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年龄影响前交叉韧带损伤预防计划参与后的生物力学变化。

Age Influences Biomechanical Changes After Participation in an Anterior Cruciate Ligament Injury Prevention Program.

机构信息

Department of Bioengineering, Stanford University, Stanford, California, USA.

Department of Orthopaedic Surgery, Stanford University, Stanford, California, USA.

出版信息

Am J Sports Med. 2018 Mar;46(3):598-606. doi: 10.1177/0363546517744313. Epub 2017 Dec 27.

DOI:10.1177/0363546517744313
PMID:29281799
Abstract

BACKGROUND

The prevalence of anterior cruciate ligament (ACL) injuries increases during maturation and peaks during late adolescence. Previous studies suggested an age-related association between participation in injury prevention programs and reduction of ACL injury. However, few studies have investigated differences in biomechanical changes after injury prevention programs between preadolescent and adolescent athletes. Purpose/Hypothesis: The purpose was to investigate the influence of age on the effects of the FIFA Medical and Research Centre (F-MARC) 11+ injury prevention warm-up program on differences in biomechanical risk factors for ACL injury between preadolescent and adolescent female soccer players. It was hypothesized that the ACL injury risk factors of knee valgus angle and moment would be greater at baseline but would improve more after training for preadolescent athletes than adolescent athletes. It was further hypothesized that flexor-extensor muscle co-contraction would increase after training for both preadolescent and adolescent athletes.

STUDY DESIGN

Controlled laboratory study.

METHODS

Institutional Review Board-approved written consent was obtained for 51 preadolescent female athletes aged 10 to 12 years (intervention: n = 28, 11.8 ± 0.8 years; control: n = 23, 11.2 ± 0.6 years) and 43 adolescent female athletes aged 14 to 18 years (intervention: n = 22, 15.9 ± 0.9 years; control: n = 21, 15.7 ± 1.1 years). The intervention groups participated in 15 in-season sessions of the F-MARC 11+ program 2 times per week. Pre- and postseason motion capture data were collected during 4 tasks: preplanned cutting, unanticipated cutting, double-legged jump, and single-legged jump. Lower extremity joint angles and moments were estimated through biomechanical modeling. Knee flexor-extensor muscle co-contraction was estimated from surface electromyography.

RESULTS

At baseline, preadolescent athletes displayed greater initial contact and peak knee valgus angles during all activities when compared with the adolescent athletes, but knee valgus moment was not significantly different between age groups. After intervention training, preadolescent athletes improved and decreased their initial contact knee valgus angle (-1.24° ± 0.36°; P = .036) as well as their peak knee valgus moment (-0.57 ± 0.27 percentage body weight × height; P = .033) during the double-legged jump task, as compared with adolescent athletes in the intervention. Compared with adolescent athletes, preadolescent athletes displayed higher weight acceptance flexor-extensor muscle co-contraction at baseline during all activities ( P < .05). After intervention training, preadolescent athletes displayed an increase in precontact flexor-extensor muscle co-contraction during preplanned cutting as compared with adolescent intervention athletes (0.07 ± 0.02 vs -0.30 ± 0.27, respectively; P = .002).

CONCLUSION

The F-MARC 11+ program may be more effective at improving some risk factors for ACL injury among preadolescent female athletes than adolescent athletes, notably by reducing knee valgus angle and moment during a double-legged jump landing.

CLINICAL RELEVANCE

ACL prevention programs may be more effective if administered early in an athlete's career, as younger athletes may be more likely to adapt new biomechanical movement patterns.

摘要

背景

前交叉韧带(ACL)损伤的患病率在成熟过程中增加,并在青春期后期达到峰值。先前的研究表明,参与损伤预防计划与 ACL 损伤减少之间存在与年龄相关的关联。然而,很少有研究调查过预防损伤计划后青少年和青少年运动员之间 ACL 损伤生物力学变化的差异。目的/假设:目的是调查年龄对 FIFA 医疗和研究中心(F-MARC)11+损伤预防热身计划对女青少年足球运动员 ACL 损伤生物力学危险因素差异的影响。假设青少年运动员的膝外翻角度和力矩的 ACL 损伤危险因素在基线时会更大,但青少年运动员的训练后会有更大的改善。进一步假设,青少年运动员的伸肌-屈肌协同收缩在训练后会增加。

研究设计

对照实验室研究。

方法

为 51 名 10 至 12 岁的青少年女运动员(干预组:n=28,11.8±0.8 岁;对照组:n=23,11.2±0.6 岁)和 43 名 14 至 18 岁的青少年女运动员(干预组:n=22,15.9±0.9 岁;对照组:n=21,15.7±1.1 岁)获得机构审查委员会批准的书面同意。干预组每周进行 2 次 15 次赛季的 F-MARC 11+计划。在 4 项任务中收集运动捕捉数据:预先计划的切割、意外切割、双腿跳跃和单腿跳跃。通过生物力学建模估计下肢关节角度和力矩。从表面肌电图估计膝关节屈伸肌协同收缩。

结果

在基线时,与青少年运动员相比,青少年运动员在所有活动中的初始接触和峰值膝外翻角度都更大,但膝外翻力矩在年龄组之间没有显著差异。在干预训练后,与青少年运动员相比,青少年运动员在双腿跳跃任务中的初始接触膝外翻角度(-1.24°±0.36°;P=0.036)和峰值膝外翻力矩(-0.57±0.27 体重×身高的百分比;P=0.033)都有改善。与青少年运动员相比,青少年运动员在所有活动中的初始接触期膝关节屈伸肌协同收缩更高(P<0.05)。与青少年运动员相比,在干预训练后,青少年运动员在计划切割前的预接触期膝关节屈伸肌协同收缩增加(0.07±0.02 与-0.30±0.27,分别;P=0.002)。

结论

与青少年运动员相比,F-MARC 11+计划可能更有效地改善女青少年运动员的一些 ACL 损伤危险因素,特别是通过降低双腿跳跃着陆时的膝外翻角度和力矩。

临床相关性

如果在运动员职业生涯早期实施 ACL 预防计划,可能会更有效,因为年轻运动员更有可能适应新的生物力学运动模式。

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