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使用3D打印模型研究发育性颅颈交界区异常中的椎动脉解剖结构和变异,并作为术前工具——一项机构经验

Use of 3D printer model to study vertebral artery anatomy and variations in developmental craniovertebral junction anomalies and as a preoperative tool-an institutional experience.

作者信息

Chhabra Sachin, Chopra Sanjeev, Kataria Rashim, Sinha Virendra Deo

机构信息

Department of Neurosurgery, SMS Medical College, Jaipur, India.

出版信息

J Spine Surg. 2017 Dec;3(4):572-579. doi: 10.21037/jss.2017.10.07.

DOI:10.21037/jss.2017.10.07
PMID:29354734
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5760406/
Abstract

BACKGROUND

Spinal instrumentation using rods and screws have become procedure of choice for posterior fixation. Vertebral artery anatomy is highly variable in this region posing challenges during surgery. Our study used 3D printer model to understand the anatomy and variations in vertebral artery in live patients thereby providing an accurate idea about vertebral artery injury risk in these patients preoperatively and to rehearse the whole procedure.

METHODS

Ten patients of developmental craniovertebral junction (CVJ) anomalies who were planned for operative intervention in the Department of Neurosurgery at SMS Hospital from February 2016 to December 2016 were analysed using a 3D printer model.

RESULTS

Out of twenty vertebral arteries studied in ten patients, two were hypoplastic and out of these one could not be appreciated on 3D printer model. Out of remaining nineteen, thirteen arteries were found to lie outside the joint, three were in lateral third, one traversed the middle third of joint and one lied in medial third. In one patient, the vertebral artery was stretched and it traversed horizontally over the joint. Out of ten patients studied, nine were having occipitalised atlas and so entry of these vertebral arteries into cranium were classified as given by Wang et al. into four types.

CONCLUSIONS

By our study, 3D printer model was extremely helpful in analyzing joints and vertebral artery preoperatively and making the surgeon acquainted about the placement and trajectory of the screws accordingly. In our opinion, these models should be included as a basic investigation tool in these patients.

摘要

背景

使用棒和螺钉的脊柱内固定已成为后路固定的首选方法。该区域的椎动脉解剖结构高度可变,给手术带来挑战。我们的研究使用3D打印模型来了解活体患者椎动脉的解剖结构和变异,从而在术前为这些患者提供关于椎动脉损伤风险的准确概念,并演练整个手术过程。

方法

对2016年2月至2016年12月在SMS医院神经外科计划进行手术干预的10例发育性颅颈交界区(CVJ)异常患者使用3D打印模型进行分析。

结果

在10例患者研究的20条椎动脉中,2条发育不全,其中1条在3D打印模型上未被发现。在其余19条中,13条动脉位于关节外侧,3条在外侧三分之一处,1条穿过关节中间三分之一,1条位于内侧三分之一处。在1例患者中,椎动脉被拉伸并水平穿过关节。在研究的10例患者中,9例有枕化寰椎,因此这些椎动脉进入颅骨的情况按照Wang等人的分类分为四种类型。

结论

通过我们的研究,3D打印模型在术前分析关节和椎动脉以及使外科医生了解螺钉的放置和轨迹方面非常有帮助。我们认为,这些模型应作为这些患者的基本检查工具。

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Risk stratification of vertebral artery vulnerability during surgery for congenital atlanto-axial dislocation with or without an occipitalized atlas.先天性寰枢椎脱位伴或不伴枕骨化寰椎手术中椎动脉易损性的风险分层
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Spine (Phila Pa 1976). 2009 Dec 15;34(26):2838-42. doi: 10.1097/BRS.0b013e3181b4fb8b.
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Vertebral artery in relationship to C1-C2 vertebrae: an anatomical study.椎动脉与C1-C2椎体的关系:一项解剖学研究。
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