Wang Vincent M, Flatow Evan L
Leni & Peter May Dept. of Orthopaedics, Mount Sinai School of Medicine, 5 E. 98th Street, New York, NY 10029, USA.
J Shoulder Elbow Surg. 2005 Jan-Feb;14(1 Suppl S):2S-11S. doi: 10.1016/j.jse.2004.10.002.
Normal asymptomatic glenohumeral motion is dependent on the coordinated function of dynamic and static stabilizers. Data from both selective sectioning studies of the capsuloligamentous components and tensile testing of the inferior glenohumeral ligament have provided important insights into the in situ function of these structures. However, little is known regarding the mechanism of microdamage accumulation in acquired shoulder instability. Recent findings suggest that cyclic subfailure loading of the inferior glenohumeral ligament may induce gradual stretching of the anteroinferior capsule, compromising its capacity to restrain excessive humeral translations. Further studies elucidating the mechanism of load transmission in the capsule during physiologic arm motion, as well as data on the intrinsic healing response of the capsular ligaments, are required to more fully characterize the pathoetiology of acquired shoulder instability.
正常无症状的盂肱关节活动依赖于动态和静态稳定器的协调功能。来自对关节囊韧带成分的选择性切断研究以及对下盂肱韧带的拉伸测试的数据,为这些结构的原位功能提供了重要见解。然而,对于后天性肩关节不稳中微损伤积累的机制知之甚少。最近的研究结果表明,下盂肱韧带的周期性亚失效负荷可能会导致前下关节囊逐渐伸展,从而损害其限制肱骨过度平移的能力。需要进一步研究阐明生理手臂运动期间关节囊中负荷传递的机制,以及关节囊韧带的内在愈合反应数据,以更全面地描述后天性肩关节不稳的病理病因。