Department of Biomedical Engineering, University of Wisconsin-Madison, Madison, WI, USA.
J Biomech. 2010 Aug 26;43(12):2254-60. doi: 10.1016/j.jbiomech.2010.02.038. Epub 2010 May 15.
Hamstring strain injuries often occur near the proximal musculotendon junction (MTJ) of the biceps femoris. Post-injury remodeling can involve scar tissue formation, which may alter contraction mechanics and influence re-injury risk. The purpose of this study was to assess the affect of prior hamstring strain injury on muscle tissue displacements and strains during active lengthening contractions. Eleven healthy and eight subjects with prior biceps femoris injuries were tested. All previously injured subjects had since returned to sport and exhibited evidence of residual scarring along the proximal aponeurosis. Subjects performed cyclic knee flexion-extension on an MRI-compatible device using elastic and inertial loads, which induced active shortening and lengthening contractions, respectively. CINE phase-contrast imaging was used to measure tissue velocities within the biceps femoris during these tasks. Numerical integration of the velocity information was used to estimate two-dimensional tissue displacement and strain fields during muscle lengthening. The largest tissue motion was observed along the distal MTJ, with the active lengthening muscle exhibiting significantly greater and more homogeneous tissue displacements. First principal strain magnitudes were largest along the proximal MTJ for both loading conditions. The previously injured subjects exhibited less tissue motion and significantly greater strains near the proximal MTJ. We conclude that localized regions of high tissue strains during active lengthening contractions may predispose the proximal biceps femoris to injury. Furthermore, post-injury remodeling may alter the in-series stiffness seen by muscle tissue and contribute to the relatively larger localized tissue strains near the proximal MTJ, as was observed in this study.
腘绳肌拉伤通常发生在股二头肌的近端肌-腱结合部(MTJ)附近。受伤后的重塑可能涉及疤痕组织的形成,这可能改变收缩力学并影响再次受伤的风险。本研究的目的是评估先前的腘绳肌拉伤对主动伸展收缩过程中肌肉组织位移和应变的影响。11 名健康受试者和 8 名有股二头肌损伤史的受试者接受了测试。所有先前受伤的受试者均已重返运动,并在近端肌腱膜上显示出有残留疤痕的证据。受试者在 MRI 兼容设备上进行了周期性的膝关节屈伸运动,使用弹性和惯性负荷分别诱导主动缩短和伸展收缩。电影相位对比成像用于测量这些任务中股二头肌内的组织速度。通过对速度信息进行数值积分,估算了肌肉伸展过程中的二维组织位移和应变场。最大的组织运动发生在远端 MTJ 处,主动伸展肌肉的组织位移明显更大且更均匀。在两种加载条件下,第一主应变的幅度都在近端 MTJ 处最大。先前受伤的受试者在近端 MTJ 附近的组织运动较少,应变明显更大。我们得出结论,主动伸展收缩过程中局部高组织应变的区域可能使近端股二头肌容易受伤。此外,受伤后的重塑可能会改变肌肉组织的串联刚度,并导致在本研究中观察到的近端 MTJ 附近的相对较大的局部组织应变。