Movement Amplification Gait Training to Enhance Walking Balance Post-Stroke

Not Applicable

Recruiting

• Conditions: Chronic Hemiparetic Stroke
• Interventions: Behavioral: Treadmill walking in varying external environments; Behavioral: High intensity gait training in varying external environments

• Registration Number: NCT06400186
• Lead Sponsor: VA Office of Research and Development

Brief Summary

Stroke is a leading cause of disability in the United States, affecting approximately 795,000 people annually. The Veteran's Health Administration provides over 60,000 outpatient visits for stroke-related care annually at a cost of over $250 million. Among ambulatory people with chronic stroke (PwCS), impaired balance is a common health concern that substantially limits mobility (those with the worst balance walk the least). This project will explore adaptive strategies employed by PwCS in balance challenging environments and if a novel gait training intervention using a robotic device to amplify a person's self-generated movements can improve walking balance. The development of effective interventions to increase walking balance among PwCS will positively impact Veterans' health, quality of life, and ability to participate in walking activities.

Detailed Description

Background: There is a pressing need to develop effective methods to enhance walking balance in people with chronic stroke (PwCS). Interventions that amplify self-generated movements may accelerate motor learning by enhancing a person's perception of movement errors. This method could potentially be applied to help PwCS improve walking balance. To this end, the investigators have developed a cable-driven robot to create a Movement Amplification Environment (MAE) during treadmill walking. The MAE challenges walking balance by applying lateral forces to the pelvis that are proportional in magnitude to real-time lateral center of mass (COM) velocity.

Unlike a popular form of balance training that uses unpredictable perturbations to enhance reactive balance, training in a MAE targets anticipatory balance by developing predictive control mechanisms that are likely to persist when the training environment is removed (after-effects). The investigators believe that supplementing high-intensity gait training (the recommended practice to improve walking speed and distance) with a MAE will substantially enhance walking balance. Thus, the purpose is to evaluate the unique effects of MAE training on walking balance in PwCS and determine feasibility of conducting high-intensity gait training in a MAE.

Specific Aims: Aim 1: To evaluate gait patterns PwCS adapt during and immediately following walking practiced in two balance-challenging training environments: MAE and unpredictable lateral perturbations. Aim 2: To establish feasibility of high intensity gait training in MAE the investigators will evaluate cardiovascular intensity during gait training interventions performed in either a natural unmodified environment or a MAE.

Approach: Aims 1: 15 PwCS will participate in a single-day experiment evaluating gait biomechanics (COM dynamics and stepping patterns) during and immediately following treadmill walking performed in a MAE or while receiving frequent unpredictable lateral perturbations. Outcomes will assess if changes in gait patterns to maintain stability persist immediately following exposure to either of the balance-challenging environments. Aim 2: 15 PwCS will participate in two high-intensity gait training sessions. One session will be performed in a natural unmodified environment, the other in a MAE. The investigators will quantify differences in mean heart rate (HR) between the two sessions and whether mean HR is in the target high-intensity range of 70-85% of maximum HR.

Impact: This project will identify if and how PwCS uniquely adapt locomotor strategies following exposure to balance challenging environments and evaluate feasibility of administering high-intensity gait training in a MAE. Training walking balance of PwCS in a MAE by amplifying their own self-generated movements is a radical departure from current practice and could substantially enhance walking balance. Successful outcomes will motivate a future randomized controlled trial assessing the efficacy of MAE training to enhance walking balance in PwCS.

Study Timeline

• Study First Submitted: 2024-04-26
• Study First Submitted QC: 2024-05-01
• Study First Posted: 2024-05-06
• Status Verified: 2024-08
• Study Start: 2024-08-15
• Last Update Submitted: 2024-08-27
• Last Update Posted: 2024-08-29
• Primary Completion: 2026-05-31
• Study Completion: 2026-06-30

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 30

Inclusion Criteria

• History of chronic stroke (more than 6 months post-stroke) with weakness on one side
• Ability to ambulate over ground for 10 meters with or without a single cane, and/or ankle-foot orthosis
• Ability to tolerate 10 minutes of standing

