前交叉韧带重建后 2 至 11 年下肢代偿性神经肌肉和生物力学适应性改变
Lower extremity compensatory neuromuscular and biomechanical adaptations 2 to 11 years after anterior cruciate ligament reconstruction.
机构信息
Department of Orthopaedic Surgery, University of Louisville, Kentucky 40202, USA.
出版信息
Arthroscopy. 2010 Sep;26(9):1212-25. doi: 10.1016/j.arthro.2010.01.003. Epub 2010 Jun 16.
PURPOSE
To determine whether compensatory neuromuscular and biomechanical adaptations exist after successful anterior cruciate ligament reconstruction and rehabilitation.
METHODS
Seventy subjects, 5.3 +/- 3 years after surgery, participated in this study. Sagittal-plane lower extremity kinematic, gluteus maximus, vastus medialis, medial hamstring, and gastrocnemius electromyography (EMG) and vertical ground reaction force data were collected during single-leg countermovement jump (CMJ) performance.
RESULTS
Women had lower propulsive and landing forces, lower CMJ heights, less hip and knee flexion, and greater angular hip, knee, and ankle velocities than men (P < or = .014). The involved lower extremity of men and women had decreased landing forces (P = .008). During propulsion, men and women had increased involved-lower extremity gluteus maximus (P < .0001) and decreased vastus medialis (P = .013) EMG amplitudes, whereas women had bilaterally increased gastrocnemius EMG amplitudes compared with men (P = .003). During propulsion, men had longer gluteus maximus and vastus medialis EMG durations than women (P < .0001). During landing, both men and women had increased gluteus maximus EMG amplitudes at the involved lower extremity (P < .0001). Women had increased vastus medialis (P = .01) and gastrocnemius (P < .0001) EMG amplitudes compared with men. During landing, men had longer gluteus maximus (P = .004), vastus medialis (P = .012), and gastrocnemius (P = .007) EMG durations than women and the involved-lower extremity vastus medialis EMG durations of both men and women were shorter than at the noninvolved lower extremity (P = .011).
CONCLUSIONS
Decreased involved-lower extremity landing forces, decreased vastus medialis activation, and increased gluteus maximus and gastrocnemius activation suggest a protective mechanism to minimize knee loads that increase anterior translatory knee forces during single-leg jumping. Women showed more balanced gluteus maximus, vastus medialis, and gastrocnemius contributions to dynamic knee stability than men during CMJ landings but used shorter activation durations.
LEVEL OF EVIDENCE
Level IV, therapeutic case series.
目的
确定前交叉韧带重建和康复后是否存在代偿性神经肌肉和生物力学适应。
方法
70 名受试者在手术后 5.3±3 年后参与了这项研究。在单腿反跳(CMJ)性能期间,收集了矢状面下肢运动学、臀大肌、股直肌、内侧腘绳肌和腓肠肌肌电图(EMG)和垂直地面反作用力数据。
结果
女性的推进力和着地力较低,CMJ 高度较低,髋关节和膝关节屈曲度较小,髋关节、膝关节和踝关节角度速度较大(P≤.014)。男性和女性的患侧下肢着地力降低(P=.008)。在推进过程中,男性和女性患侧下肢的臀大肌(P<.0001)和股直肌(P=.013)EMG 幅度增加,而女性双侧腓肠肌 EMG 幅度均高于男性(P=.003)。在推进过程中,男性的臀大肌和股直肌 EMG 持续时间比女性长(P<.0001)。在着陆过程中,男性和女性患侧下肢的臀大肌 EMG 幅度均增加(P<.0001)。女性的股直肌(P=0.01)和腓肠肌(P<.0001)EMG 幅度高于男性。在着陆过程中,男性的臀大肌(P=0.004)、股直肌(P=0.012)和腓肠肌(P=0.007)EMG 持续时间均长于女性,且男性和女性患侧下肢股直肌 EMG 持续时间短于非患侧下肢(P=0.011)。
结论
患侧下肢着地力降低、股直肌激活减少以及臀大肌和腓肠肌激活增加表明,在单腿跳跃过程中,存在一种保护机制以最小化增加前向平移膝关节力的膝关节负荷。女性在 CMJ 着陆时比男性更平衡地发挥臀大肌、股直肌和腓肠肌对动态膝关节稳定性的作用,但使用的激活持续时间更短。
证据水平
IV 级,治疗性病例系列。
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