Spinal navigation with AI-driven 3D-reconstruction of fluoroscopy images: an ex-vivo feasibility study.

IF 2.2 3区医学 Q2 ORTHOPEDICS

BMC Musculoskeletal Disorders Pub Date : 2024-11-19 DOI:10.1186/s12891-024-08052-2

Dietmar Luchmann, Sascha Jecklin, Nicola A Cavalcanti, Christoph J Laux, Aidana Massalimova, Hooman Esfandiari, Mazda Farshad, Philipp Fürnstahl

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引用次数: 0

Abstract

Background: With the increasing number of surgeries utilizing spinal instrumentation, three-dimensional surgical navigation aims to improve the accuracy of implant placement. However, its widespread clinical adaption has been hindered by factors such as high radiation exposure and interference with standard surgical workflows.

Methods: X23D is a novel AI-based fluoroscopy reconstruction technique that generates a 3D anatomical model of the spine from only four fluoroscopy images. Based on this technology, we developed a prototype for the surgical navigation of pedicle screws placement of the lumbar spine, visualizing the 3D-reconstructed spine anatomy and the surgical drill position in real-time. An ex-vivo study was conducted to compare the accuracy of the X23D-based navigation approach with fluoroscopy-aided freehand instrumentation. Five board-certified surgeons placed pedicle screws on six human torsi within a realistic surgical environment. Breach rate, site and extent (Gertzbein-Robbins) were evaluated in postoperative CT scans, as well as execution time, radiation dose, and user experience. Specimens, operating side, and surgeon were randomised.

Results: Forty-nine pedicle screws (n = 24 × 23D, n = 25 2D-fluoroscopy) were evaluated, with six breaches occurring in the control group, one of which was considered clinically significant (medial breach grade C). Five breaches with one clinically significant breach were observed in the X23D group. Breach rate, execution time for each lumbar level (X23D 167 s vs. control 156 s), radiation dose (X23D 33.26 mGy vs. control 49.5 mGy), and user experience did not reveal significant differences (p > 0.05) between the groups.

Conclusions: Spinal navigation using the X23D-based approach shows promise and performs well in a realistic surgical ex-vivo setting. With further refinements, its accuracy is expected to match clinical-grade navigation systems while reducing radiation dose.

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利用人工智能驱动的透视图像三维重建进行脊柱导航：一项体外可行性研究。

背景：随着使用脊柱器械进行手术的数量不断增加，三维手术导航旨在提高植入物放置的准确性。然而，高辐射和干扰标准手术流程等因素阻碍了三维手术导航在临床上的广泛应用：X23D是一种新型的基于人工智能的透视重建技术，只需四张透视图像就能生成脊柱的三维解剖模型。基于这项技术，我们开发了腰椎椎弓根螺钉置入手术导航原型，实时显示三维重建的脊柱解剖结构和手术钻孔位置。为了比较基于 X23D 的导航方法与透视辅助徒手器械的准确性，我们进行了一项体外研究。在逼真的手术环境中，五名获得认证的外科医生为六名人体椎弓根植入了椎弓根螺钉。术后 CT 扫描评估了破损率、部位和范围（Gertzbein-Robbins），以及执行时间、辐射剂量和用户体验。标本、手术侧和外科医生都是随机的：共评估了49枚椎弓根螺钉（n = 24 × 23D，n = 25 2D-荧光透视），对照组有6处破损，其中1处被认为有临床意义（内侧破损C级）。X23D 组出现 5 次破损，其中 1 次有临床意义。突破率、每个腰椎水平的执行时间（X23D 167 秒对对照组 156 秒）、辐射剂量（X23D 33.26 mGy 对对照组 49.5 mGy）和用户体验在各组之间没有发现显著差异（P > 0.05）：结论：使用基于 X23D 的方法进行脊柱导航前景广阔，在真实的体外手术环境中表现良好。结论：使用基于 X23D 的方法进行脊柱导航前景广阔，在真实的活体外手术环境中表现良好。随着进一步改进，其准确性有望达到临床级导航系统的水平，同时减少辐射剂量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Musculoskeletal Disorders 医学-风湿病学

CiteScore

3.80

自引率

8.70%

发文量

1017

审稿时长

3-6 weeks

期刊介绍： BMC Musculoskeletal Disorders is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of musculoskeletal disorders, as well as related molecular genetics, pathophysiology, and epidemiology. The scope of the Journal covers research into rheumatic diseases where the primary focus relates specifically to a component(s) of the musculoskeletal system.