女性和男性运动员在着陆任务中下肢额状面运动的时间不同。
Timing of lower extremity frontal plane motion differs between female and male athletes during a landing task.
机构信息
Human Performance Laboratory, Kinesiology Department, University of Connecticut, Storrs, Connecticut 06269, USA.
出版信息
Am J Sports Med. 2011 Jul;39(7):1517-21. doi: 10.1177/0363546510397175. Epub 2011 Mar 7.
BACKGROUND
Female athletes are at a greater risk for noncontact anterior cruciate ligament injuries than male athletes. Gender differences in frontal plane kinematics (hip adduction, knee valgus, and ankle eversion) and temporal relationships that make up the components of dynamic knee valgus may explain this discrepancy.
HYPOTHESIS
The authors hypothesized that women would reach peak frontal plane kinematic values earlier during landing compared with their male counterparts.
STUDY DESIGN
Controlled laboratory study.
METHODS
Hip, knee, and ankle 3-dimensional kinematics were measured using high-speed motion capture in 10 National Collegiate Athletic Association Division I female athletes and 10 male practice squad athletes during a drop-jump landing. Independent t tests were used to analyze each dependent variable to identify differences between genders.
RESULTS
Maximum hip adduction, knee valgus, and ankle eversion occurred earlier in women than in men (mean differences 33.7% of stance [95% CI, 20.2%-47.2%], 41.7% [95% CI, 31.5%-51.6%], 16.5% of stance [95% CI, 7.3%-25.6%], respectively). Maximum hip adduction and knee valgus occurred before maximum knee flexion in women and after in men (mean differences 0.11 seconds [95% CI, 0.05-0.18 seconds], 0.19 seconds [95% CI, 0.13-0.25 seconds], respectively). Maximum ankle eversion occurred earlier in women than in men (mean difference 0.06 seconds [95% CI, 0.01-0.11 seconds]). There was a significant difference between genders for angular velocity of knee valgus (mean difference = 25.53 deg/sec [95% CI, 8.30-42.77 deg/sec]).
CONCLUSION
Frontal plane kinematic temporal relationships at the hip, knee, and ankle differ between genders. The components of dynamic knee valgus peak during the deceleration phase in women and during the acceleration phase in men during a drop-jump landing. These data suggest that men and women employ a completely different kinematic landing/jumping strategy and that women land and collapse very rapidly into valgus compared with their male counterparts.
CLINICAL RELEVANCE
The differences in timing of the components of dynamic knee valgus between women and men may contribute to the increased risk of noncontact anterior cruciate ligament injuries in female athletes. There may be implications for neuromuscular reeducation training in those at risk for anterior cruciate ligament injury so the components of dynamic valgus occur later in the landing phase of jumping.
背景
女性运动员比男性运动员更容易发生非接触性前交叉韧带损伤。在构成动态膝内翻的额状面运动学(髋关节内收、膝外翻和踝关节内翻)和时间关系方面的性别差异可能解释了这种差异。
假设
作者假设女性在落地时比男性更早达到额状面运动学的峰值。
研究设计
对照实验室研究。
方法
在一项跳下落地中,使用高速运动捕捉技术测量了 10 名美国大学体育协会(NCAA)一级女性运动员和 10 名男性练习队运动员的髋关节、膝关节和踝关节的三维运动学。使用独立 t 检验分析每个因变量,以确定性别差异。
结果
女性的最大髋关节内收、膝外翻和踝关节内翻发生得更早(平均差异分别为站立位的 33.7%[95%置信区间,20.2%-47.2%]、41.7%[95%置信区间,31.5%-51.6%]、16.5%的站位[95%置信区间,7.3%-25.6%])。女性的最大髋关节内收和膝外翻发生在最大膝关节屈曲之前,而男性则发生在之后(平均差异分别为 0.11 秒[95%置信区间,0.05-0.18 秒]和 0.19 秒[95%置信区间,0.13-0.25 秒])。女性的最大踝关节内翻发生得更早(平均差异为 0.06 秒[95%置信区间,0.01-0.11 秒])。在膝外翻角速度方面,性别之间存在显著差异(平均差异=25.53 度/秒[95%置信区间,8.30-42.77 度/秒])。
结论
髋关节、膝关节和踝关节的额状面运动学时间关系在性别之间存在差异。在跳下落地中,女性的动态膝内翻的组成部分在减速阶段达到峰值,而男性则在加速阶段达到峰值。这些数据表明,男性和女性采用完全不同的运动学落地/跳跃策略,女性与男性相比,落地和迅速塌陷到内翻。
临床相关性
女性和男性动态膝内翻组成部分的时间差异可能导致女性运动员非接触性前交叉韧带损伤的风险增加。对于那些有前交叉韧带损伤风险的人,进行神经肌肉再教育训练可能具有重要意义,以便在跳跃的落地阶段,动态内翻的组成部分出现得更晚。
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