Human Performance Lab, Faculty of Kinesiology, University of Calgary, Calgary, Alberta, CANADA.
Med Sci Sports Exerc. 2013 Nov;45(11):2137-43. doi: 10.1249/MSS.0b013e318299ac56.
Football is the most popular high school sport; however, it has the highest rate of injury. Speculation has been prevalent that foot fixation due to high footwear traction contributes to injury risk. Therefore, the purpose of the study was to determine whether a relationship exists between the athlete's specific footwear traction (measured with their own shoes on the field of play) and lower extremity noncontact injury in high school football.
For 3 yr, 555 high school football athletes had their footwear traction measured on the actual field of play at the start of the season, and any injury the athletes suffered during a game was recorded. Lower extremity noncontact injury rates, grouped based on the athlete's specific footwear traction (both translational and rotational), were compared.
For translational traction, injury rate reached a peak of 23.3 injuries/1000 game exposures within the midrange of translational traction, before decreasing to 5.0 injuries/1000 game exposures in the high range of traction. For rotational traction, there was a steady increase in injury rate as footwear traction increased, starting at 4.2 injuries/1000 game exposures at low traction and reaching 19.2 injuries/1000 game exposures at high traction.
A relationship exists between footwear traction and noncontact lower extremity injury, with increases in rotational traction leading to a greater injury rate and increases in translational traction leading to a decrease in injury. It is recommended that athletes consider selecting footwear with the lowest rotational traction values for which no detriment in performance results.
足球是最受欢迎的高中运动项目,但它也是受伤率最高的运动。人们普遍推测,由于高鞋类牵引力导致的足部固定会增加受伤风险。因此,本研究的目的是确定运动员特定的鞋类牵引力(在比赛场地用他们自己的鞋子测量)与高中足球中下肢非接触性损伤之间是否存在关系。
在 3 年的时间里,555 名高中足球运动员在赛季开始时就在实际比赛场地上测量了他们的鞋类牵引力,并且记录了运动员在比赛中遭受的任何伤害。根据运动员特定的鞋类牵引力(包括平移牵引力和旋转牵引力)将下肢非接触性损伤率进行分组,然后进行比较。
对于平移牵引力,在平移牵引力的中等范围内,损伤率达到了 23.3 次/1000 次比赛暴露的峰值,然后在高牵引力范围内降至 5.0 次/1000 次比赛暴露。对于旋转牵引力,随着鞋类牵引力的增加,损伤率稳步增加,从低牵引力时的 4.2 次/1000 次比赛暴露开始,到高牵引力时达到 19.2 次/1000 次比赛暴露。
鞋类牵引力与下肢非接触性损伤之间存在关系,旋转牵引力的增加会导致更高的损伤率,而平移牵引力的增加会导致损伤率的降低。建议运动员考虑选择旋转牵引力值最低的鞋子,而不会对性能造成不利影响。
