Boden Barry P, Breit Ilan, Sheehan Frances T
The Orthopaedic Center, 9711 Medical Center Drive, Suite 201, Rockville, MD 20850, USA.
J Bone Joint Surg Am. 2009 Oct;91(10):2381-9. doi: 10.2106/JBJS.H.01721.
The mechanisms of noncontact anterior cruciate ligament injury remain undefined. The purpose of this study was to identify the tibiofemoral alignment in the lateral compartment of the knee for three variations of a one-limb landing in noncontact sports activities: the safe, provocative, and exaggerated provocative positions. These positions were chosen on the basis of a previous study that measured the average joint angles of the limb at the point of ground contact for athletes who landed without injury (safe) and those who sustained an anterior cruciate ligament injury (provocative). It was hypothesized that, in the provocative positions, altered tibiofemoral alignment predisposes the knee to possible subluxation, potentially leading to an anterior cruciate ligament injury.
Magnetic resonance images were acquired for a single knee in twenty-five noninjured athletes for the three landing positions. The angle between the posterior tibial slope and the femur along with three distances (from the tibiofemoral point of contact to [1] the femoral sulcus point, [2] the posterior tibial point, and [3] the most anterior point of the circular posterior aspect of the condyle) were measured for each acquisition.
The tibial slope relative to the femur was directed significantly more inferior to superior in the provocative and exaggerated positions than in the safe landing position. Similarly, as the limb transitioned from the safe to the provocative positions, the tibiofemoral joint contact point was significantly closer to the femoral sulcus point and to the most anterior point of the circular posterior portion of the lateral femoral condyle.
As the limb moves toward the provocative landing position, the anatomical alignment based on slope and contact characteristics places the knee at possible risk for noncontact anterior cruciate ligament injury. An enhanced understanding of the mechanism of anterior cruciate ligament injury may lead to improved preventative strategies.
非接触性前交叉韧带损伤的机制尚不明确。本研究的目的是确定在非接触性体育活动中,单腿落地的三种变化姿势(安全姿势、激发性姿势和过度激发性姿势)下膝关节外侧间室的胫股对线情况。这些姿势是根据之前一项研究选定的,该研究测量了无损伤落地的运动员(安全姿势)和发生前交叉韧带损伤的运动员(激发性姿势)在地面接触点时肢体的平均关节角度。据推测,在激发性姿势下,胫股对线改变会使膝关节易于发生半脱位,从而可能导致前交叉韧带损伤。
对25名未受伤运动员的单膝进行磁共振成像,获取三种落地姿势的图像。每次采集时测量胫骨后倾角与股骨之间的角度以及三个距离(从胫股接触点到[1]股骨髁间沟点、[2]胫骨后点和[3]外侧髁圆形后部最前点)。
与安全落地姿势相比,激发性姿势和过度激发性姿势下胫骨相对于股骨的倾斜方向明显更由下向上。同样,当肢体从安全姿势转变为激发性姿势时,胫股关节接触点明显更靠近股骨髁间沟点和外侧股骨髁圆形后部的最前点。
随着肢体向激发性落地姿势移动,基于倾斜度和接触特征的解剖学对线使膝关节面临非接触性前交叉韧带损伤的可能风险。对前交叉韧带损伤机制的深入了解可能会带来更好的预防策略。