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本文引用的文献

1
In-vivo patellar tendon kinematics during weight-bearing deep knee flexion.在负重状态下膝关节深度弯曲时髌腱的运动学。
J Orthop Res. 2012 Oct;30(10):1596-603. doi: 10.1002/jor.22126. Epub 2012 Apr 10.
2
Do high flexion posterior stabilised total knee arthroplasty designs increase knee flexion? A meta analysis.高屈膝后稳定型全膝关节置换设计是否能增加膝关节屈曲度?一项荟萃分析。
Int Orthop. 2011 Sep;35(9):1309-19. doi: 10.1007/s00264-011-1228-4. Epub 2011 Mar 16.
3
Measuring patellofemoral forces and pressures in a simulated operating room environment.在模拟手术室环境中测量髌股关节力和压力。
J Arthroplasty. 2011 Jan;26(1):137-43, 143.e1. doi: 10.1016/j.arth.2009.09.004. Epub 2009 Nov 6.
4
Thigh-calf contact: does it affect the loading of the knee in the high-flexion range?大腿与小腿的接触:它会影响膝关节在高屈曲范围内的负荷吗?
J Biomech. 2009 Mar 26;42(5):587-93. doi: 10.1016/j.jbiomech.2008.12.015. Epub 2009 Feb 6.
5
In vivo cartilage contact deformation in the healthy human tibiofemoral joint.健康人体胫股关节的体内软骨接触变形
Rheumatology (Oxford). 2008 Nov;47(11):1622-7. doi: 10.1093/rheumatology/ken345. Epub 2008 Sep 5.
6
The effect of anterior cruciate ligament deficiency and reconstruction on the patellofemoral joint.前交叉韧带损伤及重建对髌股关节的影响。
Am J Sports Med. 2008 Jun;36(6):1150-9. doi: 10.1177/0363546508314404. Epub 2008 Apr 9.
7
In vivo patellar tracking: clinical motions and patellofemoral indices.体内髌股关节轨迹:临床运动及髌股指数
J Orthop Res. 2008 Aug;26(8):1067-74. doi: 10.1002/jor.20554.
8
The contact locations in the knee during high flexion.膝关节高度屈曲时的接触部位。
Knee. 2007 Oct;14(5):379-84. doi: 10.1016/j.knee.2007.06.007. Epub 2007 Aug 1.
9
Effects of patellar resurfacing on contact area and contact stress in total knee arthroplasty.髌股关节表面置换对全膝关节置换中接触面积和接触应力的影响。
Knee. 2007 Jun;14(3):183-7. doi: 10.1016/j.knee.2007.01.005. Epub 2007 Mar 6.
10
The biomechanical function of the patellar tendon during in-vivo weight-bearing flexion.髌腱在体内负重屈膝过程中的生物力学功能。
J Biomech. 2007;40(8):1716-22. doi: 10.1016/j.jbiomech.2006.08.009. Epub 2006 Oct 27.

膝关节深度屈曲时伸肌机制的体内运动学

In vivo kinematics of the extensor mechanism of the knee during deep flexion.

作者信息

Kobayashi Koichi, Hosseini Ali, Sakamoto Makoto, Qi Wei, Rubash Harry E, Li Guoan

机构信息

Bioengineering Lab, Department of Orthopedic Surgery, Harvard Medical School/Massachusetts General Hospital, Boston, MA 02114, USA.

出版信息

J Biomech Eng. 2013 Aug;135(8):81002. doi: 10.1115/1.4024284.

DOI:10.1115/1.4024284
PMID:23719832
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3705965/
Abstract

While various factors have been assumed to affect knee joint biomechanics, few data have been reported on the function of the extensor mechanism in deep flexion of the knee. This study analyzed the patellofemoral joint contact kinematics and the ratio of the quadriceps and patellar tendon forces in living subjects when they performed a single leg lunge up to 150 deg of flexion. The data revealed that in the proximal-distal direction, the patellofemoral articular contact points were in the central one-third of the patellar cartilage. Beyond 90 deg of flexion, the contact points moved towards the medial-lateral edges of the patellar surface. At low flexion angles, the patellar tendon and quadriceps force ratio was approximately 1.0 but reduced to about 0.7 after 60 deg of knee flexion, implying that the patella tendon carries lower loads than the quadriceps. These data may be valuable for improvement of contemporary surgical treatments of diseased knees that are aimed to achieve deep knee flexion.

摘要

虽然已假定多种因素会影响膝关节生物力学,但关于膝关节深度屈曲时伸肌机制功能的报道却很少。本研究分析了活体受试者在进行单腿弓步蹲至150°屈曲时的髌股关节接触运动学以及股四头肌与髌腱力的比值。数据显示,在近端-远端方向上,髌股关节的接触点位于髌软骨的中央三分之一处。超过90°屈曲时,接触点向髌骨表面的内侧-外侧边缘移动。在低屈曲角度时,髌腱与股四头肌的力比值约为1.0,但在膝关节屈曲60°后降至约0.7,这意味着髌腱承受的负荷低于股四头肌。这些数据对于改进旨在实现膝关节深度屈曲的当代患病膝关节手术治疗可能具有重要价值。