微创后路颈椎椎板间孔切开术中皮肤锚定术中三维导航的技术、时间需求、辐射暴露及结果

Technique, Time Demand, Radiation Exposure, and Outcomes of Skin-anchored Intraoperative 3D Navigation in Minimally Invasive Posterior Cervical Laminoforaminotomy.

作者信息

Vaishnav Avani S, Louie Philip, Gang Catherine H, Iyer Sravisht, McAnany Steven, Albert Todd, Qureshi Sheeraz A

机构信息

Hospital for Special Surgery.

Weill Cornell Medical College, New York, NY.

出版信息

Clin Spine Surg. 2022 Feb 1;35(1):31-37. doi: 10.1097/BSD.0000000000001143.

DOI:10.1097/BSD.0000000000001143

PMID:33633002

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11980684/

Abstract

STUDY DESIGN

This was a retrospective review.

OBJECTIVE

The objective of this study was to describe our technique and evaluate the time demand, radiation exposure, and outcomes of minimally invasive posterior cervical laminoforaminotomy (MI-PCLF) using skin-anchored intraoperative navigation (ION).

BACKGROUND

Although bone-anchored trackers are most commonly used for ION, a novel technique utilizing noninvasive skin-anchored trackers has recently been described for lumbar surgery and has shown favorable results. There are currently no reports on the use of this technology for cervical surgery.

METHODS

Time demand, radiation exposure, and perioperative outcomes of MI-PCLF using skin-anchored ION were evaluated.

RESULTS

Twenty-one patients with 36 operative levels were included. Time for ION setup and operative time were a median of 34 and 62 minutes, respectively. Median radiation to the patient was 2.5 mGy from 10 seconds of fluoroscopy time. Radiation exposure to operating room personnel was negligible because they are behind a protective lead shield during ION image acquisition. There were no intraoperative complications or wrong-level surgeries. One patient required a repeat ION spin, and in 2 patients, ION was abandoned and standard fluoroscopy was used.

CONCLUSIONS

Skin-anchored ION for MI-PCLF is feasible, safe, and accurate. It results in short operative times, minimal complications, low radiation to the patient, and negligible radiation to operating room personnel.

摘要

研究设计

这是一项回顾性研究。

目的

本研究的目的是描述我们的技术，并评估使用皮肤锚定术中导航（ION）的微创后路颈椎椎板间孔切开术（MI-PCLF）的时间需求、辐射暴露和结果。

背景

虽然骨锚定追踪器最常用于ION，但最近有一种利用无创皮肤锚定追踪器的新技术被描述用于腰椎手术，并显示出良好的效果。目前尚无关于该技术用于颈椎手术的报道。

方法

评估使用皮肤锚定ION的MI-PCLF的时间需求、辐射暴露和围手术期结果。

结果

纳入21例患者，共36个手术节段。ION设置时间和手术时间的中位数分别为34分钟和62分钟。患者接受的透视时间为10秒，中位辐射剂量为2.5 mGy。手术室人员的辐射暴露可忽略不计，因为在ION图像采集期间他们位于防护铅屏蔽后面。没有术中并发症或手术节段错误的情况。1例患者需要重复ION旋转，2例患者放弃ION并使用标准透视。

结论

用于MI-PCLF的皮肤锚定ION是可行、安全且准确的。它可缩短手术时间，减少并发症，降低患者辐射剂量，且手术室人员的辐射暴露可忽略不计。

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