Goss d, rochester k, melton c, reilly n, marshall a, hess g, ford k

Abstracted accepted for a poster session at the 2025 Military Health System Research Symposium

Introduction: All Military Service Members run. The shin and and knee are the most frequently reported injury locations representing 48% of new injuries and 59% of re-injuries (Rauh 2006, Tenforde 2011). Powers et al, (2010) observed that abnormal frontal and transverse plane hip movements have led to patellofemoral pain in runners. Additional work is needed outside the lab to analyze running kinematics. Markerless motion capture systems with cameras has been validated for running and walking data collections.

Methods: Markerless motion capture with 12 cameras were used outside on a track at Fort Bragg, NC. Kinematic running data were collected on 665 Soldiers running through the motion capture volume in 2024. Prospective injury data were mined from the electronic medical record. Kinematic data was processed and analyzed for each step between initial contact to toe off. Two-tailed statistical parametric mapping using a two-sampled t-tests were conducted comparing those presenting with a lower extremity injury to those who did not report a running related injury in the first six months following a data collection in June 2024 to December 2024. The first date of data capture (33 runners) were analyzed and prospectively followed for the initial 6 months to identify those who sustained an injury to those who did not sustain an injury.

Results: Thirty three runners were included in this preliminary analysis. Two hundred and seventy-two steps were analyzed for these 33 runners. There were 136 left and 136 right steps.  Mean steps per participant were 8.24 steps.  Four runners reported to the medical clinic for running-related injuries, while 29 did not. Of the 4 who reported for injury, they demonstrated greater hip adduction for 21% of stance phase  than the 29 healthy Soldiers/runners (t = 2.74, p < .05). No other hip, knee, or ankle sagittal, frontal, or transverse plane differences were observed between the injured and uninjured runners.

Conclusion: These preliminary results are consistent with previous studies that have indicated that increased hip adduction may lead to patellofemoral knee pain in a lab setting. This is the first study of its kind to include markerless motion capture running data of over 30 runners outside. We have over 600 more Soldiers/runners to continue to prospectively track injuries and will have that done prior to the August 2024 MHSRS meeting.