strategies known as the Transfer Package (TP) to improve the use of the more-affected hand in the life situation, and strategies to remind participants to use the more-affected UE including restraint. Robust improvements in the amount and qualify of use have been realized with stroke participants from mild-to-severe UE impairment.

NCT ID: NCT05174676 Recruiting - Paresis Clinical Trials

Robotic Enhanced Error Training of Upper Limb Function in Post-stroke Patients

Start date: December 20, 2021
Phase: N/A
Study type: Interventional

Background: Stroke is a common cause of morbidity, including paresis, and stroke survivors often have reduced function in their paretic arm. Many do not regain full recovery of their arm function, which negatively impacts their quality of life. Recent studies have indicated that robotic training may improve upper limb function abilities among stroke survivors, by enabling repetitive, adaptive, and intensive training and more accurate control of task complexity. Robotic training in addition to standard rehabilitative care has shown promise for improving functional skills among stroke survivors. One type of robotic training is error enhancement, whereby an error made by the patient is exaggerated, increasing the signal to noise ratio which causes errors to be more noticeable. This, in turn, enhances movement correction. Previous studies have found that error enhancement has promise as a clinical treatment for patients with motor deficits. Objectives: This study aims to evaluate the effect of a robotic device (DeXtreme) on the functional capabilities of the paretic arm of stroke survivors. This device aims to improve arm function by utilizing error enhancement techniques. Methods: A double-blind randomized placebo-controlled study comparing treatment outcomes between two groups to assess the effect of error enhancement robotic training on functional use of the arm and hand in patients after stroke. Forty stroke patients will undergo 6 sessions of 25 minutes each with the Dextreme device. One group will receive training with error enhancement forces applied, while the control group will receive similar training without error enhancement. Outcomes (motor function, speed, tone, and spasticity) will be assessed twice prior to and following the treatment sessions,

NCT ID: NCT04829071 Recruiting - Stroke Clinical Trials

Cognition and Motor Learning Post-stroke

Start date: January 16, 2023
Phase: Early Phase 1
Study type: Interventional

This project seeks to determine how post-stroke cognitive impairment moderates motor learning during walking in older adults with chronic stroke and identify brain structural markers that mediate this relationship. The chosen experimental design integrates biomechanical analyses, neuropsychological assessments, and brain imaging techniques to determine the impact of post-stroke cognitive impairment severity on two forms of motor learning (explicit and implicit) and examine the role of the dorsolateral prefrontal cortex in the relationship between cognition and explicit motor learning. Ultimately, this work may lead to the development of a more comprehensive, effective treatment approach to improve walking dysfunction in older adults post-stroke.

NCT ID: NCT04530955 Recruiting - Clinical trials for Traumatic Brain Injury

Transitioning to a Valve-Gated Intrathecal Drug Delivery System (IDDS)

Start date: September 24, 2020
Phase: N/A
Study type: Interventional

Comparing the efficacy of Intracthecal Baclofen dose between the Prometra II and Medtronic SynchroMed II for patients with spasticity and with current a current SyncroMed II pump needing replacement.

NCT ID: NCT04437251 Recruiting - Gait, Hemiplegic Clinical Trials

Effect of Brain Stimulation on Stepping Performance in Stroke Survivors and Healthy Adults

Gait
Start date: September 26, 2014
Phase: N/A
Study type: Interventional

Participants are being asked to participate in a research study conducted by Shih-Chiao Tseng, PT, Ph.D. at Texas Woman's University. This research study is to determine whether low-intensive brain stimulation can enhance learning of a leg movement task. The investigators also want to know if brain stimulation can improve the nerve function and walking performance. Our goal is to understand any relationship between brain stimulation and overall movement control improvement. Participants have been invited to join this research if they have had a stroke before or they are healthy adults aged 21 years or older. Research evidence shows stroke can induce permanent brain damage and therefore may cause a person to have trouble learning a new task. This in turn may significantly impact the recovery of motor function in stroke survivors. In addition, the investigators also want to know how a healthy person learns this new leg task and see if her/his learning pattern differs from a stroke survivor. This study comprises two phases: Phase I study investigates short-term effects of brain stimulation on leg skill learning and only requires two visits to TWU. The total time commitment for Phase I study will be about 6.5 hours, 3.5 hours on the first visit and three hours on the second visit; Phase II study is an expanded version of Phase I study to investigate long-term effects of brain stimulation on leg skill learning and requires to complete 12 visits of exercise training paired with brain stimulation over a four-week period and additional one visit for follow-up test. The total time commitment for Phase II study will be about 20 hours, a total of 18 hours for 12 exercise training sessions and two hours for a follow-up test. The investigators hypothesize that people with chronic stroke will show a slower rate of acquiring this leg skill as compared to healthy adults. The investigators also hypothesize that co-applying brain stimulation with 12 sessions of exercise training will enhance skill learning of this leg task for people with chronic stroke and this 12-session exercise program may exert beneficial influences on the nerve function and leg muscle activation, and consequentially improve motor control for walking.

