View clinical trials related to Gait, Hemiplegic.
Filter by:The objective of this research is to investigate the feasibility of delivering gait treatment using the Moterum iStride Solution™ to individuals with hemiparetic gait impairments using a telemedicine modality, the Moterum Digital Platform.
The main hypothesis of the present study is that a safer knee joint is likely to encourage post stroke patients at an early stage to rely on their hemiparetic leg and transfer their weight onto it while walking. The main purpose of the present work is to assess the feasibility of FES-induced muscular control of the hemiplegic knee joint in order to improve stance phase support symmetry recovery in individuals with post stroke hemiplegia. Functional electrical stimulation (FES) is delivered to the quadriceps and hamstrings of the paretic limb based on the real-time estimation of the knee angle and support phase.
Approximately 20% of stroke survivors have difficulties to dorsiflex the ankle and clear the ground during walking. This impairment, termed as "foot drop", is caused by an association of weak dorsiflexors and increased spasticity and stiffness of the plantar-flexors. As a consequence, walking performances are reduced and energy cost of walking is deteriorated. This may increase performance fatigability, as the locomotion will be realized at a higher percentage of the subjects' capacities. In order to overcome these issues, different treatments are proposed. One of the most conventional solutions are the use of ankle foot orthosis (AFO) and it is the most commonly prescribed device used to compensate for "foot drop". There is a very large choice of AFO on the market which can be proposed to patients with foot drop. The aim of this study is thus to assess the mechanical effects of using a manufactured carbon AFO in by comparison to a custom-made thermo-plastic AFO on walking capacity (distance and energy cost), fatigue and "foot drop" control throughout the gait phase in patients with hemiparetic stroke.
A rhythmic auditory stimulation intervention may be beneficial in order to improve movement parameters after stroke. Reviews argue that more randomized controlled trials with a control group are needed. Main objective: Evaluate the effect of a rhythmic auditory stimulation on the quality of balance and gait parameters in people with stroke. Methodology: quasi-experimental study. The study has been approved by the hospital ethics committee.
Lower body positive pressure (LBPP) decreases weight bearing and ground reaction forces, with potentially positive effects on qualitative gait indices. However, which gait features are shaped by LBPP gait training in post-stroke patients is still poorly predictable. A pilot study on the effects of LBPP gait training on qualitative and quantitative gait indices in patients with hemiparesis due to stroke in the chronic phase was carried out. Twenty-five patients who suffered from a first, single, ischemic, supra-tentorial stroke occurred at least 6 months before study inclusion were provided with 24 daily sessions of LBPP treadmill gait training using AlterG device. These patients were compared with 25 age-matched healthy controls (HC), who were formerly provided with the same amount of AlterG training, and 25 patients with the same clinical-demographic characteristics of the first group of patients, who previously underwent conventional treadmill gait training (TGT). Qualitative and quantitative gait features, including Functional Ambulation Categories, gait cycle features, and muscle activation patterns were analyzed before and after the training (AlterG or TGT).
To date, no studies seems to compare conventional gait rehabilitation program with end-effector RAGT in subacute stroke patients by analysing the variations of gait kinematics beyond clinical multi prospective outcomes. The aim of this pilot study is to evaluate the efficacy of end-effector RAGT in subacute stroke patients in terms of clinical outcomes and gait kinematics, comparing them with conventional gait rehabilitation program.
The aim of this study was to identify the assistance effect of Ankle Assist Robot v1 developed by Samsung Advanced Institute of Technology (Samsung Electronics Co, Ltd., Korea) by comparing 1. gait function during overground gait in three conditions (with robot-assist torque on/with robot-assist torque off/without robot) 2. the energy expenditure during treadmill gait in three conditions (with robot-assist torque on/with robot-assist torque off/without robot)
Phase I: Exploring what stroke survivors exactly learn when recovering the ability to stand and walk.
Phase II: Investigating the effects of additional robot-assisted gait training either initiated early (2 weeks post-stroke) or delayed (8 weeks post-stroke) after stroke onset.
This study will assess the effect of wearing a wearable bionic leg, on the physiological cost index and biomechanical measures in patients with stroke. Patients will be tested during a range of activities (sit-to-stand, walking) with and without the Bionic Leg, and following a 30-min training program.