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COMPLETED
NCT07681193
NA

Effects of Whole Body Vibration on Quadriceps Function, Landing Biomechanics, and Performance in Individuals With ACL Reconstruction

Sponsor: University of North Carolina, Chapel Hill

View on ClinicalTrials.gov

Summary

Individuals who undergo anterior cruciate ligament reconstruction (ACLR) are at heightened risk of secondary anterior cruciate ligament (ACL) injury (e.g. additional injury to the ACL in either knee). One of the primary physiological consequences of ACLR is the presence of quadriceps dysfunction (i.e. reduced activation and strength) which has been linked to altered gait and landing biomechanics. Aberrant landing biomechanics have been associated with an increased risk of both primary and secondary ACL injury, thus additional research is needed to evaluate the efficacy of treatments aimed to reduce quadriceps dysfunction and restore adequate landing biomechanics in attempts to reduce secondary ACL injury. Whole-body Vibration (WBV) has demonstrated success in improving quadriceps function and gait biomechanics in individuals with ACLR, however its effectiveness on landing biomechanics is unknown. To evaluate the acute effects of WBV on landing biomechanics in those with ACLR, a non-randomized crossover-controlled trial was conducted to determine if a single bout of WBV improved landing biomechanics greater than a control condition. Participants completed two separate testing sessions (separated by at least one week) in which measures of quadriceps function and landing biomechanics were assessed before and after either a control (no WBV) or WBV intervention. Separate linear mixed-effects models of post-test values for each dependent outcome were conducted with condition (control vs WBV) and limb (ACLR vs Uninvolved) as an interaction term, and each condition pre-test values and time post-ACLR as fixed effect covariates and a random effect of subject. The investigators expect to observe a significant improvement in landing biomechanics following WBV compared to the control condition.

Official title: Use of Whole-body Vibration to Acutely Improve Landing Biomechanics In Individuals With Anterior Cruciate Ligament Reconstruction (ACLR)

Key Details

Gender

All

Age Range

18 Years - 35 Years

Study Type

INTERVENTIONAL

Enrollment

36

Start Date

2021-09-01

Completion Date

2022-05-10

Last Updated

2026-07-02

Healthy Volunteers

No

Interventions

OTHER

Whole body vibration (WBV)

Participants will stand on a WBV platform in a mini-squat position while vibration is applied during six 60-second bouts with 2 minutes of rest between each bout. WBV will be delivered at an acceleration of 2g and a frequency of 30 Hz.

OTHER

Sham Whole body vibration

Participants will stand on a WBV platform in a mini-squat position during six 60-second bouts with 2 minutes of rest between each bout. No vibration will be applied.

Locations (1)

Univesrity of North Carolina at Chapel HIll MOTION Science Institute

Chapel Hill, North Carolina, United States