反馈式神经肌肉训练方案改变了额状面运动学。
A feedback inclusive neuromuscular training program alters frontal plane kinematics.
机构信息
Department of Human Movement Sciences, Old Dominion University, Norfolk, Virginia, USA.
出版信息
J Strength Cond Res. 2012 Jun;26(6):1609-19. doi: 10.1519/JSC.0b013e318234ebfb.
Anterior cruciate ligament (ACL) neuromuscular training programs have demonstrated beneficial effects in reducing ACL injuries, yet further evaluation of their effects on biomechanical measures across a sports team season is required to elucidate the specific factors that are modifiable. The purpose of this study was to evaluate the effects of a 10-week off-season neuromuscular training program on lower extremity kinematics. Twelve Division I female soccer players (age: 19.2 ± 0.8 years, height: 1.67 ± 0.1 m, weight: 60.2 ± 6.5 kg) performed unanticipated dynamic trials of a running stop-jump task pretraining and posttraining. Data collection was performed using an 8-camera Vicon system (Los Angeles, CA, USA) and 2 Bertec (Columbus, OH, USA) force plates. The 10-week training program consisted of resistance training 2 times per week and field training, consisting of plyometric, agility, and speed drills, 2 times per week. Repeated measures analyses of variance (ANOVAs) were used to assess the differences between pretraining and posttraining kinetics and kinematics of the hip, knee, and ankle at initial contact (IC), peak knee flexion (PKF), and peak stance. Repeated measures ANOVAs were also used to assess isometric strength differences pretraining and posttraining. The alpha level was set at 0.05 a priori. The training program demonstrated significant increases in left hip extension, left and right hip flexion, and right hip adduction isometric strength. At IC, knee abduction angle moved from an abducted to an adducted position (-1.48 ± 3.65° to 1.46 ± 3.86°, p = 0.007), and hip abduction angle increased (-6.05 ± 4.63° to -10.34 ± 6.83°, p = 0.007). Hip abduction angle at PKF increased (-2.23 ± 3.40° to 6.01 ± 3.82°, p = 0.002). The maximum knee extension moment achieved at peak stance increased from pretraining to posttraining (2.02 ± 0.32 to 2.38 ± 0.75 N·m·kg⁻¹, p = 0.027). The neuromuscular training program demonstrated a potential positive effect in altering mechanics that influence the risk of incurring an ACL injury.
前交叉韧带(ACL)神经肌肉训练计划已证明可降低 ACL 损伤的发生率,但需要进一步评估其对整个运动队赛季的生物力学指标的影响,以阐明可改变的具体因素。本研究的目的是评估为期 10 周的淡季神经肌肉训练计划对下肢运动学的影响。12 名一级女子足球运动员(年龄:19.2 ± 0.8 岁,身高:1.67 ± 0.1 m,体重:60.2 ± 6.5 kg)在训练前和训练后进行了跑步急停跳跃任务的意外动态试验。数据采集使用 8 个摄像机 Vicon 系统(美国洛杉矶)和 2 个 Bertec(美国俄亥俄州哥伦布市)力板进行。为期 10 周的训练计划包括每周 2 次的阻力训练和每周 2 次的包含增强式训练、敏捷性和速度训练的场地训练。使用重复测量方差分析(ANOVA)评估初始接触(IC)、峰值膝关节屈曲(PKF)和峰值站立时的髋关节、膝关节和踝关节的动力学和运动学在训练前和训练后的差异。还使用重复测量 ANOVA 评估等长力量在训练前和训练后的差异。设定 alpha 水平为 0.05 先验。训练计划显示左侧髋关节伸展、左侧和右侧髋关节屈曲以及右侧髋关节内收等长力量显著增加。在 IC 时,膝关节外展角度从外展变为内收(-1.48 ± 3.65°至 1.46 ± 3.86°,p = 0.007),髋关节外展角度增加(-6.05 ± 4.63°至-10.34 ± 6.83°,p = 0.007)。PKF 时髋关节外展角度增加(-2.23 ± 3.40°至 6.01 ± 3.82°,p = 0.002)。峰值站立时最大膝关节伸展力矩从训练前增加到训练后(2.02 ± 0.32 至 2.38 ± 0.75 N·m·kg⁻¹,p = 0.027)。神经肌肉训练计划显示出在改变影响 ACL 损伤风险的力学方面具有潜在的积极影响。
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