撞击力对全髋关节置换术中锥形柄稳定性的影响。

Impaction Force Influences Taper-Trunnion Stability in Total Hip Arthroplasty.

作者信息

Danoff Jonathan R, Longaray Jason, Rajaravivarma Raga, Gopalakrishnan Ananthkrishnan, Chen Antonia F, Hozack William J

机构信息

Rothman Institute, Thomas Jefferson University, Philadelphia, PA.

Stryker Orthopaedics, Mahwah, NJ.

出版信息

J Arthroplasty. 2018 Jul;33(7S):S270-S274. doi: 10.1016/j.arth.2018.01.020. Epub 2018 Jan 31.

DOI:10.1016/j.arth.2018.01.020

PMID:29428467

Abstract

BACKGROUND

This study investigated the influence of femoral head impaction force, number of head strikes, the energy sequence of head strikes, and head offset on the strength of the taper-trunnion junction.

METHODS

Thirty titanium-alloy trunnions were mated with 36-mm zero-offset cobalt-chromium femoral heads of corresponding taper angle. A drop tower impacted the head with 2.5J or 8.25J, resulting in 6 kN or 14 kN impaction force, respectively, in a single strike or combinations of 6 kN + 14 kN or 14 kN + 14 kN. In addition, ten 36-mm heads with -5 and +5 offset were impacted with sequential 14 kN + 14 kN strikes. Heads were subsequently disassembled using a screw-driven mechanical testing frame, and peak distraction force was recorded.

RESULTS

Femoral head pull-off force was 45% the strike force, and heads struck with a single 14 kN impact showed a pull-off force twice that of the 6 kN group. Two head strikes with the same force did not improve pull-off force for either 6 kN (P = .90) or 14 kN (P = .90). If the forces of the 2 impactions varied, but either impact measured 14 kN, a 51% higher pull-off force was found compared to impactions of either 6 kN or 6 kN + 6 kN. Femoral head offset did not significantly change the pull-off force among -5, 0, and +5 heads (P = .37).

CONCLUSION

Femoral head impaction force influenced femoral head trunnion-taper stability, whereas offset did not affect pull-off force. Multiple head strikes did not add additional stability, as long as a single strike achieved 14 kN force at the mallet-head impactor interface. Insufficient impaction force may lead to inadequate engagement of the trunnion-taper junction.

摘要

背景

本研究调查了股骨头撞击力、撞击次数、撞击能量顺序以及股骨头偏移量对锥度 - 耳轴连接强度的影响。

方法

将30个钛合金耳轴与相应锥角的36毫米零偏移钴铬合金股骨头配对。落锤以2.5J或8.25J的能量撞击股骨头，单次撞击分别产生6kN或14kN的撞击力，或6kN + 14kN或14kN + 14kN的组合撞击力。此外，对10个偏移量为 -5和 +5的36毫米股骨头进行14kN + 14kN的连续撞击。随后使用螺旋驱动的机械测试框架拆卸股骨头，并记录峰值分离力。

结果

股骨头拔出力为撞击力的45%，单次14kN撞击的股骨头拔出力是6kN组的两倍。相同力的两次股骨头撞击，对于6kN（P = 0.90）或14kN（P = 0.90）组，拔出力均未提高。如果两次撞击的力不同，但其中一次撞击测量为14kN，则与6kN或6kN + 6kN的撞击相比，拔出力高出51%。股骨头偏移量在 -5、0和 +5的股骨头之间未显著改变拔出力（P = 0.37）。

结论

股骨头撞击力影响股骨头耳轴 - 锥度稳定性，而偏移量不影响拔出力。只要在锤头撞击器界面单次撞击达到14kN的力，多次股骨头撞击不会增加额外的稳定性。撞击力不足可能导致耳轴 - 锥度连接的啮合不充分。

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撞击力对全髋关节置换术中锥形柄稳定性的影响。

Impaction Force Influences Taper-Trunnion Stability in Total Hip Arthroplasty.

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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