CONTEXT: Existing anterior cruciate ligament (ACL) injury prevention programs have failed to reverse the high rate of ACL injuries in adolescent female athletes. OBJECTIVE: This investigation attempts to overcome factors that limit efficacy with existing injury prevention programs through the use of a novel, objective, and real-time interactive visual feedback system designed to reduce the biomechanical risk factors associated with ACL injuries. DESIGN: Cross-over study. SETTING: Medical center laboratory. PARTICIPANTS: A total of 20 females (age = 19.7 [1.34] y; height = 1.74 [0.09] m; weight = 72.16 [12.45] kg) participated in this study. METHODS: Participants performed sets of 10 bodyweight squats in each of 8 training blocks (ie, 4 real-time and 4 control blocks) and 3 testing blocks for a total of 110 squats. Feedback conditions were blocked and counterbalanced with half of participants randomly assigned to receive the real-time feedback block first and half receiving the control (sham) feedback first. RESULTS: Heat map analysis revealed that during interaction with the real-time feedback, squat performance measured in terms of key biomechanical parameters was improved compared with performance when participants squatted with the sham stimulus. CONCLUSIONS: This study demonstrates that the interactive feedback system guided participants to significantly improve movement biomechanics during performance of a body weight squat, which is a fundamental exercise for a longer term ACL injury risk reduction intervention. A longer training and testing period is necessary to investigate the efficacy of this feedback approach to effect long-term adaptations in the biomechanical risk profile of athletes.
RCT Entities:
CONTEXT: Existing anterior cruciate ligament (ACL) injury prevention programs have failed to reverse the high rate of ACL injuries in adolescent female athletes. OBJECTIVE: This investigation attempts to overcome factors that limit efficacy with existing injury prevention programs through the use of a novel, objective, and real-time interactive visual feedback system designed to reduce the biomechanical risk factors associated with ACL injuries. DESIGN: Cross-over study. SETTING: Medical center laboratory. PARTICIPANTS: A total of 20 females (age = 19.7 [1.34] y; height = 1.74 [0.09] m; weight = 72.16 [12.45] kg) participated in this study. METHODS:Participants performed sets of 10 bodyweight squats in each of 8 training blocks (ie, 4 real-time and 4 control blocks) and 3 testing blocks for a total of 110 squats. Feedback conditions were blocked and counterbalanced with half of participants randomly assigned to receive the real-time feedback block first and half receiving the control (sham) feedback first. RESULTS: Heat map analysis revealed that during interaction with the real-time feedback, squat performance measured in terms of key biomechanical parameters was improved compared with performance when participants squatted with the sham stimulus. CONCLUSIONS: This study demonstrates that the interactive feedback system guided participants to significantly improve movement biomechanics during performance of a body weight squat, which is a fundamental exercise for a longer term ACL injury risk reduction intervention. A longer training and testing period is necessary to investigate the efficacy of this feedback approach to effect long-term adaptations in the biomechanical risk profile of athletes.
Authors: Scott Bonnette; Christopher A DiCesare; Jed A Diekfuss; Dustin R Grooms; Ryan P MacPherson; Michael A Riley; Gregory D Myer Journal: J Athl Train Date: 2019-08-22 Impact factor: 2.860
Authors: Jed A Diekfuss; Dustin R Grooms; Scott Bonnette; Christopher A DiCesare; Staci Thomas; Ryan P MacPherson; Jonathan D Ellis; Adam W Kiefer; Michael A Riley; Daniel K Schneider; Brooke Gadd; Katie Kitchen; Kim D Barber Foss; Jonathan A Dudley; Weihong Yuan; Gregory D Myer Journal: Psychophysiology Date: 2020-02-13 Impact factor: 4.016
Authors: Jed A Diekfuss; Dustin R Grooms; Katharine S Nissen; Daniel K Schneider; Kim D Barber Foss; Staci Thomas; Scott Bonnette; Jonathan A Dudley; Weihong Yuan; Danielle L Reddington; Jonathan D Ellis; James Leach; Michael Gordon; Craig Lindsey; Ken Rushford; Carlee Shafer; Gregory D Myer Journal: Braz J Phys Ther Date: 2019-07-17 Impact factor: 3.377
Authors: Manish Anand; Jed A Diekfuss; Scott Bonnette; Ian Short; Matthew Hurn; Dustin R Grooms; Gregory D Myer Journal: Int J Sports Phys Ther Date: 2020-12