College of Public Health and Human Sciences, Oregon State University, Corvallis.
J Athl Train. 2013 Nov-Dec;48(6):748-56. doi: 10.4085/1062-6050-48.4.09. Epub 2013 Aug 14.
Eccentric muscle actions of the lower extremity absorb kinetic energy during landing. Greater total sagittal-plane energy absorption (EA) during the initial impact phase (INI) of landing has been associated with landing biomechanics considered high risk for anterior cruciate ligament (ACL) injury. We do not know whether groups with different INI EA magnitudes exhibit meaningful differences in ACL-related landing biomechanics and whether INI EA might be useful to identify ACL injury-risk potential.
To compare biomechanical factors associated with noncontact ACL injury among sagittal-plane INI EA groups and to determine whether an association exists between sex and sagittal-plane INI EA group assignment to evaluate the face validity of using sagittal-plane INI EA to identify ACL injury risk.
Descriptive laboratory study.
Research laboratory.
A total of 82 (41 men, 41 women; age = 21.0 ± 2.4 years, height = 1.74 ± 0.10 m, mass = 70.3 ± 16.1 kg) healthy, physically active individuals volunteered.
INTERVENTION(S): We assessed landing biomechanics using an electromagnetic motion-capture system and force plate during a double-legged jump-landing task.
MAIN OUTCOME MEASURE(S): Total INI EA was used to group participants into high, moderate, and low tertiles. Sagittal- and frontal-plane knee kinematics; peak vertical and posterior ground reaction forces (GRFs); anterior tibial shear force; and internal hip extension, knee extension, and knee varus moments were identified and compared across groups using 1-way analyses of variance. We used a χ (2) analysis to compare male and female representation in the high and low groups.
The high group exhibited greater knee-extension moment and posterior GRFs than both the moderate (P < .05) and low (P < .05) groups and greater anterior tibial shear force than the low group (P < .05). No other group differences were noted. Women were not represented more than men in the high group (χ(2) = 1.20, P = .27).
Greater sagittal-plane INI EA likely indicates greater ACL loading, but it does not appear to influence frontal-plane biomechanics related to ACL injury. Women were not more likely than men to demonstrate greater INI EA, suggesting that quantification of sagittal-plane INI EA alone is not sufficient to infer ACL injury-risk potential.
下肢的离心肌肉动作在着陆时吸收动能。在着陆的初始冲击阶段(INI)期间,更大的总矢状面能量吸收(EA)与被认为具有前交叉韧带(ACL)损伤高风险的着陆生物力学有关。我们不知道具有不同 INI EA 幅度的组在 ACL 相关的着陆生物力学方面是否表现出有意义的差异,以及 INI EA 是否可用于识别 ACL 损伤风险潜力。
比较矢状面 INI EA 组之间与非接触性 ACL 损伤相关的生物力学因素,并确定性别与矢状面 INI EA 组分配之间是否存在关联,以评估使用矢状面 INI EA 识别 ACL 损伤风险的表面有效性。
描述性实验室研究。
研究实验室。
共有 82 名(41 名男性,41 名女性;年龄=21.0±2.4 岁,身高=1.74±0.10 m,体重=70.3±16.1 kg)健康、活跃的个体自愿参加。
我们使用电磁运动捕捉系统和测力板在双腿跳跃着陆任务期间评估着陆生物力学。
总 INI EA 用于将参与者分为高、中、低三分位组。比较各组之间的矢状面和额状面膝关节运动学;峰值垂直和后向地面反作用力(GRF);胫骨前剪切力;以及内部髋关节伸展、膝关节伸展和膝关节内翻力矩。我们使用单因素方差分析比较组间差异。我们使用 χ(2)分析比较高组和低组中男性和女性的代表性。
高组的膝关节伸展力矩和后向 GRF 大于中组(P<.05)和低组(P<.05),胫骨前剪切力大于低组(P<.05)。没有其他组间差异。高组中女性的代表性并不多于男性(χ(2)=1.20,P=0.27)。
更大的矢状面 INI EA 可能表明 ACL 受力更大,但似乎不会影响与 ACL 损伤相关的额状面生物力学。女性表现出更大的 INI EA 的可能性并不大于男性,这表明单独量化矢状面 INI EA 不足以推断 ACL 损伤风险潜力。
