Accession Number:

AD1095523

Title:

Development of Predictive Models of Injury for the Lower Extremity, Lumbar, and Thoracic Spine after Discharge from Physical Rehabilitation

Descriptive Note:

Technical Report,22 Sep 2017,21 Sep 2018

Corporate Author:

U.S. Army Brooke Army Medical Center (BAMC) The Geneva Foundation Lackland AFB United States

Personal Author(s):

Report Date:

2018-10-01

Pagination or Media Count:

8.0

Abstract:

The objective and overall hypothesis is that service member performance on a battery of physical performance tests performed upon discharge from physical rehabilitation, will be able to predict 1 the risk of sustaining any injury as well as 2 the risk of reoccurrence of the same injury. A two-pronged injury prevention approach is required to optimize return to duty rates after injury Screening for known preventable musculoskeletal risk factors and ensuring these risk factors are mitigated prior to discharge from rehabilitation. The current assumption is that a service member discharged from medical care is ready to return to full duty. Because history of prior injury is a well-established risk factor, every service member that is discharged from Physical Rehabilitation is already at a higher risk for future injury. Identifying those at increased risk of recurrence provides the ability for secondary and tertiary prevention programs to optimize return to duty rates. Hypothesis 1 Risk factors shown to be predictive of lower extremity and lumbarthoracic spine injuries in other populations and in healthy service members will also be predictive of re-occurrence of original injury, future injury, and return to duty rates in service members being discharged from Physical Rehabilitation. Hypothesis 2 The injury prediction models will vary by age and sex. Hypothesis 3 A multi-factorial prediction model that accurately predicts risk of new and recurring injuries, as well as return to duty rates, will consist of multiple variables.

Subject Categories:

  • Medicine and Medical Research
  • Anatomy and Physiology

Distribution Statement:

APPROVED FOR PUBLIC RELEASE