冲击载荷作用下运动员下肢动态响应的逆向动力学仿真
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重庆大学2012年中央高校基本科研业务专项经费项目(CQDXWL-2012-101)


Inverse dynamics simulation on lower limb responses of badminton athlete under impact loads
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    摘要:

    目的 分析冲击载荷作用下羽毛球运动员下肢关节肌肉的动态响应变化。方法 基于AnyBody Modeling System软件建立人体肌骨模型,采用实测表面肌电信号进行验证,以运动捕捉系统和测力台测量数据进行模型驱动,对羽毛球右前场蹬跨步上网过程中下肢肌肉肌力、关节力和关节力矩进行逆向动力学仿真与分析。结果 所建人体下肢肌骨模型经肌电信号验证有效。羽毛球蹬跨步上网过程中,髋、踝关节Z方向内力峰值显著高于X和Y方向内力峰值,而膝关节X方向内力峰值显著高于Y和Z方向内力峰值;缓冲期,髋关节X、Y、Z方向依次表现为内收力矩、伸髋力矩和内旋力矩,膝关节X、Y、Z方向依次表现为外展力矩、屈膝力矩、外旋力矩,踝关节X、Y方向依次表现为内翻力矩、跖屈力矩,且髋、膝、踝关节X方向力矩峰值显著高于Y和Z方向;股外侧肌、股二头肌、胫骨前肌、腓肠肌内侧在对抗地面冲击载荷时的肌力发挥较大,股直肌、半膜肌、比目鱼肌发挥的作用相对较小。 结论 建立的下肢肌骨模型可为冲击载荷作用下运动员下肢生物力学特性分析提供技术平台。为避免运动损伤,类似羽毛球前场蹬跨步上网冲击动作中尤其要重视触地瞬间地面反作用力载荷对髋、膝、踝关节前后及内外侧方向生物力学性质的影响,同时在对羽毛球运动员进行专项训练时切勿忽视对股外侧肌、股二头肌、胫骨前肌的专项力量发展。

    Abstract:

    Objective To analyze the badminton athletes’dynamic responses in their lower limbs under impact loads. Methods A human musculoskeletal model was established based on AnyBody Modeling System software and verified by measuring surface electromyography (EMG). The muscle force, joint force, joint torque of lower limbs during right Front-Court Lunge Step in badminton were studied by inverse dynamic simulation and analysis through Vicon motion capture system and force platform. Results The musculoskeletal model was validated to be effective by EMG. During right Front-Court Lunge Step in badminton,the force peak of the hip and ankle joint in Z direction was larger than that in X and Y direction, and the force peak of the knee joint in X direction was larger than that in Y and Z direction. During buffer period, the hip joint in X, Y, Z direction showed adduction, extension and internal rotation torque, respectively, the knee joint in X, Y, Z direction showed abduction, flexion and external rotation torque, respectively, and the ankle joint in X, Y direction showed varus and plantar flexion torque, respectively. The peak torque of the hip, knee and ankle joint in X direction was significantly larger than that in Y and Z direction. Vastus lateralis, biceps femoris, anterior tibial and medial gastrocnemius played a larger role against the ground reaction, while rectus femoris, semitendinosus, soleus played a relatively smaller role against the ground reaction. Conclusions The established musculoskeletal model in the study can provide a technical platform to analyze athletes’biomechanical properties of lower limbs under impact loads. To avoid sport injuries, more attention should be paid to the effect from ground reaction force load at touchdown instant on hip, knee and ankle joints in anteroposterior and mediolateral direction during footwork similar to Front-Court Lunge Step in badminton, and at the same time, the strength training of vastus lateralis, biceps femoris, anterior tibial and medial gastrocnemius of badminton players should not be ignored during specialized training.

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刘述芝,胡志刚,张健.冲击载荷作用下运动员下肢动态响应的逆向动力学仿真[J].医用生物力学,2015,30(1):30-37

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  • 收稿日期:2014-04-17
  • 最后修改日期:2014-07-19
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  • 在线发布日期: 2015-02-12
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