改变股骨头直径对骨质和假体跳跃角的影响。

Effect of changing femoral head diameter on bony and prosthetic jumping angles.

作者信息

Ohmori Takaaki, Kabata Tamon, Kajino Yoshitomo, Inoue Daisuke, Taga Tadashi, Yamamoto Takashi, Takagi Tomoharu, Yoshitani Junya, Ueno Takuro, Ueoka Ken, Tsuchiya Hiroyuki

机构信息

Department of Orthopedic Surgery, Graduate School of Medical Science, Kanazawa University, Takaramachi 13-1, Kanazawa, Ishikawa, Japan.

出版信息

Eur J Orthop Surg Traumatol. 2019 Apr;29(3):625-632. doi: 10.1007/s00590-018-2325-5. Epub 2018 Oct 30.

DOI:10.1007/s00590-018-2325-5

PMID:30377824

Abstract

BACKGROUND

In THA, using a larger femoral head can increase the oscillation angle and jumping distance. However, there have been no reports which indicate precisely how increasing the jumping distance leads to an increase in the angle from impingement to dislocation (jumping angle). In this study, we clarified the jumping angle of various head diameters and its relationship with pelvic morphology.

METHODS

Using a three-dimensional templating system, virtual THA and ROM simulations were performed in 82 patients. We investigated the distance between bony and prosthetic impingement points and the head centre and calculated the jumping angle for various head diameters. We measured various pelvic shapes and length to clarify the relationship between pelvic morphology and impingement distance.

RESULTS

Jumping angles were 7.7° ± 3.2°, 12.1° ± 1.6°, 15.4° ± 2.5° and 10.0° ± 3.0° with flexion, internal rotation with 90° flexion (IR), extension and external rotation (ER), respectively, when we used a 22-mm head diameter. Bony jumping angle increased about 0.5°, 0.8°, 1.0° and 0.7° per 2-mm increase in head diameter with flexion, IR, extension and ER. On the other hand, prosthetic jumping angle remained almost stable at about 31°. Impingement distance was related to pelvic morphology in all directions. Bony jumping angles differed with ROM; the biggest was seen with extension, followed by IR, ER and flexion. On the other hand, bony jumping angle was less than prosthetic jumping angle in all cases.

CONCLUSION

Bony jumping angles differed with ROM; the biggest was seen with extension, followed by IR, ER and flexion. Prosthetic impingement angles were stable. In addition, the bony jumping angle was less than the prosthetic jumping angle in all cases.

摘要

背景

在全髋关节置换术（THA）中，使用更大的股骨头可增加摆动角度和跳跃距离。然而，尚无报告确切指出跳跃距离的增加如何导致从撞击到脱位的角度（跳跃角度）增加。在本研究中，我们阐明了各种股骨头直径的跳跃角度及其与骨盆形态的关系。

方法

使用三维模板系统，对82例患者进行了虚拟THA和活动范围（ROM）模拟。我们研究了骨与假体撞击点与股骨头中心之间的距离，并计算了各种股骨头直径的跳跃角度。我们测量了各种骨盆形状和长度，以阐明骨盆形态与撞击距离之间的关系。

结果

当使用22毫米股骨头直径时，屈曲、90°屈曲时内旋（IR）、伸展和外旋（ER）的跳跃角度分别为7.7°±3.2°、12.1°±1.6°、15.4°±2.5°和10.0°±3.0°。随着股骨头直径每增加2毫米，屈曲、IR、伸展和ER时的骨跳跃角度分别增加约0.5°、0.8°、1.0°和0.7°。另一方面，假体跳跃角度几乎稳定在约31°。撞击距离在各个方向上均与骨盆形态相关。骨跳跃角度随ROM不同而不同；最大的是伸展时，其次是IR、ER和屈曲。另一方面，在所有情况下骨跳跃角度均小于假体跳跃角度。

结论

骨跳跃角度随ROM不同而不同；最大的是伸展时，其次是IR、ER和屈曲。假体撞击角度稳定。此外，在所有情况下骨跳跃角度均小于假体跳跃角度。

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改变股骨头直径对骨质和假体跳跃角的影响。

Effect of changing femoral head diameter on bony and prosthetic jumping angles.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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