Pollard Christine D, Stearns Kristen M, Hayes Andy T, Heiderscheit Bryan C
Program in Exercise and Sport Science, Oregon State University-Cascades, Bend, Oregon, USA
Department of Physical Medicine and Rehabilitation, University of Pittsburgh, Pittsburgh, Pennsylvania, USA.
Am J Sports Med. 2015 Feb;43(2):460-5. doi: 10.1177/0363546514560153. Epub 2014 Dec 15.
Anterior cruciate ligament (ACL) reconstruction (ACLR) is common after an ACL tear and is thought to restore functional stability to the knee. A recent investigation demonstrated that individuals who have undergone ACLR exhibited increased lower extremity coupling variability during gait, suggestive of altered dynamic stability. However, little is known about whether they exhibit alterations in lower extremity variability during dynamic sport-specific tasks.
To determine if female soccer players who have had an ACLR demonstrate differences in lower extremity coupling variability as compared with athletes with no history of knee injury during a side-step cutting maneuver.
Controlled laboratory study.
Ten female soccer players who had undergone ACLR served as the experimental group, and 10 female soccer players with no history of knee ligament injury composed the control group (CON). Three-dimensional kinematics and ground-reaction forces were collected while each participant performed a side-step cutting maneuver. Based on known ACL loading patterns, 7 lower extremity intralimb couplings were created. With use of a vector-coding technique, the coordination variability was calculated for each coupling. Independent t tests were used to determine group differences in variability for each coupling (P ≤ .05).
Individuals who had undergone ACLR exhibited increased lower extremity variability during side-step cutting as compared with control subjects in the following couplings: hip rotation/knee abduction-adduction (27.2° ± 11.5° [ACLR] vs 19.7° ± 6.8° [CON]; P = .04), hip flexion-extension/knee abduction-adduction (26.0° ± 13.3° [ACLR] vs 18.6° ± 5.3° [CON]; P = .05), knee abduction-adduction/knee flexion-extension (13.5° ± 5.7° [ACLR] vs 7.3° ± 2.7° [CON]; P < .01), and knee abduction-adduction/knee rotation (26.4° ± 10.8° [ACLR] vs 19.3° ± 4.5° [CON]; P = .03). In addition, there was a trend toward increased variability in the hip rotation/ankle inversion-eversion coupling (22.9° ± 9.3° [ACLR] vs 18.0° ± 6.7° [CON]; P = .09) and knee abduction-adduction/ankle inversion-eversion coupling (25.9° ± 10.0° [ACLR] vs 20.2° ± 9.7° [CON]; P = .10).
Female soccer players who have undergone ACLR and returned to sports participation exhibit altered lower extremity coupling variability during side-step cutting.
While individuals who have had an ACLR exhibit mechanical knee stability before returning to sports, the observed increased movement variability during side-step cutting is likely reflective of altered neuromuscular control and may contribute to the known increased risk for ACL reinjury and knee osteoarthritis after return to sports participation. Improving the understanding of altered lower extremity coupling variability after ACLR will aid in the development of more effective rehabilitation programs.
前交叉韧带(ACL)重建术(ACLR)在ACL撕裂后很常见,被认为可恢复膝关节的功能稳定性。最近一项调查表明,接受ACLR的个体在步态中表现出下肢耦合变异性增加,提示动态稳定性改变。然而,对于他们在特定运动动态任务中下肢变异性是否存在改变知之甚少。
确定与无膝关节损伤史的运动员相比,接受ACLR的女子足球运动员在侧步切入动作中下肢耦合变异性是否存在差异。
对照实验室研究。
10名接受ACLR的女子足球运动员作为实验组,10名无膝关节韧带损伤史的女子足球运动员组成对照组(CON)。在每位参与者进行侧步切入动作时,收集三维运动学数据和地面反作用力。基于已知的ACL负荷模式,创建了7种下肢体肢内耦合。使用矢量编码技术,计算每个耦合的协调性变异性。采用独立t检验确定每个耦合变异性的组间差异(P≤0.05)。
与对照组相比,接受ACLR的个体在以下耦合的侧步切入过程中表现出下肢变异性增加:髋关节旋转/膝关节内收-外展(27.2°±11.5°[ACLR]对19.7°±6.8°[CON];P = 0.04),髋关节屈伸/膝关节内收-外展(26.0°±13.3°[ACLR]对18.6°±5.3°[CON];P = 0.05),膝关节内收-外展/膝关节屈伸(13.5°±5.7°[ACLR]对7.3°±2.7°[CON];P < 0.01),以及膝关节内收-外展/膝关节旋转(26.4°±10.8°[ACLR]对19.3°±4.5°[CON];P = 0.03)。此外,髋关节旋转/踝关节内翻-外翻耦合(22.9°±9.3°[ACLR]对18.0°±6.7°[CON];P = 0.09)和膝关节内收-外展/踝关节内翻-外翻耦合(25.9°±10.0°[ACLR]对20.2°±9.7°[CON];P = 0.10)有变异性增加的趋势。
接受ACLR并恢复运动参与的女子足球运动员在侧步切入过程中表现出下肢耦合变异性改变。
虽然接受ACLR的个体在恢复运动前表现出膝关节机械稳定性,但在侧步切入过程中观察到的运动变异性增加可能反映了神经肌肉控制改变,并且可能导致恢复运动参与后已知的ACL再损伤和膝关节骨关节炎风险增加。提高对ACLR后下肢耦合变异性改变的理解将有助于制定更有效的康复计划。
