用于颅颈交界区不稳的C1-C2关节成形术：人体尸体的初步概念验证

C1-C2 arthroplasty for craniovertebral junction instability: A preliminary proof of concept in human cadavers.

作者信息

Salunke Pravin, Karthigeyan Madhivanan, Kodigudla Manoj Kumar, Kelkar Amey V, Goel Vijay K

机构信息

Department of Neurosurgery, Postgraduate Institute of Medical Education and Research, Chandigarh, India.

Department of Bioengineering, Engineering Center for Orthopaedic Research Excellence, The University of Toledo, Toledo, Ohio, USA.

出版信息

J Craniovertebr Junction Spine. 2022 Apr-Jun;13(2):159-162. doi: 10.4103/jcvjs.jcvjs_33_22. Epub 2022 Jun 13.

DOI:10.4103/jcvjs.jcvjs_33_22

PMID:35837435

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9274670/

Abstract

BACKGROUND

The atlantoaxial complex contributes to significant neck movements, especially the axial rotation. Its instability is currently treated with various C1-C2 fusion techniques. This however, considerably hampers the neck movements and affects the quality of life; a C1-C2 motion preserving arthroplasty could potentially overcome this drawback.

OBJECTIVES

We evaluate the range of motion (ROM) of lateral C1-C2 artificial joints in cadaveric models.

MATERIALS AND METHODS

This is an cadaveric biomechanical study. After C1-C2 arthroplasty through a posterior approach, the C1-C2 ROM was tested in 4 fresh-frozen human cadaveric specimens, before and after destabilization.

RESULTS

The mean axial rotation demonstrated after the placement of C1-C2 joint implants was 15.46 degrees on the right and 16.03 degrees on the left side; the prosthesis provided stability, with 46% of the baseline C1-C2 axial rotation on either side. The ROM achieved in the other axes was less compared with that of intact specimens. To initiate rotation, a higher moment of 1.5 Nm was required in the presence of joint implants compared to 0.5 NM in unimplanted specimens.

CONCLUSIONS

In our preliminary ROM evaluation, the C1-C2 arthroplasty appears to be stable and provides about half of the range of atlantoaxial rotation. It has the potential for joint motion preservation in the treatment of atlantoaxial instability resulting from lateral C1-C2 joint pathologies.

摘要

背景

寰枢复合体对颈部的显著运动有贡献，尤其是轴向旋转。目前其不稳定采用各种C1-C2融合技术进行治疗。然而，这会严重阻碍颈部运动并影响生活质量；C1-C2保留运动的人工关节置换术可能会克服这一缺点。

目的

我们在尸体模型中评估外侧C1-C2人工关节的活动范围（ROM）。

材料与方法

这是一项尸体生物力学研究。通过后路进行C1-C2关节置换术后，在4个新鲜冷冻的人体尸体标本中测试了失稳前后的C1-C2 ROM。

结果

植入C1-C2关节假体后，右侧平均轴向旋转为15.46度，左侧为16.03度；假体提供了稳定性，两侧均保留了基线C1-C2轴向旋转的46%。与完整标本相比，在其他轴向上实现的ROM较小。与未植入假体的标本所需的0.5 Nm相比，植入关节假体时启动旋转需要更高的1.5 Nm力矩。

结论

在我们初步的ROM评估中，C1-C2关节置换术似乎是稳定的，并且提供了大约一半的寰枢旋转范围。它在治疗由外侧C1-C2关节病变引起的寰枢椎不稳定方面具有保留关节运动的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7980/9274670/4da06d173bc0/JCVJS-13-159-g001.jpg

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用于颅颈交界区不稳的C1-C2关节成形术：人体尸体的初步概念验证

C1-C2 arthroplasty for craniovertebral junction instability: A preliminary proof of concept in human cadavers.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

背景

目的

材料与方法

结果

结论

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