Reactive Balance Training for Fall Prevention

Summary

The objective of this pilot study is to evaluate and compare the effect of three different perturbation based training devices on the reactive balance control among healthy young adults, healthy older adults, and neurologically impaired stroke individuals. Furthermore, the project aims to determine the feasibility and tolerability of 30-minutes of perturbation training using the SureFooted Trainer. Overall, the project directs to find out the long term effect of training on fall risk reduction and fall prevention.

This study investigates the effects of perturbation training (slip and trip) based on the principles of motor learning. Perturbations in the form of slips and trips induced by the three different types of perturbation devices will displace the center of mass outside the base of support and challenge the stability, thereby inducing a fall and demand compensatory strategies in order to prevent it. Such perturbation training would train the motor system to improve stability control and vertical limb support.

The project design aims to examine the ability of the central nervous system to mitigate the interference in stability control (if any) that is induced by opposing types of perturbations. The hypothesis of this study if supported by the results, will provide the difference in motor learning with training on three different perturbation devices. Furthermore, it would help to determine which of the three training devices is the most effective in developing defense mechanisms necessary to reduce fall-risk among community-living older adults and the neurological population.

Conditions

• Healthy Young
• Healthy Aging
• Stroke

Interventions

OTHER

Experimental: Treadmill training

Participants will be given thirteen slips and thirteen trips in stance and walking, followed by two slips and two trips at a higher intensity (posttest). Subjects would be consented if they would like to undergo fMRI pre and post-training. Participants not willing to undergo imaging would not be excluded. Three day training consisting of blocks of five consecutive gait-slips at varying intensities will be provided. Individuals with stroke would undergo an additional session (total 4 training sessions over 4 weeks (1session/week) since these individuals get easily fatigued and also might need more training sessions with sufficient rest interval to induce reactive adaptation. Training at a specific level will persist until the subjects show a recovery step response in at least 3/5 trials in a single block. Once subjects successfully adapt to this level, the perturbation intensity will be increased until they show a recovery response in at least 3/5 trials.

OTHER

Experimental: Overground training

Slips and trips could be induced under either of the limbs. The specialized walkway consists of two sliding platforms, each of which is mounted on two rows of low friction linear bearings (friction coefficient = 0.02). The base plate of each platform is bolted separately onto the top of a force platform embedded in the floor. An electronic-mechanical latch system is used to control the 2 states of the support platform; that is, the "locked" state for regular walking and the "release" state to initiate slipping are carefully controlled. The sliding top of the platform is released after the heel strike (vertical force to exceed 2% of the body weight). The slip distance would be adjusted between 30 to 60 centimeters depending upon the different population and their physical capacity.

OTHER

Experimental: Surefooted training

During the first minute of each block, subjects would experience no perturbations followed by 3 minutes of single or multi-directional perturbations. A one minute break between each condition would be provided. Subject's fatigue would be assessed by Fatigue severity scale to determine the tolerability of 30 minute training protocol. The expected duration to complete the test would be a maximum of 1 hour including the preparation and training time.

Sponsors & Collaborators

• University of Illinois at Chicago

  lead OTHER

Principal Investigators

• Tanvi Bhatt, PhD · University of Illinois at Chicago

Study Design

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

NONE

Model

PARALLEL

Eligibility

Min Age

18 Years

Max Age

90 Years

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2018-02-01

Primary Completion

2026-05-31

Completion

2026-12-31

Countries

• United States

Study Locations