A Wearable Sensor System to Quantify Agility Symmetry in an Active-Duty Military Population- APTA CSM 2024
Ignacio Alejandro Gaunaurd I, Helton M, Goss D, Applegate B, Bennett C, Gonnella M, Haltiwanger H, Reilly N, DeMichele S, Linowes S, Hunt A, Troiano M, Besowshek A, Gailey R
Abstract accepted as a platform presentation for the 2024 American Physical Therapy Association Combined Sections Meeting
Service Members (SMs) are at risk for musculoskeletal (MSK) injuries, especially injuries that affect the lower limbs (LL) and the ability to perform their duties. Therefore a screening measure designed to determine risk for LL MSK injuries would be meaningful. Recently, wireless sensors have been used to measure joint kinematics with the purpose of assessing performance and by extension quantifying risk of injury. Unique metrics derived from novel algorithms, such as the Transitional Angular Displacement of Segment (TADS), have been validated to assess dynamic balance, lower limb stability, and agility during the four-meter sidestep test (FmSST) in Collegiate Athletes. The purpose of this study is to characterize TADS in Active Duty SMs.
Eight percent of the SMs tested are at a high risk for LL MSK injury based on TADS screening. This is a considerable number of SMs who potentially could be injured resulting in limited duty, increased health costs or not achieving career goals.