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颈椎椎弓根螺钉导向器,一种创新解决方案。

Cervical pedicle screw guiding jig, an innovative solution.

作者信息

Kashyap Abhishek, Kadur Shreesh, Mishra Abhishek, Agarwal Gaurang, Meena Abhay, Maini Lalit

机构信息

Department of Orthopaedics, Maulana Azad Medical College and Lok Nayak Hospital, New Delhi, India.

Maulana Azad Medical College and Lok Nayak Hospital, New Delhi, India.

出版信息

J Clin Orthop Trauma. 2018 Jul-Sep;9(3):226-229. doi: 10.1016/j.jcot.2018.07.010. Epub 2018 Jul 17.

DOI:10.1016/j.jcot.2018.07.010
PMID:30202153
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6128793/
Abstract

Pedicle screws are one the commonest used modality in spinal instrumentation. However, the method of pedicle screw fixation in cervical spine as compared to thoracic and lumbar spine is still technically demanding because it carries the risk of catastrophic damage to the surrounding neurovascular structures We have utilized virtual planning and 3D (3-dimension) printing to develop a patient specific jig to guide the accurate placement of pedicle screws. A patient with bifacetal dislocation C7 over D1 classified as flexion-distraction injury type 3 who was planned for decompression and fusion by posterior instrumentation at C6, C7, D1 and D2 was selected. A CT scan with 1 mm cuts was used to produce DICOM images of the same. Using these DICOM images virtual planning was done on MIMICS and 3 MATICS software to create patient specific jigs. These jigs were then 3D printed using a 3D printer and used for accurate placement of pedicle screws intra-operatively after adequate sterilization. Our procedure is low cost but high technology based. It is simple, accurate, and very cost effective. The technology transfer is very easy and can be adopted easily.

摘要

椎弓根螺钉是脊柱内固定中最常用的方式之一。然而,与胸椎和腰椎相比,颈椎椎弓根螺钉固定技术要求更高,因为它有对周围神经血管结构造成灾难性损伤的风险。我们利用虚拟规划和三维(3D)打印技术开发了一种针对患者的导向器,以指导椎弓根螺钉的精确置入。选择了一名C7椎体在D1椎体上双侧关节突脱位、分类为3型屈曲-牵张损伤的患者,计划通过C6、C7、D1和D2节段的后路内固定进行减压和融合。使用层厚1毫米的CT扫描生成相应的DICOM图像。利用这些DICOM图像在MIMICS和3 MATICS软件上进行虚拟规划,以创建针对患者的导向器。然后使用3D打印机对这些导向器进行3D打印,并在充分灭菌后用于术中椎弓根螺钉的精确置入。我们的方法成本低但基于高科技。它简单、准确且非常经济有效。技术转移非常容易,并且可以很容易地被采用。

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Construction and accuracy assessment of patient-specific biocompatible drill template for cervical anterior transpedicular screw (ATPS) insertion: an in vitro study.用于颈椎经皮椎弓根螺钉(ATPS)置入的个体化生物相容性钻模板的构建和精度评估:一项体外研究。
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