Biomechanical and Neural Mechanisms of Post-stroke Gait Training

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

COMPLETED

Clinical Phase

NA

Total Enrollment

55 participants

Study Classification

INTERVENTIONAL

Study Start Date

2021-03-16

Study Completion Date

2025-10-01

Brief Summary

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The study seeks to develop an understanding of how, why, and for whom fast treadmill walking (Fast) and Fast with functional electrical stimulation (FastFES) induce clinical benefits, allowing future development of cutting-edge, individually-tailored gait treatments that enhance both gait quality and gait function.

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Detailed Description

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Stroke is the leading cause of adult disability in the United States, with stroke prevalence expected to increase by 20% in the next 20 years. Stroke induces a cascade of neurophysiologic changes in cortical and spinal circuits that result in biomechanical impairments (reduced paretic propulsion, footdrop) and gait dysfunction (reduced speed and endurance). This study evaluates neurobiological and biomechanics mechanisms of two gait (walking) rehabilitation treatments. Gait impairments persist at discharge from rehabilitation in over two thirds of stroke survivors, reducing community participation and quality of life.

Stroke gait deficits are complex and multi-factorial, posing a problem well-matched to the NIH precision medicine initiative. Stroke gait impairments adversely affect kinematics and kinetics in all paretic lower limb joints, disrupt stance and swing phases, and are marked by inter-limb asymmetry. One intervention cannot target all post-stroke gait deficits. Multiple factors, including biomechanics, energy cost, and functioning and integrity of corticomotor neural pathways can influence stroke gait function and training-induced gait improvements.

Fast treadmill walking (Fast) is an evidence-based, clinically-used intervention, comprising high-intensity, high-repetition, bilateral stepping practice. High-intensity treadmill training was recommended by clinical practice guidelines for locomotor training at the 2018 American Physical Therapy Association (APTA) conference. Fast provides practice of thousands of steps and aerobic exercise, which may induce bilateral neuroplasticity. However, without adjunctive feedback or cues (verbal, biofeedback, stimulation), Fast is not targeted to specific gait deficits or the paretic leg. Importantly, neural correlates underlying Fast are unclear. A single session of high-intensity interval treadmill walking exacerbated already suppressed ankle muscle corticospinal excitability in the paretic leg post-stroke. Four weeks of treadmill training in chronic stroke improved gait speed compared to control treatment, but increased cortical excitability in the non-lesioned hemisphere. Despite Fast and treadmill-based interventions gaining clinical popularity, important questions pertaining to neural mechanisms of Fast are unknown.

Recent work has demonstrated that combining Fast with functional electrical stimulation (FastFES) not only leads to improvements in gait speed but also reduces energy cost (EC) of stroke gait. FastFES is an intervention combining fast treadmill training and functional electrical stimulation (FES) to ankle plantar- and dorsi-flexor muscles during paretic terminal stance and swing phases, respectively. As a paradigm for studying gait training mechanisms, FastFES offers several advantages including using hypothesis-based biomechanical approach to improve gait function by targeting impairments in paretic propulsion, and is delivered only to the paretic leg.

The study seeks to develop an understanding of how, why, and for whom fast treadmill walking (Fast) and Fast with functional electrical stimulation (FastFES) induce clinical benefits, allowing future development of cutting-edge, individually-tailored gait treatments that enhance both gait quality and gait function.

This mechanism-focused randomized clinical investigation will compare the effects of 12 sessions of Fast and FastFES in individuals with post-stroke hemiparesis. Gait biomechanics, EC, corticospinal excitability, and gait function will be evaluated at two baseline visits,after 3 gait training sessions, after 12 gait training sessions, and at two follow-ups (3 and 6 weeks post-training).

Conditions

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Stroke

Study Design

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Allocation Method

RANDOMIZED

Intervention Model

PARALLEL

Primary Study Purpose

TREATMENT

Blinding Strategy

SINGLE

Outcome Assessors

Study Groups

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Fast treadmill walking with functional electrical stimulation (FastFES)

Participants with post-stroke hemiparesis who are randomized to receive 12 sessions of FastFES. FastFES is a targeted intervention that provides motor level stimulation-induced cues to improve ankle propulsion. FES is delivered only to the paretic ankle muscles, enhancing afferent ascending as well as descending corticomotor drive. Increased corticomotor drive in lesioned corticomotor circuits in turn promotes improved timing and intensity of muscle activation in the paretic plantar- and dorsi-flexor muscles, increasing plantarflexor moment and propulsion from the paretic ankle.

