Effect of Treadmill Perturbation Training on Falls

Not Applicable

Completed

• Conditions: Accidental Fall; Accident Prevention
• Interventions: Other: Perturbation training; Other: Treadmill walking

• Registration Number: NCT04733222
• Lead Sponsor: Aalborg University Hospital

Brief Summary

This parallel, randomized, controlled trial aims to quantify the effects of slip- and trip-perturbation training on fall rates collected over 12 months, compared to time-matched treadmill walking, among community-dwelling older adults (≥65 years).

A sample size calculation estimated that 140 older community-dwelling older adults (≥65 years) are needed. Following baseline measures, the recruited participants will randomly be assigned to either the perturbation or the walking group. The participants in the perturbation group will be assigned to four perturbation training sessions. The walking group will perform four treadmill walking matching the exercise time of the perturbation training. Assessment of the primary outcome, fall rates, will be conducted continuously in 12 months from randomization. When a fall is reported in the fall calendar, a telephone interview will be conducted to assess the circumstances and consequences (e.g., fall-related fractures, fall-related hospital admissions) of the falls. Moreover, assessment of physical, cognitive, and social-psychological outcomes will be made at baseline, post-test, six-month, and 12-months reassessment.

Detailed Description

Approximately one-third of older adults fall at least once a year, and about 10% of these falls cause serious injuries such as head injuries and fractures. In fact, falls are the most frequent cause of injuries among older adults and often lead to disability, institutionalization, and premature death.

Multiple fall prevention interventions have been examined to reduce the fall rate, and physical exercise has continuously been proven as an effective and cost-effective approach. However, traditional exercise approaches, such as balance and muscle-strengthening training, have only shown a moderate 20-25% decrease in falls and encounters issues such as poor compliance. Recently, task-specific perturbation training using an overground walkway has been shown to produce quick motor adaptations resulting in improved pro- and reactive stability. Additionally, perturbation training delivered on such walkways has decreased both laboratory-induced and real-life falls. However, overground walkways with moveable platforms and trip-board are expensive and immobile; thus, limiting the clinical feasibility.

Contrarily, perturbation training delivered on computer-controlled treadmills may serve as a more implementable substitute. Preliminary studies have shown that treadmill perturbation training produces similar dynamic stability adaptations to overground perturbation training. Furthermore, a single session of treadmill perturbation decreases the rate of laboratory-induced falls, and the ergogenic effects were retained for up to six months. However, the effects of a brief treadmill perturbation training intervention on real-life falls in community-dwelling older adults still vastly unknown.

Study Timeline

• Study First Submitted: 2021-01-22
• Study First Submitted QC: 2021-01-27
• Study First Posted: 2021-02-02
• Study Start: 2021-04-01
• Primary Completion: 2022-11-15
• Study Completion: 2022-11-15
• Status Verified: 2023-01
• Last Update Submitted: 2023-01-31
• Last Update Posted: 2023-02-01

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 140

Inclusion Criteria

• ≥65 years old
• Community-dwelling
• Able to walk without a walking aid

Exclusion Criteria

• Any of the following self-reported conditions: Any orthopedic surgery within the past 12 months, osteoporosis or history of osteoporosis-related fractures (low impact hip, spine, and wrist fracture), or progressive neurological disease (e.g., Parkinson, multiple sclerosis)
• An unstable medical condition that would prevent safe participation
• Severe cognitive impairment (a score <8 in The Short Orientation-Memory-Concentration Test)
• Current participation in another fall prevention trial

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Perturbation training	Perturbation training	Participants randomized to the treadmill perturbation training will initially perform three sessions performed within a week followed by a "booster"-session after six months.
Treadmill walking	Treadmill walking	Participants randomized to the walking group will undergo three initial sessions within a week and a "booster"-session after six months.

Primary Outcome Measures

Name	Time	Method
Fall rate	Continuously for 12 months after the initial three training sessions	Falls are collected by daily recordings in calendar that is returned to the research group monthly

Secondary Outcome Measures

Name	Time	Method
Proportion of participants with at least one fall	Continuously for 12 months after the initial three training sessions	Falls are collected by daily recordings in calendar that is returned to the research group monthly
Time to first fall	Continuously for 12 months after the initial three training sessions	Falls are collected by daily recordings in calendar that is returned to the research group monthly
Fall-related fracture rate	Continuously for 12 months after the initial three training sessions	When a fall is registered in the fall calendar, a research group member will make a telephone interview to obtain information about the fall's consequences (e.g. fractures). Screening of the participants medical records for radiologically verified fractures will verify this information.
Proportion of participants with at least one fall-related fractures	Continuously for 12 months after the initial three training sessions	When a fall is registered in the fall calendar, a research group member will make a telephone interview to obtain information about the fall's consequences (e.g. fractures). Screening of the participants medical records for radiologically verified fractures will verify this information.
Number of all-cause fractures	At the 52-week follow-up	Screening of the participants medical records for radiologically verified fractures.
Number of other fall-related injuries	Continuously for 12 months after the initial three training sessions	When a fall is registered in the fall calendar, a research group member will make a telephone interview to obtain information about the fall's consequences (e.g. head injuries and bruises).
Fall-related hospital admission rate	Continuously for 12 months after the initial three training sessions	When a fall is registered in the fall calendar, a research group member will make a telephone interview to obtain information about the fall's consequences (e.g. hospital contacts). Screening of the participant's medical records will verify this information.
Proportion of participants with at least one hospital admission	Continuously for 12 months after the initial three training sessions	When a fall is registered in the fall calendar, a research group member will make a telephone interview to obtain information about the fall's consequences (e.g. hospital contacts). Screening of the participant's medical records will verify this information.
Number of all-cause hospital admissions	At the 52-week follow-up	Screening of the participant's medical records
Laboratory-induced falls	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	Falls after slips and trips induced on the treadmill. A fall is determined based on video recordings. A fall is defined as unambiguous support by the safety harness after the perturbation.
Gait kinematics to perturbations	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	Gait kinematics collected before, during and after a slip- and trip-perturbation measured by heel contacts
Single-task gait	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	8-meter walking timed by handheld stopwatch.
Dual-task gait	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	8-meter walking timed by handheld stopwatch under dual-task condition (serial subtraction of threes from a random three digit number).
Single-task static balance	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	30-seconds static balance measures on a Wii balance board.
Dual-task static balance	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	30-seconds static balance measures on a Wii balance board under dual-task conditions (verbal fluency of grocery store items).
Choice stepping reaction time	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	Choice stepping reactions test on a Wii balance board
Lower extremity physical performance	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	The Short Physical Performance Battery
Health-related quality of life	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	The EuroQoL EQ-5D-5L, Danish version
Fear of Falling	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	The Short Falls Efficacy Scale International, Danish version
Executive function	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	The trail making task Part A and B
Frailty	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	The Tilburg Frailty Indicator
Adverse events	Week 0 (Pre-training; before the first training), week 1 (Post-training; after the third training session), week 26 (26-week follow-up; before the fourth training session), and week 52 (52-week follow-up)	Patient-reported events such as muscle soreness, discomfort, pain, or injuries

Trial Locations

Locations (1)

Aalborg Municipality; 🇩🇰 Aalborg, Denmark