Exclusion Criteria

• Presence of cognitive impairment (score of 22/30 on the Montreal Cognitive Assessment scale (MoCA))
• Presence of aphasia (score of 71/100 on the Mississippi Aphasia Screening Test (MAST))
• Excessive spasticity in lower limbs (score of > 3 on the Modified Ashworth Scale
• Severe cardiovascular and pulmonary disease affecting gait and balance
• History of recurrent fractures or known orthopedic problems in the lower extremities (i.e. heterotopic ossification) affecting gait and balance
• Concomitant central or peripheral neurological injury (i.e. traumatic head injury or peripheral nerve damage in lower limbs) affecting gait and balance
• Evidence of cerebellar ataxia
• Presence of unhealed decubiti or other skin compromise
• Enrollment in concurrent physical therapy or research involving gait or balance training
• Use of braces/orthotics crossing the knee joint
• Known pregnancy

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Biomechanical Response to Balance Challenging Environments	Treadmill walking in varying external environments	Aim 1 will determine how people with chronic stroke (PwCS) adapt their gait in response to different balance challenging environments. For Aim 1, the investigators will conduct a single-session cross sectional study to assess gait patterns during and immediately following walking practiced in balance challenging environments. PwCS will perform treadmill walking in a natural unmodified environment, and in two balance-challenging environments that will include a Movement Amplification Environment (MAE), and an unpredictable lateral perturbation environment. All enrolled participants will undergo clinical outcome measure assessments to identify baseline function. In addition, all participants in Aim 1 will undergo biomechanical testing while walking in each of the three environments to assess changes in their walking patterns.
Heart Rate Response to Balance Challenging Environments	High intensity gait training in varying external environments	Aim 2 is a feasibility study to determine if high intensity gait training can be achieved within a MAE. For Aim 2, the investigators will employ a two-way cross over study design consisting of two gait training sessions (one in a natural unmodified environment and the other in a MAE). The investigators will examine cardiovascular response, perceived exertion, and gait characteristics (speed, number of steps) to quantify if the MAE impacts training intensity. All enrolled participants will undergo clinical outcome measure assessments. In addition, all participants for Aim 2, heart rate (HR), rate of perceived exertion (RPE), number of steps taken during the training sessions, and walking speeds will be recorded.

Primary Outcome Measures

Name	Time	Method
Minimum lateral margin of stability	Arm 1 only: On Day 1 of the study, participants will perform three 5-minute treadmill walking trials. We will measure minimum lateral margin of stability every gait cycle during each trial.	Minimum lateral margin of stability is the smallest distance between the lateral extrapolated center of mass position (XCOM) and the lateral base of support (BOS), approximated as the lateral position of the 5th metatarsal marker on the side of the last initial contact. Minimum MOS is identified during stance phase of each step. Extrapolated center of mass (XCOM) position is calculated using: XCOM= COM + COM\* l/g The minimum lateral margin of stability is calculated in meters. Smaller values indicate greater ability to control motion during walking.
Heart Rate	Arm 2 only: On Day 1, participants will perform 45 minutes of treadmill walking. Seven days later, participants will perform another 45 minutes of continuous treadmill walking. We will measure average HR during every 3-minutes of treadmill walking.	Participants heart rate in beats per minute (bpm) will be collected to determine cardiovascular response to exercise. Larger heart rates will indicate a stronger cardiovascular response to exercise.
Perceived Exertion (RPE)	Arm 2 only: On Day 1, participants will perform 45 minutes of treadmill walking. Seven days later, participants will perform another 45 minutes of continuous treadmill walking. We will measure average RPE during every 3-minutes of treadmill walking	Participants exertion monitored via 6-20 point rate of perceived exertion scale and heart rate will be collected to determine participants performance during each training session and track their progress. Minimum score for perceived exertion is 6 and maximum score is 20. Higher score indicates greater exertion and lower score indicates less exertion.
Lateral center of mass (COM) excursion during walking	Arm 1 only: On Day 1 of the study, participants will perform three 5-minute treadmill walking trials. We will measure Lateral COM excursion every gait cycle during each trial.	Lateral COM excursion is the peak-to-peak distance the COM moves from side-to-side during a complete gait cycle. This distance is measured in meters. Smaller values indicate better ability to control motion during walking.
Number of Steps	Arm 2 only: On Day 1, participants will perform 45 minutes of treadmill walking. Seven days later, participants will perform another 45 minutes of continuous treadmill walking. We will measure the total number of steps during each day.	An activity monitor worn on the ankle during treadmill walking will identify and record each time a person takes a step. A higher number will indicate a greater number of steps were taken.
Treadmill walking speed	Arm 2 only: On Day 1, participants will perform 45 minutes of treadmill walking. Seven days later, participants will perform another 45 minutes of continuous treadmill walking. We will measure average speed during every 3-minutes of treadmill walking	Treadmill speed is a measure of how fast a person is walking on a treadmill. This measure is in units of meters/second. Higher values indicate faster walking speeds.

