Browsing by Author "Helton, Gary L."
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Item Metadata only Association Between Running Shoe Characteristics and Lower Extremity Injuries in United States Military Academy Cadets(The American Journal of Sports Medicine, 2019) Helton, Gary L.; Cameron, Kenneth L.; Zifchock, Rebecca A.; Miller, Erin; Goss, Donald; Song, Jinsup; Neary, Michael T.Background: Running-related overuse injuries are very common among recreational runners, with the reported annual injury rates ranging from 39% to 85%. Relatively few large prospective cohort studies have been conducted to investigate injury risk associated with different running shoe characteristics, and the results of the existing studies are often contradictory. Purpose/Hypothesis: The purpose was to investigate the relationship between running shoe characteristics and lower extremity musculoskeletal injury. It was hypothesized that the risk of injury would be increased in individuals wearing shoes with minimal torsional stiffness and heel height compared with those wearing shoes with greater levels of torsional stiffness and heel height. Study Design: Cohort study; Level of evidence, 2. Methods: The study included 1025 incoming cadets. Shoe torsional stiffness and heel height were calculated and recorded. Demographic data were recorded and analyzed as potential covariates. Lower extremity injuries sustained over 9 weeks during cadet basic training were documented by use of the Armed Forces Health Longitudinal Technology Application and the Cadet Illness and Injury Tracking System. Kaplan-Meier survival curves were estimated, with time to incident lower extremity injury as the primary outcome by level of the independent predictor variables. Risk factors or potential covariates were carried forward into multivariable Cox proportional hazards regression models. Absolute and relative risk reduction and numbers needed to treat were calculated. Results: Approximately 18.1% of participants incurred a lower extremity injury. Cadets wearing shoes with moderate lateral torsional stiffness were 49% less likely to incur any type of lower extremity injury and 52% less likely to incur an overuse lower extremity injury than cadets wearing shoes with minimal lateral torsional stiffness, both of which were statistically significant observations. Injury risk was similar among cadets wearing shoes with minimal and extreme lateral torsional stiffness. Conclusion: Shoes with mild to moderate lateral torsional stiffness may be appropriate in reducing risk of lower extremity injury in cadets. Shoes with minimal lateral torsional stiffness should be discouraged in this population.Item Metadata only Quantification of torsional stiffness in running footwear: proposed methodology(Informa UK Limited, 2017-07-20) Zifchock, Rebecca A. ; Sulley, Michaela; Helton, Gary L.; Freisinger, Gregory; Wilson, Roderick; Blackmon, William; Goss, DonaldThere is evidence to suggest that certain extrinsic factors, such as footwear, may contribute to risk of running injury. Torsional shoe stiffness quantifies the resistance of a shoe to twisting about its long axis between the heel and toe box, and has been previously linked to changes in foot and ankle kinetics and kinematics during running and cutting motions. Despite the potential for torsional stiffness to influence gait and injury risk, torsional stiffness of running shoes is rarely reported in biomechanical research, and methods of quantifying shoe torsional stiffness are not currently standardised. The purpose of this study was to propose and validate a device for the quantification of torsional stiffness of a variety of types and sizes of running footwear. The device includes the measurement of shoe length. This provides required information for a more comprehensive calculation of torsional stiffness that represents the product of the area moment of inertia and the modulus of rigidity, both of which can be useful to characterise a particular type of shoe based on its shape and material properties. The results of inter-rater and intra-rater reliability analyses suggest that the device is useful for repeatable measurements of torsional stiffness in both the medial and lateral directions, as well as heel thickness.Item Metadata only Quantification of torsional stiffness in running footwear: proposed methodology(Footwear Science, 2017) Zifchock, Rebecca A.; Sulley, Michaela; Helton, Gary L.; Freisinger, Gregory; Wilson, Roderick; Blackmon, William; Goss, DonaldThere is evidence to suggest that certain extrinsic factors, such as footwear, may contribute to risk of running injury. Torsional shoe stiffness quantifies the resistance of a shoe to twisting about its long axis between the heel and toe box and has been previously linked to changes in foot and ankle kinetics and kinematics during running and cutting motions. Despite the potential for torsional stiffness to influence gait and injury risk, torsional stiffness of running shoes is rarely reported in biomechanical research, and methods of quantifying shoe torsional stiffness are not currently standardized. The purpose of this study was to propose and validate a device for the quantification of torsional stiffness of a variety of types and sizes of running footwear. The device includes the measurement of shoe length. This provides required information for a more comprehensive calculation of torsional stiffness that represents the product of the area moment of inertia and the modulus of rigidity, both of which can be useful to characterize a particular type of shoe based on its shape and material properties. The results of inter-rater and intra-rater reliability analyses suggest that the device is useful for repeatable measurements of torsional stiffness in both the medial and lateral directions, as well as heel thickness.