Group Type EXPERIMENTAL

Functional electrical stimulation (FES)

Intervention Type DEVICE

Functional electrical stimulation (FES) is a targeted intervention that provides motor level stimulation-induced cues to improve ankle propulsion. An electrical stimulator will be used to deliver stimulation during walking (Grass S8800 stimulator with SIU8TB stimulus isolation unit; UDel stimulator). A customized, real-time system will be used to control the stimulator and deliver stimulation during appropriate phases of the gait cycle. Stimulation will be delivered to the ankle dorsiflexors when the subject's foot is in the air (swing phase). Stimulation will be delivered to the ankle plantarflexors during the terminal stance phase of gait. 30-Hz variable frequency stimulation trains 170 will be delivered during gait. The intervention comprises 3 training sessions per week for a total of 12 training sessions. FES intensity is determined at the start of every training session as motor-level stimulation that elicits appropriate functional movements.

Fast treadmill walking

Intervention Type OTHER

Fast treadmill walking (Fast) is a non-targeted intervention where no specific instructions are provided to target practice to the paretic leg or specific ankle deficits. The intervention comprises 3 training sessions per week for a total of 12 training sessions. Each training session includes six 6-minute walking bouts with 5-minute breaks between bouts.

Fast treadmill walking (Fast)

Participants with post-stroke hemiparesis who are randomized to receive 12 sessions of Fast. Fast is a non-targeted intervention that provides similar structure, dose, and intensity of stepping practice as FastFES, but does not include FES, and no specific instructions are provided to target practice to the paretic leg or specific ankle deficits

Group Type ACTIVE_COMPARATOR

Fast treadmill walking

Intervention Type OTHER

Fast treadmill walking (Fast) is a non-targeted intervention where no specific instructions are provided to target practice to the paretic leg or specific ankle deficits. The intervention comprises 3 training sessions per week for a total of 12 training sessions. Each training session includes six 6-minute walking bouts with 5-minute breaks between bouts.

Interventions

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Functional electrical stimulation (FES)

Functional electrical stimulation (FES) is a targeted intervention that provides motor level stimulation-induced cues to improve ankle propulsion. An electrical stimulator will be used to deliver stimulation during walking (Grass S8800 stimulator with SIU8TB stimulus isolation unit; UDel stimulator). A customized, real-time system will be used to control the stimulator and deliver stimulation during appropriate phases of the gait cycle. Stimulation will be delivered to the ankle dorsiflexors when the subject's foot is in the air (swing phase). Stimulation will be delivered to the ankle plantarflexors during the terminal stance phase of gait. 30-Hz variable frequency stimulation trains 170 will be delivered during gait. The intervention comprises 3 training sessions per week for a total of 12 training sessions. FES intensity is determined at the start of every training session as motor-level stimulation that elicits appropriate functional movements.

Intervention Type DEVICE

Fast treadmill walking

Fast treadmill walking (Fast) is a non-targeted intervention where no specific instructions are provided to target practice to the paretic leg or specific ankle deficits. The intervention comprises 3 training sessions per week for a total of 12 training sessions. Each training session includes six 6-minute walking bouts with 5-minute breaks between bouts.

Intervention Type OTHER

Eligibility Criteria

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Inclusion Criteria

* at least 6 months since stroke
* single cortical or subcortical ischemic stroke
* able to walk 10-meters with or without assistive device
* sufficient cardiovascular health and ankle stability to walk on treadmill for 2-minutes at self-selected speed without orthosis
* resting heart rate 40-100 bpm

Exclusion Criteria

* hemorrhagic stroke
* cerebellar signs (ataxic ("drunken") gait or decreased coordination during rapid alternating hand or foot movements
* score of \>1 on question 1b and \>0 on question 1c on NIH Stroke Scale
* inability to communicate with investigators
* musculoskeletal conditions or pain that limit walking
* neglect/hemianopia, or unexplained dizziness in last 6 months
* neurologic conditions or diagnoses other than stroke
* lack of sensation in lower limb affected by stroke
* any medical diagnosis that would hinder the participant from completing the experimental trial

Minimum Eligible Age

35 Years

Maximum Eligible Age

90 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No