对11只犬脊柱稳定术中定制3D打印钻孔导向器和钛板使用情况的回顾性分析。

Retrospective analysis of custom 3D-printed drill guides and titanium plate use in spinal stabilization of eleven dogs.

作者信息

Guirguis Phillip, Asanovic Ilja, Beggs David S, Long Sam N

机构信息

Melbourne Veterinary School, Werribee, VIC, Australia.

Centre of Advanced Batch Manufacture, Swansea, United Kingdom.

出版信息

Front Vet Sci. 2024 Dec 20;11:1491620. doi: 10.3389/fvets.2024.1491620. eCollection 2024.

DOI:10.3389/fvets.2024.1491620

PMID:39758607

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11695407/

Abstract

INTRODUCTION

Congenital vertebral malformations are common developmental abnormalities in screw-tailed brachycephalic dog breeds. Subsequent vertebral instability and/or vertebral canal stenosis caused by these malformations can lead to spinal cord compression manifesting in pain, paraparesis, ataxia and/or paralysis. Various methods for spinal stabilization are in common use. However, these are without significant risk due to narrow margins of surgical error and variable vertebral anatomy. We evaluate a novel method for spinal stabilization where a custom 3D-printed plate is created and surgically fitted to the patient's spine using custom 3D-printed drill guides.

OBJECTIVE

To describe the surgical technique and short-term outcomes in patients treated with custom 3D-printed plates and drill guides.

METHOD

A retrospective analysis of 11 dogs from two referral hospitals which underwent this procedure was undertaken. Post-operative CT scans were assessed for spinal canal screw perforation using the modified Zdichavsky classification. Pre-operative and post-operative neurological status were assessed using the Modified Frankel Scale and the surgical technique including post-operative imaging and recovery findings were described.

RESULTS

Optimal screw placement (grade I) was achieved in 63% of placed screws across the eleven dogs. Partial penetration of the medial wall (grade IIa) was observed in 3% of screws and partial penetration of the lateral wall (grade IIIa) was observed in 29% of screws. Full penetration of the lateral pedicle wall (grade IIIb) was observed in 5% of screws and no screws fully penetrated the medial vertebral wall (grade IIb).

DISCUSSION

We demonstrated that custom 3D-printed drill guides and titanium plates can provide a safe peri-operative alternative for surgical spinal stabilization of dogs with vertebral column instability due to congenital vertebral malformations. Further research is needed to describe long-term outcomes of this surgical technique on patient health.

摘要

引言

先天性椎体畸形是卷尾短头犬种常见的发育异常。这些畸形导致的后续椎体不稳定和/或椎管狭窄可导致脊髓受压，表现为疼痛、轻瘫、共济失调和/或瘫痪。目前常用各种脊柱稳定方法。然而，由于手术误差范围窄和椎体解剖结构多变，这些方法存在显著风险。我们评估了一种新型脊柱稳定方法，即制作定制的3D打印钢板，并使用定制的3D打印钻孔导向器将其手术安装到患者脊柱上。

目的

描述使用定制3D打印钢板和钻孔导向器治疗的患者的手术技术和短期结果。

方法

对来自两家转诊医院接受该手术的11只犬进行回顾性分析。使用改良的兹迪哈夫斯基分类法对术后CT扫描评估椎管螺钉穿孔情况。使用改良的弗兰克尔量表评估术前和术后神经状态，并描述手术技术，包括术后影像学和恢复情况。

结果

在11只犬的所有置入螺钉中，63%实现了最佳螺钉置入（I级）。3%的螺钉观察到内侧壁部分穿透（IIa级），29%的螺钉观察到外侧壁部分穿透（IIIa级）。5%的螺钉观察到外侧椎弓根壁完全穿透（IIIb级），没有螺钉完全穿透内侧椎体壁（IIb级）。

讨论

我们证明，定制的3D打印钻孔导向器和钛板可为因先天性椎体畸形导致脊柱不稳定的犬提供一种安全的手术脊柱稳定围手术期替代方案。需要进一步研究来描述这种手术技术对患者健康的长期结果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f96c/11695407/80873e348b9a/fvets-11-1491620-g001.jpg

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对11只犬脊柱稳定术中定制3D打印钻孔导向器和钛板使用情况的回顾性分析。

Retrospective analysis of custom 3D-printed drill guides and titanium plate use in spinal stabilization of eleven dogs.

作者信息

机构信息

出版信息

INTRODUCTION

OBJECTIVE

METHOD

RESULTS

DISCUSSION

引言

目的

方法

结果

讨论

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