View clinical trials related to Gait Disorders, Neurologic.
Filter by:The goal of this clinical trial is to explore the usefulness of information from insole-type gait analyzer in adults with subjective gait and balance disorders. The main questions it aims to answer are: How useful is an insole-type gait analyzer for collecting gait data from patients with gait disturbances? Researchers will explore the usefulness of collected data and does not establish a control group. Participants will: Participants will conduct survey and perform the Timed up and go test wearing an insole-type gait analyzer.
The goal of this clinical trial is to learn if monitoring and providing feedback on the performance of a home-based exercise program using an insole gait analyzer to treat participants who have gait disorder. The investigators also learn about the satisfaction level of this insole type gait analysis system. The main questions it aims to to answer are: - What effect does providing monitoring and feedback using an insole-type gait analyzer have on walking patterns? - How satisfied are the experimental group participants with the use of the insole gait analyzer? Researchers will compare the experimental group that receives the insole-type gait analyzer with the control group that does not receive it. Participants will: - Receive an insole-type gait analyzer and receive training in a home-based exercise program. - During the 6-week program, participants will wear an insole-type gait analyzer and perform a home-based exercise program. - The investigators will conduct a satisfaction survey after 6 weeks.
Juvenile Idiopathic Arthritis (JIA) is one of the common chronic diseases in childhood. Problems such as weakness or pain may occur in JIA, especially in the joints and the muscles around the trunk (1). These conditions may lead to abnormal displacement of the center of gravity, deterioration of biomechanics, and muscle imbalance in children with JIA (2, 3). All these situations can lead to scoliosis, which we often encounter in children with JIA. Current studies describing various 3-dimension (3D) exercise methods (SEAS, Schroth, Dobomed, BSPTS, Side-shift, Lyon, etc.) effective on scoliosis (4). However, no study was found in the literature that searching the effects of these exercise methods on gait parameters in children with scoliosis diagnosed JIA.
Single-blinded controlled clinical trial. Biofeedback training courses based on target biomechanical gait parameters are being studied. For targeted biofeedback training, various biomechanical parameters are used: parameters of the gait cycle, EMG or kinematics of joint movements. The number of sessions is 8-11 for each patient. Clinical gain analysis is carried out before and after a course of training. Changes in biomechanical parameters that occurred at the end of the training course are assessed in comparison with those before training, and both statuses (before and after training) are compared with similar gait parameters in a group of healthy adults.
Established gait assessments for subjects with spinal cord injury (SCI) (6MWT, 10MWT, TUG, SCIM III and WISCI II) are widely used in the clinical and research setting. So far, no valid measurement exists that assesses the patients' perspective of walking ability in SCI. As there is the 12-item Multiple Sclerosis Walking Scale (12-WS) to assess the patients' perspective on gait ability in patients with multiple sclerosis, it is hypothesized that the 12-WS would also be a valid instrument for subjects with incomplete SCI. The main goal of this study is to collect data from clinical gait assessments in subjects with spinal lesions and to demonstrate that the 12-WS is a valid and reliable patient-reported outcome measurement for individuals with incomplete spinal cord injury.
The purpose of this study is to evaluate the clinical performance of the investigational REEV SENSE gait tracker to measure gait features in subjects with post-stroke gait impairment. REEV SENSE is intended to be used by trained healthcare professionals as a simple procedure adapted to clinical routine. The reference method for performance comparison will be motion capture.
This study was planned to examine the effects of different focuses (external and internal focus)of attention on functional walking and balance in children with cerebral palsy. Individuals with CP between the ages of 6-18 will be included in the research. It was planned to include 24 individuals in total, 12 individuals in each group.
The goal of this clinical trial is to learn if operant conditioning can reduce spasticity in order to improve walking in stroke patient. The main questions it aims to answer are: - Can participants self-regulate reflex excitability - Can participants self-regulate reflex, reduce spasticity and improve walking Participants will undergo surface stimulation to evoke spinal reflexes and will be asked to control these reflexes therefore reducing spasticity. Researchers will compare result to able bodied participants to see if [insert effects]
The purpose of this project is to examine and compare the immediate and long-term effects of combined Botulinum toxin type A(BoNT-A) injection with exoskeleton Robotic assisted gait training (RABT) in patients with post-stroke stiff-knee gait.
Walking difficulties are common symptoms after stroke, significantly reducing quality of life. Walking recovery is therefore one of the main priorities of rehabilitation. Wearable powered exoskeletons have been developed to provide lower limb assistance and enable training for persons with gait impairments by using typical physiological movement patterns. Exoskeleton were originally designed for individuals without any walking capacities, such as subjects with a complete spinal cord injury. Recent systematic reviews suggested that lower limb exoskeletons could be valid tools to restore independent walking in subjects with residual motor function, such as persons post-stroke.The aim of the study was to identify the end-users needs and to develop a user-centered-based control system for the TWIN lower limb exoskeleton to provide an efficient post-stroke rehabilitation of gait. The investigators thus carried out the development and validation through evaluation sessions performed on healthy clinical experts and persons with stroke to evaluate TWIN-Acta usability, acceptability, and barriers of usage. A phase two includes a pilot study of efficacy of using the TWINActa for gait rehabilitation for persons with stroke.