View clinical trials related to Gait, Hemiplegic.
Filter by:This clinical study will involve up to 30 ischemic stroke inpatients during their stay at Burke Rehabilitation Hospital. Participants will be randomized to receive 30 additional minutes of therapy every day, for a total of 2 weeks (14 days). One group will receive 30 minutes of standard physical therapy focused on pre-gait or gait training activities, while the experimental group will receive 30 minutes of Walkbot with Augmented Reality. Both groups will receive the same time in therapy aimed at gait training.
Stroke,one of the leading cause of death, is caused by ischemia or hemorrhage. It results in neurological deficits such as hemiplegia. Hemiplegia show disability characterized loss of motor, sensory and cognitive function. Reduced postural control and balance stability results gait disturbances such as asymmetric weight bearing, risk of falling and imbalances. It also shows increased energy expenditure, decreased independence on quality of life and limited mobility. Physical therapy can be effective method for solving these problems. Hippotherapy, also known as horseback riding therapy, is a form of physical therapy strategy that uses equine movement. The concept of hippotherapy is to use a horse as a therapeutic tool, and it is based on similarities in gait between the human and horse. The horse's gait provides patients having motor disabilities with rhythmic and repetitive movements similar to human walking, thereby giving them training opportunities to improve posture, balance, and strength. Even though it has many effect on solving these problems, hippotherapy centers are not enough. Due to climate and environmental situations, hippotherapy devices were improved and had similar effects on patients with stroke. In literature, these device mostly used on cerebral palsy, but investigator wants to use hippotherapy device on patient with Hemiplegia. For these reasons, the effects of exercises by mechanical hippotherapy device on postural control and balance will be investigated.
The long-term study goal is to develop a more engaging, motivating gait biofeedback methodologies specifically designed for post-stroke gait training. The current project aims to address fundamental questions regarding the optimal methodology to deliver AGRF biofeedback during gait, and the feasibility and preliminary efficacy of AGRF progression protocols for improved gait patterns and gait function. The study objectives are to (1) evaluate the immediate effects of biofeedback training methodology on gait biomechanics; and (2) evaluate the feasibility and short-term effects on gait performance of a real-time biofeedback protocol incorporating progression criteria (similar to those employed during clinical rehabilitative training).
The cerebellum is known to be strongly implicated in the functional reorganization of motor networks in stroke patients, especially for gait an balance functions. Repetitive transcranial magnetic stimulation of the cerebellum can be used to enhance these adaptive processes in stroke recovery. In this randomized, double blind, sham-controlled trial we aim to investigate the efficacy and safety of cerebellar intermittent theta burst stimulation coupled with intensive physical therapy in promoting gait recovery in hemiparetic patients due to recent stroke in the territory of the contralateral middle cerebral artery
The aim of this study is to investigate the effects of the implantable drop foot stimulator "ActiGait" (Ottobock Health Care, Duderstadt, Germany) on gait in hemiparetic patients. While several studies investigated the effects of implanted systems on walking speed and gait endurance, only a few studies have focused on the system's impact on kinematics and long-term outcomes. Therefore, our aim was to further investigate the effects of the implanted system ActiGait on gait kinematics and spatiotemporal parameters with a 1-year follow-up period.
The objectives of the study will be General Objective is to investigate the effect of TOCCT with MI on gait performance in patients with stroke. Speific Objevtives. Specific Objectives are to compare the effect of TOCCT with MI and TOCCT with education on the spatio-temporal and functional gait variables in patients with stroke, to investigate the spatio-temporal and functional gait variables in patients with stroke after receiving TOCCT with MI and to investigate the spatio-temporal and functional gait variables in patients with stroke after receiving TOCCT with education.
This study evaluates the effects of an isokinetic fatigue protocol of the quadriceps on the amount of co-contractions of this last with the hamstrings during a maximal isometric flexion movement in hemiparetic stroke patients. The effect of such a protocol on gait parameters and spasticity of the quadriceps will be evaluated also.
This study will investigate if a lower limb robotic device can be used in a community setting to increase the amount of physical activity that individuals undertake following stroke and consequently improve biomechanical, physiological and health outcomes, in patients with stroke.
The aim is to investigate the biomechanical interaction between trunk and gait performance in both healthy and stroke subjects. People after stroke often have an impaired trunk function, resulting in balance and gait disorders. Pathological movement patterns after stroke can be compared with normative data as motion capture systems provide more sensitive data to explore the interaction between trunk performance and gait in contrast to the clinical measures used in literature.
Overall aim is to evaluate HAL for gait training early after stroke and the effect of HAL on short- and long-term functioning, disability and health compared to conventional gait training as part of an inpatient rehabilitation program early after stroke.