Secondary Outcome Measures

Name	Time	Method
Berg Balance Scale (BBS)	The BBS will be administered one time only. This test will be administered on Day 1 before the study intervention has been administered	BBS is a 14-item measure that assesses static balance with excellent validity and reliability in individuals post-stroke. The total score for this test is 56. Minimum score is 0 and maximum score is 56. Higher scores indicate better balance and lower fall-risk, while lower scores indicate poor balance and increased fall-risk.
Activities-specific Balance Confidence (ABC) Scale	The ABC will be administered one time only. This test will be administered on Day 1 before the study intervention has been administered.	ABC scale is a self-reported measure of an individual's confidence while performing specific postural and ambulatory activities. The ABC is a reliable and valid measure of balance confidence in individuals post-stroke. The total score for ABC scale is 1600. Minimum score is 0 and maximum score is 1600. Higher scores indicate better balance confidence, while lower scores indicate poor balance confidence
Dynamic Gait Index (DGI)	The DGI will be administered one time only. This test will be administered on Day 1 before the study intervention has been administered.	DGI is an eight item test that assesses gait, balance and fall risk during usual steady-state walking and walking during more challenging tasks. The total score for this test is 24. Minimum score is 0 and maximum score is 24. Higher scores indicate better walking balance, while lower scores indicate poor walking balance.
Step Length	Arm 1 only: On Day 1 of the study, participants will perform three 5-minute treadmill walking trials. We will measure step length every gait cycle during each trial.	Step length is calculated as the fore-aft distance between the calcanei markers at initial foot contact. This distance is measured in meters. Larger values indicate longer steps.
Step Width	Arm 1 only: On Day 1 of the study, participants will perform three 5-minute treadmill walking trials. We will measure step width every gait cycle during each trial.	Step width is calculated as the medio-lateral distance between the left and right 5th Metatarsal markers at initial foot contact. This value is measured in meters. Larger values indicate a wider step.
Timed Up and Go (TUG)	The TUG will be administered one time only. This test will be administered on Day 1 before the study intervention has been administered.	TUG is used to assess functional mobility, walking balance, and fall risk. It is a quick, valid, reliable and widely used clinical performance based measure in individuals post-stroke. While there is no time limit to the TUG test, more time taken to finish the task indicates poor balance and greater fall-risk.
Chedoke-McMaster Stroke Assessment (CMSA) scale	The CMSA will be administered one time only. This test will be administered on Day 1 before the study intervention has been administered.	CMSA will be collected to determine the level of stroke impairment in participants leg and foot. Each domain (leg and foot) are scored on a 7-point scale (stage 1 through 7, most impairment through to no impairment, respectively). Minimum score is 0 and maximum score is 7
10 Meter Walk Test (10MWT)	The 10MWT will be administered one time only. This test will be administered on Day 1 before the study intervention has been administered.	10MWT is a simple measurement of an individual's average walking speed measured at self-selected speed (instruction: "walk at your normal comfortable pace") and fastest-possible speed (instruction: "as fast as you safely can").

Trial Locations

Locations (2)

Northwestern University; 🇺🇸 Chicago, Illinois, United States

Edward Hines Jr. VA Hospital, Hines, IL; 🇺🇸 Hines, Illinois, United States