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Movement Clearing Screens for Service Member Musculoskeletal Injury Risk Identification.
Journal of Athletic Training 2024 July 15
CONTEXT: Pain during movement screens is a risk factor for musculoskeletal injury (MSKI). Movement screens often require specialized/clinical expertise and large amounts of time to administer.
OBJECTIVE: Evaluate if self-reported pain 1) with movement clearing screens is a risk factor for any MSKI, 2) with movement clearing screens is a risk factor for body region-specific MSKIs, and 3) with a greater number of movement clearing screens progressively increases MSKI risk.
DESIGN: Retrospective cohort study.
SETTING: Field-based.
PARTICIPANTS: Military Service members (n=4,222).
MAIN OUTCOME MEASURES: Active-duty Service members self-reported pain during movement clearing screens (Shoulder Clearing, Spinal Extension, Squat-Jump-Land). MSKI data were abstracted up to 180-days post-screening. A Traffic Light Model grouped Service members if they self-reported pain during 0 (Green), 1 (Amber), 2 (Red), or 3 (Black) movement clearing screens. Cox proportional hazards models adjusted for age, gender, body mass index, and prior MSKI determined the relationships between pain during movement clearing screens with any and body region-specific MSKIs.
RESULTS: Service members self-reporting pain during the Shoulder Clearing (adjusted-Hazard Ratio and 95% confidence interval (HRadj [95%CI]) =1.58 [1.37, 1.82]), Spinal Extension (HRadj=1.48 [1.28, 1.87]), or Squat- Jump-Land (HRadj=2.04 [1.79, 2.32]) tests were more likely to experience any MSKI compared to Service members reporting no pain. Service members with pain during the Shoulder Clearing (HRadj=3.28 [2.57, 4.19]), Spinal Extension (HRadj=2.80 [2.26, 3.49]), or Squat-Jump-Land (HRadj=2.07 [1.76, 2.43]) tests were more likely to experience an upper extremity, spine, back, and torso, or lower extremity MSKI, respectively, compared to Service members reporting no pain. The Amber (HRadj=1.69 [1.48, 1.93]), Red (HRadj=2.07 [1.73, 2.48]), and Black (HRadj=2.31 [1.81, 2.95]) cohorts were more likely to experience an MSKI compared to the Green cohort.
CONCLUSIONS: Self-report movement clearing screens in combination with a Traffic Light Model provide clinician/non-clinician-friendly, expedient means to identify Service members at MSKI risk.
OBJECTIVE: Evaluate if self-reported pain 1) with movement clearing screens is a risk factor for any MSKI, 2) with movement clearing screens is a risk factor for body region-specific MSKIs, and 3) with a greater number of movement clearing screens progressively increases MSKI risk.
DESIGN: Retrospective cohort study.
SETTING: Field-based.
PARTICIPANTS: Military Service members (n=4,222).
MAIN OUTCOME MEASURES: Active-duty Service members self-reported pain during movement clearing screens (Shoulder Clearing, Spinal Extension, Squat-Jump-Land). MSKI data were abstracted up to 180-days post-screening. A Traffic Light Model grouped Service members if they self-reported pain during 0 (Green), 1 (Amber), 2 (Red), or 3 (Black) movement clearing screens. Cox proportional hazards models adjusted for age, gender, body mass index, and prior MSKI determined the relationships between pain during movement clearing screens with any and body region-specific MSKIs.
RESULTS: Service members self-reporting pain during the Shoulder Clearing (adjusted-Hazard Ratio and 95% confidence interval (HRadj [95%CI]) =1.58 [1.37, 1.82]), Spinal Extension (HRadj=1.48 [1.28, 1.87]), or Squat- Jump-Land (HRadj=2.04 [1.79, 2.32]) tests were more likely to experience any MSKI compared to Service members reporting no pain. Service members with pain during the Shoulder Clearing (HRadj=3.28 [2.57, 4.19]), Spinal Extension (HRadj=2.80 [2.26, 3.49]), or Squat-Jump-Land (HRadj=2.07 [1.76, 2.43]) tests were more likely to experience an upper extremity, spine, back, and torso, or lower extremity MSKI, respectively, compared to Service members reporting no pain. The Amber (HRadj=1.69 [1.48, 1.93]), Red (HRadj=2.07 [1.73, 2.48]), and Black (HRadj=2.31 [1.81, 2.95]) cohorts were more likely to experience an MSKI compared to the Green cohort.
CONCLUSIONS: Self-report movement clearing screens in combination with a Traffic Light Model provide clinician/non-clinician-friendly, expedient means to identify Service members at MSKI risk.
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