Sex-Based Differences in Knee Ligament Biomechanics During Robotically Simulated Athletic Tasks

Abstract ACL injury rates are greater in female athletes than their male counterparts. As female athletes are at increased risk, it is important to understand the underlying mechanics that contribute to this sex bias. The purpose of this investigation was to employ a robotic manipulator to simulate...

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Bibliographic Details
Published in:Journal of biomechanics 2016-06, Vol.49 (9), p.1429-1436
Main Authors: Bates, Nathaniel A, Nesbitt, Rebecca J, Shearn, Jason T, Myer, Gregory D, Hewett, Timothy E
Format: Article
Language:English
Subjects:
Age
Anterior Cruciate Ligament - physiology
Anterior cruciate ligament strain
Athletes
Bias
Biomechanical Phenomena
Cadaveric simulation
Conflicts of interest
Exercise
Female
Females
Gender sex bias
Humans
Injuries
Kinematics
Knee
Knee joint loading
Ligaments
Load
Male
Males
Mechanical Phenomena
Mechanics
Middle Aged
Physical Medicine and Rehabilitation
Robotic manipulator
Robotics
Sex Characteristics
Simulation
Sports - physiology
Sports injuries
Strain
Stress, Mechanical
Tasks
Torque
Weight-Bearing
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Summary:Abstract ACL injury rates are greater in female athletes than their male counterparts. As female athletes are at increased risk, it is important to understand the underlying mechanics that contribute to this sex bias. The purpose of this investigation was to employ a robotic manipulator to simulate male and female kinematics from athletic tasks on cadaveric specimens and identify sex-based mechanical differences relative to the ACL loading. It was hypothesized that simulations of female motion would generate the higher loads and ligament strains associated with in vivo ACL injury risk than simulations of male motion. A 6-degree-of-freedom robotic manipulator articulated cadaveric lower extremity specimens from 12 donors through simulations of in vivo kinematics recorded from male and female athletic tasks. Simulation of female kinematics exhibited lower peak lateral joint force during the drop vertical jump and lower peak anterior and lateral joint force and external joint torque during the sidestep cut ( P
ISSN:0021-9290
1873-2380
DOI:10.1016/j.jbiomech.2016.03.001