Dept of Human Services, University of Virginia, Charlottesville, VA, USA.
J Sport Rehabil. 2013 Feb;22(1):33-40. doi: 10.1123/jsr.22.1.33. Epub 2012 Jul 4.
Persistent quadriceps weakness due to arthrogenic muscle inhibition (AMI) has been reported after anterior cruciate ligament (ACL) reconstruction. Fatiguing exercise has been shown to alter lower extremity muscle function and gait mechanics, which may be related to injury risk. The effects of exercise on lower extremity function in the presence of AMI are not currently understood. The purpose of this study was to compare the effect of 30 min of exercise on quadriceps muscle function and soleus motoneuron-pool excitability in ACL-reconstructed participants and healthy controls.
Twenty-six (13 women, 13 men) healthy and 26 (13 women, 13 men) ACL-reconstructed recreationally active volunteers were recruited for a case-control laboratory study. All participants completed 30 min of continuous exercise including alternating cycles of inclined-treadmill walking and bouts of squats and step-ups. Knee-extension torque, quadriceps central activation ratio (CAR), soleus H:M ratio, and soleus V:M ratio were measured before and after 30 min of exercise.
There was a significant group × time interaction for knee-extension torque (P = .002), quadriceps CAR (P = .03), and soleus V:M ratio (P = .03). The effect of exercise was smaller for the ACL-R group than for matched controls for knee-extension torque (ACL-R: %Δ = -4.2 [-8.7, 0.3]; healthy: %Δ = -14.2 [-18.2, -10.2]), quadriceps CAR (ACL-R: %Δ = -5.1 [-8.0, -2.1]; healthy: %Δ = -10.0 [-13.3, -6.7]), and soleus V:M ratio (ACL-R: %Δ = 37.6 [2.1, 73.0]; healthy: %Δ = -24.9 [-38.6, -11.3]).
Declines in quadriceps and soleus volitional muscle function were of lower magnitude in ACL-R subjects than in healthy matched controls. This response suggests an adaptation experienced by patients with quadriceps AMI that may act to maintain lower extremity function during prolonged exercise.
前交叉韧带(ACL)重建后,已报道存在因关节源性肌肉抑制(AMI)导致的持续性股四头肌无力。疲劳运动已被证明会改变下肢肌肉功能和步态力学,这可能与受伤风险有关。目前尚不清楚运动对存在 AMI 的下肢功能的影响。本研究的目的是比较 30 分钟运动对 ACL 重建参与者和健康对照组的股四头肌功能和比目鱼肌运动神经元池兴奋性的影响。
招募了 26 名(13 名女性,13 名男性)健康和 26 名(13 名女性,13 名男性)ACL 重建的有运动习惯的志愿者进行病例对照实验室研究。所有参与者都完成了 30 分钟的连续运动,包括倾斜跑步机行走的交替循环和深蹲和台阶上升的回合。在 30 分钟运动前后测量膝关节伸展扭矩、股四头肌中央激活比(CAR)、比目鱼肌 H:M 比和比目鱼肌 V:M 比。
膝关节伸展扭矩(P =.002)、股四头肌 CAR(P =.03)和比目鱼肌 V:M 比(P =.03)存在显著的组×时间交互作用。与匹配的对照组相比,ACL-R 组的运动效果较小,膝关节伸展扭矩(ACL-R:%Δ = -4.2 [-8.7, 0.3];健康:%Δ = -14.2 [-18.2, -10.2])、股四头肌 CAR(ACL-R:%Δ = -5.1 [-8.0, -2.1];健康:%Δ = -10.0 [-13.3, -6.7])和比目鱼肌 V:M 比(ACL-R:%Δ = 37.6 [2.1, 73.0];健康:%Δ = -24.9 [-38.6, -11.3])。
与健康匹配的对照组相比,ACL-R 受试者的股四头肌和比目鱼肌自主肌肉功能下降幅度较小。这种反应表明,患有 AMI 的患者可能会经历一种适应,以在长时间运动中维持下肢功能。
