View clinical trials related to Foot Drop.
Filter by: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?
Children with spastic cerebral palsy (CP) often walk with insufficient ankle dorsiflexion in the swing phase. A pathological gait, known as drop-foot gait, can be the result and this has 2 major complications: foot-slap during loading response and toe-drag during swing. This is partly caused by weakness of the anterior tibial muscle and partly due to co-contraction of both the fibular- and anterior tibial muscle. For classification of gait, the Winters scale can be used, where unilateral CP with dropfoot is classified as type I. In daily life these problems cause limited walking distance and frequent falls, leading to restrictions in participating in daily life. The current guideline for spastic cerebral palsy describes the following therapies: 1) conservative therapy (physiotherapy, orthopaedic shoes and orthoses) 2) drugs suppressing spasticity 3) surgical interventions. Functional electrical stimulation (FES) may be an effective alternative treatment for children with spastic CP and a drop foot. By stimulating the fibular nerve or the anterior tibial muscle directly during the swing phase, dorsiflexion of the foot is stimulated. In contrast to bracing, FES does not restrict motion, but does produce muscle contraction, and thus has the potential to increase strength and motor control through repetitive neural stimulation over time. In a systematic review the investigators found that FES immediately improves ankle dorsal flexion and reduces falls and these effects also sustain. However, it should be noted that the level of evidence is limited. Until now, the use of FES in CP is limited and no data exist about the effects on walking distance (activity level) and participation level. The overall objective of this study is to conduct a randomised cross-over intervention trial in children with unilateral spastic CP with 12 weeks of FES (for every participant) and 18 weeks of conventional therapy. The effectiveness of FES will be examined at participation leven, using individual goal attainment. Next to that the effect at gait will be measured. An additional goal is to investigate the cost effectiveness of FES, which, in case of a positive effect, may support allowance by insurance companies.
Functional electrical stimulation (FES) is multi-pad system that allows fast optimization of stimulation patterns for achieving strong dorsiflexion/plantar flexion and automatic real-time control of ankle joint during FES assisted walking. The main aim of the present study is to compare the effects of functional electrical stimulation gait training after stroke and overground conventional physical therapy. With the assumption that the advanced method of functional electrical stimulation will improve gait parameters and functionality in patients with foot drop before and after FES treatment the objectives of this study are to examine the effects of functional electrical stimulation using FES:a method on indicators of walk and function in patients with foot drop before and after FES treatment.
PURPOSE: The purpose of this study will be to identify whether patients in the subacute stage of stroke, who demonstrate foot drop, will have better gait outcomes when using a Double Adjustable AFO, or a Posterior Leaf Spring AFO. A secondary purpose will be to determine whether one week of practice significantly changes gait outcomes with either of the AFO conditions. INCLUSION CRITERIA: Twenty participants over the age of 18, of any gender and ethnicity, diagnosed with first time unilateral stroke, 4 - 20 weeks post-stroke onset, resulting in hemiparesis with foot drop will be recruited for this study. EXCLUSION CRITERIA: 1. Not able to receive a double adjustable AFO through their insurance 2. Unable to follow two steps commands 3. Unable to ambulate 20 feet with or without assistive device with a minimum level of assistance of contact guard assistance. 4. Cerebellar Stroke 5. Inability to ambulate prior to stroke 6. receiving chemotherapy at the time of study OUTCOME MEASURES: 1. Six Minute walk test 2. Gait Symmetry and Gait velocity measured with GAITRite for self paced velocity walk and fast paced velocity walk. DATA COLLECTION: Data will be collected three times over two weeks period. First Visit: Demographics, Fugl-Meyer Lower Extremity Assessment of sensorimotor function, Mini Mental State Examination 6MWT and GAITRite measurements using Both types of AFO in a random order. Afterwards participant will be given one type of AFO (randomly selected) to practice walking for a week. Second Visit: 6MWT and GAITRite measurements using the type of AFO they were practicing with. Then the other type of AFO will be given to practice walking for a week. Third Visit: 6MWT and GAITRite measurements using the second type of AFO that they were practicing with the week prior. Patient will be asked which type of AFO they prefer to use.
Deficits in ankle control after stroke can lead to foot drop, resulting in inefficient, aberrant gait and an elevated falls risk. Using a novel ankle robot and newly invented adaptive control system, this study tests whether robotic-assisted treadmill training will improve gait and balance functions in chronic stroke survivors with foot drop impairment. It is hypothesized that, compared to treadmill training alone, integrating adaptive ankle robotics with treadmill training will reduce drop foot during independent overground walking, resulting in greater mobility, improved postural control, and reduced fall risk.
People with multiple sclerosis (MS) often suffer from foot drop, which impairs their walking ability. Foot drop is the inability to lift the foot during the swing phase of walking. The purpose of this study is to find out if electrical stimulation of the leg, using the Bioness L300 Foot Drop System, can be used to treat foot drop in people with MS. It is expected that using this system will reduce foot drop, and therefore improve walking ability, particularly in the areas of speed, strength, balance and falls.
This investigation consists of two parallel groups of participants who will follow the same protocol. The aim of the study is to investigate the effects of using Functional Electrical Stimulation/Ankle Foot Orthosis (AFO) or splint as an assistive mobility device over a 12 week period in people with MS who experience foot drop. Patients who are clinically prescribed FES will be invited to participate in the FES arm of the study. Patients who are clinically prescribed an AFO will be invited to participate in the AFO arm. Participants will be asked to make four visits to the gait laboratory at Queen Margaret University. Four weeks before the start of device use (Baseline - 4 weeks), start of device use (Baseline), after 6 weeks and 12 weeks of device use. Participants' walking will assessed using computerised three dimensional motion analysis, which will provide a detailed description of the movements (kinematics) of the lower limbs. Participants will also be asked to carry out a 10 metre walk and a two minute walk. Both gait analysis and the walking performance tests will be carried out with and without an assistive device; apart from their first session where participants will only be assessed without their assistive device. Participants will be asked to wear an activity monitor for 7 days after each assessment. In addition participants will be asked to complete four short standardised questionnaires (MS walking scale, MS impact scale (MSIS-29), Fatigue severity score and the Leeds MS Quality of life score) at each assessment.
Our proposal quantitatively analyzes gait dynamics of hemiplegic individuals in response to the Function Electrical Stimulation (FES) intervention and identifies the responders to the intervention. This study will improve our knowledge of FES intervention and help clinicians strategize the FES interventions more effectively based on the responders' gait characteristics, thus supporting the NINDS' fundamental goal of translating basic and clinical discoveries into better ways to prevent and treat neurological disorders.