Two physical therapy students, one applied exercise science student, and the manager of the UNE Motion Analysis Laboratory collaborated to investigate the effectiveness of the Prevent Injury Enhance Performance (PEP) program on reducing undesirable biomechanics and enhancing performance during athletic maneuvers in male lacrosse athletes.
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Grant Application: Effect Of The Prevent Injury Enhance Performance Program On Biomechanical Risk Factors And Performance Variables In Male Collegiate Lacrosse Athletes
Sebastian Stoltzfus, Casey Cottle, and Chad Lyons
IPEC Mini-grant application for funding of UNE student project Effect of The Prevent Injury Enhance Performance Program on Biomechanical Risk Factors and Performance Variables in Male Collegiate Lacrosse Athletes. Two physical therapy students, one applied exercise science student, and the manager of the UNE Motion Analysis Laboratory collaborated to investigate the effectiveness of the Prevent Injury Enhance Performance (PEP) program on reducing undesirable biomechanics and enhancing performance during athletic... Read More
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Effect Of The PEP Program On Biomechanical Risk Factors In Male Collegiate Lacrosse Athletes
Sebastian Stoltzfus, Casey Cottle, Chad Lyons, and Michael A. Lawrence
Research poster stemming from IPEC mini-grant funded student project Effect of The Prevent Injury Enhance Performance Program on Biomechanical Risk Factors and Performance Variables in Male Collegiate Lacrosse Athletes. Background: Landing and cutting maneuvers are common mechanisms for noncontact anterior cruciate ligament (ACL) injury. Men’s lacrosse is a high risk sport for ACL injury. The Prevent Injury Enhance Performance (PEP) program has been shown to decrease injury rates in... Read More