View clinical trials related to Chronic Stroke.
Filter by:The goal of this randomized controlled trial is to check the effects of postural and kinesthetic awareness on static standing balance in chronic stoke patients. Participants will be divided into two equal groups. One group will receive routine physical therapy while other group will receive postural and kinesthetic awareness in addition to routine physical therapy.
The aim of study is to determine whether the Virtual Reality training applied in addition to the exercises given inside and outside the parallel bar is effective on balance, daily living activities and knee control in stroke patients. The hypotheses of the study are: Hypothesis 1: H0: Virtual reality training has no effect on balance in stroke patients. H1: Virtual reality training has an effect on balance in stroke patients. Hypothesis 2; H0: Virtual reality training has no effect on activities of daily living in stroke patients. H1: Virtual reality training has an effect on daily living activities in stroke patients. Hypothesis 3; H0: Virtual reality training has no effect on knee control in stroke patients. H1: Virtual reality training has an effect on knee control in stroke patients
The purpose of this clinical research is to verify if the patients with chronic stroke can regain the ability of living independently after daily using Testa BioHealing® Biophoton Generators to increase the energy of the brain and other parts of the body. The main study questions are: - Can patients with chronic stroke regain life independence by normalizing Activities of Daily Living (ADL). - Can brain-injury and recovery status of the patients with chronic stroke be detected by using an EEG machine. Participants will sleep-rest on a hotel bed energized by Tesla BioHealing Biophoton Generators, and clinical study staff will observe the participant's activities of daily living, as compared to those who will sleep in the hotel room equipped with placebo devices.
The purpose of this cross-sectional study is to translate and cross-culturally adapt to Spanish the Motor Evaluation Scale for Upper Extremity in Stroke Patients (MESUPES) and the Stroke Upper Limb Capacity Scale (SULCS) and to assess their psychometric properties in Spanish people with chronic stroke.
This project will examine the feasibility, safety and effect of home-based functional electrical stimulation (FES) applied to different lower limb muscles in combination with task-specific training on gait, balance and mobility in adults with chronic stroke. 30 individuals with chronic stroke will first undergo initial screening and baseline walking, mobility, balance and strength assessments in the laboratory. After determining their eligibility for the study, they will undergo 12-weeks of home-based FES and task-specific training. Following the initial screening (week 1) and pre-intervention assessment (week 2), participants will be trained in the lab for 6 sessions (week 3-4) for a FES home program and then given a FES home kit (FES device and an android tablet). Participants will then undergo home-training for 2 weeks (week 5-6) followed by mid-training assessment (week 7). Again, participants will undergo 4-weeks of home training (week 8-11) and final assessment at the end of training (week 12). This project has the following specific aims: Aim 1: To investigate the feasibility, safety and efficacy of 12-weeks of home-based FES and task-specific training in adults with chronic stroke. Aim 2: To examine the effect of 12-weeks of home-based FES and task-specific training on mobility, gait and balance (anticipatory and reactive balance) in adults with chronic stroke.
The aim of this study is to examine the effects of cervical mobilization on balance and gait parameters in stroke individuals. Twenty-four stroke individuals aged 30-65 years, with a mini mental test score of 24 and above, and with a maximum score of 3 according to the modified rankin scale, were included in this study. Individuals were randomly divided into 2 groups as study (Bobath approach and cervical mobilization n=12) and control group (Bobath approach n=12). Demographic data, gait parameters, balance parameters and craniovertebral angle values of individuals were evaluated with clinical data evaluation form, Spatio-Temporal Gait Analysis (LEGSystm), Portable computerized kinesthetic balance device (SportKAT 550) and photometer, respectivelyThe evaluations were performed 2 times before and after the treatment.
This study will determine the acceptability of delivering seated exercises online and if seated exercises can improve balance, mobility, quality of life, and cardiometabolic health in those living with a stroke related mobility impairment. Participants will be allocated to either a 10-week seated exercise program or a delayed 2-week Boot Camp program. All seated exercises sessions and assessments will be conducted virtually.
The purpose of this study is to Investigate the feasibility of a high-quality, high-dose, high-intensity upper extremity therapy program and to assess the treatment effects of a high-quality, high-dose, high-intensity upper extremity therapy program on functional outcomes, motor impairment, and quality of life
In this study, it is aimed to examine the effect of rigid taping on hyperextension control in stroke patients with knee hyperextension in the stance phase of gait. Hypothesis Ho: Rigid taping has no effect on the control of knee hyperextension in stroke patients. H1: Rigid taping has an effect on the control of knee hyperextension in stroke patients.
Introduction: Gait speed is currently used to predict the future functional status of the patient or to evaluate the improvements produced by different neurorehabilitation treatments. There is no common agreement among researchers and clinicians as to the optimal distance required to accelerate and decelerate in walking tests (4-meter and 6-meter timed) in people in the chronic phase of stroke. Objectives: The main objective is to analyze what is the optimal distance to accelerate and decelerate in the 4-meter walk test (4mWT) and 6-meter walk test (6mWT) at comfortable and fast speed with optical motion capture for chronic stroke survivors (> 6 months). The secondary objective is to evaluate whether the mean gait speed taken by stopwatch is comparable to optical motion capture system Optitrack for the 4mWT and the 6mWT for a correct measurement of gait at comfortable and fast speed in in chronic stroke survivors. Methods: A cross-sectional observational study is performed. The walking speed is measured using the OptiTrack optical motion capture system consisting of 8 PrimeX 13 cameras and Motive 2.0 capture and analysis software (Natural Point Inc. Corvallis OR USA).The patient ware 8 markers sensors applied to different parts of the body. The two tests are performed first at a comfortable gait and second at the fastest gait that the patient can safely perform. There were 3 repetitions for each of the tests. The individuals are randomized to start with either the 6mWT or the 4mWT test. All tests are performed on the same day. Discussion: This study will shed light on what is the optimal distance required for acceleration and deceleration phases on the 6mWT and 4mWT walking tests at comfortable and fast speed.