View clinical trials related to Foot Drop.
Filter by:Foot drop (weakness or paralysis of the muscles that lift the foot) refers to a condition that prevents people from properly lifting their foot and toes while walking. Foot drop has a negative impact on the balance, mobility, and confidence of people with the condition. Dragging one's toes on an uneven floor or a carpet can lead to tripping and falling. TurboMed Orthotics Inc. has developed various orthoses for several years in order to improve the gait and quality of life for people suffering from foot drop. In order to help clinicians better monitor and assess gait parameters over time, the company wants to offer clinicians a tool for a more rigorous analysis. Thus, the objective of the proposed project is to develop a questionnaire for identifying the clinical need for the data generated by the instrumented orthosis. The instrumented orthosis will also be compared to a reference system in a validation effort.
The purpose of this study is to examine the changes in reflex pathways in the paretic ankle plantarflexors in individuals with post-stroke hemiparesis using operant conditioning. We are recruiting 5 individuals with chronic post-stroke hemiparesis with foot drop in the affected leg to participate in the reflex training procedure. The study involves 40 visits with a total study duration of about 4 months.
This research aims to compare changes in gait quality and function between faradic current & Ankle foot orthosis with stroke related foot drop
The objective of this study is to investigate the effects of personalized, adaptive, current-steering functional electrical stimulation (FES) of the lower leg to improve gait in people with foot drop.
The objective of this research is to compare the new ankle foot orthosis (AFO) with prior support developed by Turbomed, with the AFO with posterior support from Turbomed as well as two competing AFOs currently on the market. With this research, we seek to answer the following questions: - Is the new AFO as biomechanically efficient as the AFOs currently on the market? - Is the new AFO more comfortable than the AFO currently on the market? - Is the new AFO easier to put on and attach than the AFOs currently on the market?
In this work, a novel hybrid ankle-foot robot is designed for gait rehabilitation after stroke, i.e., exoneuromusculoskeleton with balance sensing feedback (ENMS-BSF) by integrating the advantages of soft pneumatic muscle, functional electrical stimulation, exoskeleton and foot balance feedback in one system. With the assistance of the ENMS-BSF the foot drop and foot inversion could be corrected with improved muscle coordination in the paretic lower limb. The device is wearable and light-in-weight for unilateral application during walking. It is hypothesized that with the intervention of the ENMS-BSF the gait pattern of persons after stroke can be improved with long-term rehabilitative effects.
The randomized study (in Phase II of the U44) compares the efficacy and durability of 9 weeks (18 sessions) of robot-assisted physical therapy (PTR) versus physical therapy (PT) alone on foot drop as assessed by gait biomechanics (ankle angle at initial contact, peak swing ankle angle, number of heel-first strikes - % total steps, gait velocity) and blinded clinician assessment (dorsiflexion active range of motion, ankle muscle strength, assistive device needs).
The ability to voluntarily move the ankles is important for walking. After spinal cord injury (SCI), this ability is impaired because of changes in the communication between the brain, spinal cord, and body. Whole body vibration (WBV) is a treatment that increases voluntary muscle control and decreases uncontrollable muscle movement in people with SCI. The purpose of this study is to understand how WBV can impact ankle control and uncontrollable muscle movement.
Researchers at the University of Maryland Rehabilitation and Orthopaedic Institute are looking for individuals who have suffered a stroke and have leg and ankle weakness (foot-drop), to participate in a pilot study to examine the safety and effectiveness of an ankle robot walking program on walking function This is the first in human test of walking training over-ground using a wearable, lightweight, battery operated ankle robot exoskeleton; with assistance by trained research personnel for safety. This exercise device is aimed at assisting the foot during walking to reduce foot drop and improve walking safety in chronic, mild to moderately impaired stroke survivors who have foot drop. Possible risks of participating in this study are described in this document. The greatest risks include the risk of falling, muscle soreness, skin irritation, or cardiovascular complications. Before starting, you will have a medical history and medical assessments performed to determine if this study is safe for you. All sessions will be assisted by trained research personnel under supervision of a physical therapist, with medical personnel locally on call.
The purpose of this research study is to test the utility of an ankle robot, when used during treadmill walking, in people with ankle weakness and foot drop from a peripheral nervous system injury due to neuromuscular or orthopedic injury.