机器人辅助脊柱手术的准确性、翻修和围手术期结果比较:系统回顾和荟萃分析。

IF 2.9 2区 医学 Q2 CLINICAL NEUROLOGY
Journal of neurosurgery. Spine Pub Date : 2024-07-05 Print Date: 2024-10-01 DOI:10.3171/2024.4.SPINE23917
Luke MacLean, Andrew M Hersh, Meghana Bhimreddy, Kelly Jiang, A Daniel Davidar, Carly Weber-Levine, Safwan Alomari, Brendan F Judy, Daniel Lubelski, Nicholas Theodore
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引用次数: 0

摘要

目的:椎弓根螺钉置放引导对脊柱融合术至关重要,脊柱手术机器人旨在提高准确性并减少并发症。目前的文献尚未对现有机器人系统的相对优点进行比较。在这篇综述中,作者旨在:1)评估脊柱机器人的文献现状;2)根据准确性、速度和安全性对机器人的性能进行荟萃分析;3)为机器人系统的选择提供建议:作者按照PRISMA指南,对截至2022年4月28日的PubMed、Embase、Cochrane Library、Web of Science和Scopus进行了系统性文献综述,以了解有关经认可的腰椎椎弓根螺钉置入机器人的研究。三位审稿人筛选并提取了与研究特点、准确率、术中翻修和再手术相关的数据。次要性能指标包括手术时间、失血量和辐射暴露。作者使用随机效应模型对机器人的性能进行了统计比较,以考虑研究内部和研究之间的差异。每种机器人还与传统技术的性能基准进行了比较,包括徒手插入、透视插入和CT导航插入。最后,我们进行了Duval和Tweedie修剪填充测试,以评估是否存在发表偏倚:作者共发现了46项研究,对4670名患者和25054枚螺钉进行了描述,评估了4种不同的机器人系统:Mazor X、ROSA、ExcelsiusGPS 和 Cirq。Gertzbein-Robbins分类A级或B级螺钉的加权准确率如下:ExcelsiusGPS,98.0%;ROSA,98.0%;Mazor,98.2%;Cirq,94.2%。没有一种机器人的准确度明显高于其他机器人。不过,ExcelsiusGPS的准确度明显高于传统方法,而Mazor和ROSA的准确度则明显高于透视法。术中翻修率分别为:Cirq,0.55%;ROSA,0.91%;Mazor,0.98%;ExcelsiusGPS,1.08%。再手术率分别为:Cirq,0.28%;ExcelsiusGPS,0.32%;Mazor,0.76%(ROSA没有再手术报告)。所有机器人的手术时间相似。ExcelsiusGPS 和 Mazor 的失血量明显少于 ROSA。Cirq 的辐射量最低。与徒手、透视或CT导航技术相比,机器人往往更准确,而且一般来说,使用机器人可减少再次手术次数和失血量:机器人平台在关键指标上表现相当,准确率高,术中翻修率和再手术率低。脊柱机器人技术的出版速度将继续加快,选择机器人将取决于实践的具体情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of accuracy, revision, and perioperative outcomes in robot-assisted spine surgeries: systematic review and meta-analysis.

Objective: Pedicle screw placement guidance is critical in spinal fusions, and spinal surgery robots aim to improve accuracy and reduce complications. Current literature has yet to compare the relative merits of available robotic systems. In this review, the authors aimed to 1) assess the current state of spinal robotics literature; 2) conduct a meta-analysis of robotic performance based on accuracy, speed, and safety; and 3) offer recommendations for robotic system selection.

Methods: Following PRISMA guidelines, the authors conducted a systematic literature review across PubMed, Embase, Cochrane Library, Web of Science, and Scopus as of April 28, 2022, for studies on approved robots for placing lumbar pedicle screws. Three reviewers screened and extracted data relating to the study characteristics, accuracy rate, intraoperative revisions, and reoperations. Secondary performance metrics included operative time, blood loss, and radiation exposure. The authors statistically compared the performance of the robots using a random-effects model to account for variation within and between the studies. Each robot was also compared with performance benchmarks of traditional techniques including freehand, fluoroscopic, and CT-navigated insertion. Finally, we performed a Duval and Tweedie trim-and-fill test to assess for the presence of publication bias.

Results: The authors identified 46 studies, describing 4670 patients and 25,054 screws, that evaluated 4 different robotic systems: Mazor X, ROSA, ExcelsiusGPS, and Cirq. The weighted accuracy rates of Gertzbein-Robbins classification grade A or B screws were as follows: ExcelsiusGPS, 98.0%; ROSA, 98.0%; Mazor, 98.2%; and Cirq, 94.2%. No robot was significantly more accurate than the others. However, the accuracy of the ExcelsiusGPS was significantly higher than that of traditional methods, and the accuracies of the Mazor and ROSA were significantly higher than that of fluoroscopy. The intraoperative revision rates were Cirq, 0.55%; ROSA, 0.91%; Mazor, 0.98%; and ExcelsiusGPS, 1.08%. The reoperation rates were Cirq, 0.28%; ExcelsiusGPS, 0.32%; and Mazor, 0.76% (no reoperations were reported for ROSA). Operative times were similar for all robots. Both the ExcelsiusGPS and Mazor were associated with significantly less blood loss than the ROSA. The Cirq had the lowest radiation exposure. Robots tended to be more accurate and generally their use was associated with fewer reoperations and less blood loss than freehand, fluoroscopic, or CT-navigated techniques.

Conclusions: Robotic platforms perform comparably based on key metrics, with high accuracy rates and low intraoperative revision and reoperation rates. The spinal robotics publication rate will continue to accelerate, and choosing a robot will depend on the context of the practice.

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来源期刊
Journal of neurosurgery. Spine
Journal of neurosurgery. Spine 医学-临床神经学
CiteScore
5.10
自引率
10.70%
发文量
396
审稿时长
6 months
期刊介绍: Primarily publish original works in neurosurgery but also include studies in clinical neurophysiology, organic neurology, ophthalmology, radiology, pathology, and molecular biology.
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