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Clinical Trial Summary

The investigators will combine state-of-the-art quantitative imaging, on-field biomechanics, and computational analytics into the largest-of-its-kind study to assess hamstring strain injury (HSI) risk and recovery in elite collegiate football players. The study will take place over 3 years and enroll up to 560 student athletes from Division I (D1) teams: University of Wisconsin-Madison, Brigham Young University and the University of North Carolina-Chapel Hill.


Clinical Trial Description

The current approach to assess hamstring strain injury (HSI) risk and recovery is suboptimal. Many player-games are lost in American Football due to the lack of a clear understanding of the risk factors for HSI and the absence of effective methods to minimize re-injury. The investigators propose that the key issues are: 1) every athlete is unique; therefore, a "one-size-fits-all" approach to HSI risk assessment will not work; 2) clinicians have limited relevant information on the potential injury risk for a specific athlete; 3) current methods to assess the extent of injury in a specific athlete are largely qualitative, limiting the ability to determine re-injury risk; and 4) current use of biologic injections is common, yet studies to quantify their effects are lacking. In this study, the investigators will address these four critical barriers by combining state-of-the-art quantitative imaging, on-field biomechanics, and computational analytics into the largest-of-its-kind study of elite collegiate football players. The study will be conducted in 4 Division I collegiate men's football teams over a 3-year period. All student-athletes enrolled in this study will complete preseason hamstring strength testing, inertial measurement units (IMU)-based sprinting biomechanics, and undergo baseline magnetic resonance imaging (MRI). Student-athletes will be monitored by athletic trainers throughout the school year, who will record injuries and participation (e.g., time in practice, game). Student-athletes who sustain an HSI will undergo a clinical assessment at the time of injury along with an MRI examination. Following completion of a rehabilitation program, hamstring strength will be re-evaluated and imaging will be repeated, along with performance measurements. This study will provide the most detailed understanding of the physiological causes and effects of HSI, advancing our understanding of the processes affecting muscle function and improving our ability to evaluate, treat, and prevent HSI. This study represents what will be the largest, most quantitative prospective cohort study ever into HSI. Data gathered as part of this study will be used to develop a quantitative Hamstring Injury (HAMIR) index such that the medical and scientific communities can identify an individual athlete's propensity for HSI, and, more importantly, identify targets for injury mitigation, thereby reducing the global burden of HSI. Aim 1. Develop a risk prediction model for HSI based on morphological, architectural, biomechanical and clinical factors in National Collegiate Athletic Association (NCAA) D1 college football players. The goal is to test the predictive capacity of innovative measures of risk for initial HSI in the largest prospective cohort study ever conducted in HSI. The outcome will be the establishment of a quantitative HAMIR index that is based on multiple athlete-specific measures. This aim will also identify potential future targets for injury risk mitigation and prophylactic strategies. Aim 2. Develop a risk prediction model for recurrent HSI based on morphological, architectural, biomechanical and clinical factors (identified in Aim 1) in NCAA D1 college football players by completing the largest ever analysis of re-injury data. The investigators will track players who sustain an HSI, both immediately after injury and longitudinally. Quantification of injury metrics (e.g., volume of initial edema and volume, shape and location of long-term scar) will be incorporated into the analytics framework to develop a new "re-injury" HAMIR index. Similar to Aim 1, this aim will identify potential future targets for re-injury risk mitigation and prophylactic approaches. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05343052
Study type Observational
Source University of Wisconsin, Madison
Contact
Status Enrolling by invitation
Phase
Start date April 25, 2022
Completion date June 30, 2025

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