Assessment of Fall Risks and Subject-specific Training for Fall Reduction

Summary

The target population of this project is older people with high risks of falls. About 30% community-dwelling individuals over 65 years of age fall each year and the rate of fall related injuries leading to loss of function and independence increases with age. Falls are the leading cause of fatal and non-fatal injuries and the leading cause traumatic brain injury in older adults. Slip-related falls in older adults comprise 40% of outdoor falls and are the leading cause of hip fracture or traumatic head injury. In 2012, 2.4 million non-fatal falls were treated in emergency room visits with $30 billion dollars spent on direct medical costs. In addition to fractures and traumatic brain injury, nonfatal falls frequently lead to reduced levels of activity, fear of falling, and reduced quality of life. Clearly, advancing the predictive, preventative, and rehabilitative methods aimed at reducing the risk of injurious falls in this population is imperative. Although falls are multi-factorial in nature, there has been few individualized assessment of the biomechanical causes of falls.

The purpose of this study is to conduct subject-specific training on older adults with fall risks with combined home-hospital rehabilitation. This project will involve rehabilitation interventions based on the characteristics of falling patterns and older adults with reduced capability controlling the balance. To conduct subject-specific fall prevention training. based on identified individual fall mechanisms.

Conditions

• Fall Risk

Interventions

DEVICE

Home-based training

1. If the participant shows instability in any specific perturbation directions or with excessive body swaying, the participant will practice walking with a cellphone strapped on the chest in-home training. A cellphone App will detect potential excessive body swaying in any directions and prompt the participant with real time audio-visual feedback to reduce sway in the specific directions. 2. If the subject is diagnosed with collapse-related vertical instability, lower-limb muscle strengthening will be emphasized in the training. The subject may work out with a Shuttle Mini-Press, AB Squat machine, Rowing machine, or Upright Row-n-Ride. The Investigators will select one machine appropriate for the subject to take home. The exercise will be 3-5 sets a day and about 15 repetitions per set. In the beginning, the exercise can be slower and with fewer repetitions based on the subject's capability. As the subject progresses, the subject may change from one exercise machine to another.

DEVICE

Lab-based training

In the weekly lab-based training session, the subject will do individualized training using the sliding stepping trainer, with a focus on the direction the subject showed higher risks of falling, as identified in the initial assessment. The sliding stepping trainer will generate perturbations of the footplates in those identified risky directions during stepping.

Sponsors & Collaborators

• University of Maryland, Baltimore

  lead OTHER

Principal Investigators

• Li-Qun Zhang · University of Maryland, Baltimore

Study Design

Allocation

NA

Purpose

PREVENTION

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Min Age

60 Years

Max Age

85 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2025-12-01

Primary Completion

2029-04-30

Completion

2029-04-30

Countries

• United States

Study Locations