NCT ID: NCT04411303 Recruiting - Clinical trials for CVA (Cerebrovascular Accident)

A Novel, Comprehensive Approach to Post-stroke Gait Rehabilitation

Start date: June 9, 2021
Phase: Phase 1
Study type: Interventional

The goal of this project is to determine the feasibility and optimal parameters of a novel, comprehensive approach to gait training in individuals with chronic stroke. The comprehensive approach includes biofeedback-based gait training and aerobic exercise intensity-based gait training.

NCT ID: NCT04042961 Recruiting - Clinical trials for CVA (Cerebrovascular Accident)

Reactive Balance Training and Fitness

Start date: September 1, 2019
Phase: N/A
Study type: Interventional

People with stroke should exercise to maintain function and reduce the risk of another stroke. Different types of exercise target different components of fitness, such as aerobic, strength, and balance. Post-stroke exercise guidelines exist for each type of exercise separately (eg, brisk walking as aerobic exercise, resistance training for strength, and Tai Chi for balance). Meeting these recommendations means spending a lot of time exercising, and people with stroke say that lack of time and fatigue are barriers to exercise. It is possible to target several components of fitness with one type of exercise. 'Reactive balance training' (RBT) is a type of exercise that improves control of reactions that are needed to prevent a fall after losing balance, and is the only type of exercise with potential to prevent falls in daily life post-stroke. Because RBT involves repeated whole-body movements it may have similar aerobic benefit as other exercises using whole-body movements (eg, brisk walking). Also, leg muscles need to generate a lot of force to make rapid steps in RBT; repeatedly generating this force may help to improve strength. The purpose of this study is to determine if RBT improves two important components of fitness among people with chronic stroke: aerobic capacity and strength. The investigators expect that the improvements in aerobic capacity and strength after RBT will not be any worse than after an exercise program that specifically targets aerobic fitness and strength. A secondary purpose of this study is to determine the effects of RBT compared to aerobic and strength training on balance control and balance confidence. The investigators expect that RBT will lead to greater improvements in balance control and balance confidence than an aerobic and strength training program.

NCT ID: NCT03605381 Recruiting - Stroke Clinical Trials

MORbidity PRevalence Estimate In StrokE

MORe PREcISE
Start date: September 30, 2018
Phase:
Study type: Observational

Information regarding the likely progress of post-stroke symptoms is vitally important to stroke survivors to allow them to plan for the future and to adjust to life after stroke. Moreover, the prevalence of morbidity secondary to stroke is of central importance to Health Professionals to understand the prognosis of the disease in the patients under their care. Additionally, it will also allow commissioners of care, planners and third sector organisations to adapt to and answer the needs of a post-stroke population. Currently, the data collected by national audit programmes are concentrated on what can be termed 'process or process of care' data. The utility of these data are in the ability to audit the care received by stroke survivors on stroke units against evidenced standards for care, thus ensuring evidence based practice. Nevertheless, process of care is only one form of measuring stroke unit care and the audit programmes collect some limited functional status data, data relating to risk-factor co-morbidities and treatment received data. Therefore, the scope of this study is to build on the minimum data set currently collected and to collect post-stroke data in domains not currently collected. The International Consortium for Health Outcomes Measurement (ICHOM) takes important steps to collect data outside of process of care data such as a Patient Reported outcome data in their minimum outcome data set for stroke [currently under review].. Nevertheless, the ICHOM doesn't currently advocate the specific collection of data relating to cognitive impairment or emotional problems secondary to stroke. It is in these important aspects that this study will augment the data set currently advocated by ICHOM to collect data in the areas of cognitive impairment and emotional problems secondary to stroke. Therefore, the aim of this study is to quantify the prevalence of morbidity at six months post-stroke.