改变结果的综合方法 Ⅱ:有针对性的神经肌肉训练技术,以减少已确定的 ACL 损伤风险因素。
An integrated approach to change the outcome part II: targeted neuromuscular training techniques to reduce identified ACL injury risk factors.
机构信息
Human Performance Laboratory, Sports Medicine Biodynamics Center, Cincinnati Children's Hospital Medical Center, Cincinnati, Ohio, USA.
出版信息
J Strength Cond Res. 2012 Aug;26(8):2272-92. doi: 10.1519/JSC.0b013e31825c2c7d.
Abstract
Prior reports indicate that female athletes who demonstrate high knee abduction moments (KAMs) during landing are more responsive to neuromuscular training designed to reduce KAM. Identification of female athletes who demonstrate high KAM, which accurately identifies those at risk for noncontact anterior cruciate ligament (ACL) injury, may be ideal for targeted neuromuscular training. Specific neuromuscular training targeted to the underlying biomechanical components that increase KAM may provide the most efficient and effective training strategy to reduce noncontact ACL injury risk. The purpose of the current commentary is to provide an integrative approach to identify and target mechanistic underpinnings to increased ACL injury in female athletes. Specific neuromuscular training techniques will be presented that address individual algorithm components related to high knee load landing patterns. If these integrated techniques are employed on a widespread basis, prevention strategies for noncontact ACL injury among young female athletes may prove both more effective and efficient.
摘要
先前的报告表明,在着陆时表现出高膝关节外展力矩(KAMs)的女性运动员对旨在降低 KAM 的神经肌肉训练反应更灵敏。识别出表现出高 KAM 的女性运动员,准确识别出那些有发生非接触性前交叉韧带(ACL)损伤风险的运动员,可能是针对神经肌肉训练的理想方法。针对增加 KAM 的潜在生物力学因素进行特定的神经肌肉训练可能提供最有效和最有效的训练策略,以降低非接触性 ACL 损伤的风险。本评论的目的是提供一种综合方法来识别和针对女性运动员 ACL 受伤增加的机制基础。将提出特定的神经肌肉训练技术,以解决与高膝关节负荷着陆模式相关的个体算法成分。如果这些综合技术得到广泛应用,那么针对年轻女性运动员的非接触性 ACL 损伤的预防策略可能会更加有效和高效。
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