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增强现实辅助经皮三叉神经切断术治疗三叉神经痛

Augmented Reality-Assisted Percutaneous Rhizotomy for Trigeminal Neuralgia.

作者信息

Berger Assaf, Choudhry Osamah J, Kondziolka Douglas

机构信息

Department of Neurological Surgery, NYU Langone Health, Grossman School of Medicine, New York University, New York, New York, USA.

出版信息

Oper Neurosurg. 2023 Jun 1;24(6):665-669. doi: 10.1227/ons.0000000000000661. Epub 2023 Feb 23.

DOI:10.1227/ons.0000000000000661
PMID:36815787
Abstract

BACKGROUND

Percutaneous rhizotomy of the trigeminal nerve is a common surgery to manage medically refractory trigeminal neuralgia. Traditionally, these procedures have been performed based on anatomic landmarks with fluoroscopic guidance. Augmented reality (AR) relays virtual content on the real world and has the potential to improve localization of surgical targets based on preoperative imaging.

OBJECTIVE

To study the potential application and benefits of AR as an adjunct to traditional fluoroscopy-guided glycerol rhizotomy (GR).

METHODS

We used traditional fluoroscopy-guided percutaneous GR technique as previously described, performed under general anesthesia. Anatomic registration to the Medivis SurgicalAR system was performed based on the patient's preoperative computerized tomography, and the surgeon was equipped with the system's AR goggles. AR was used as an adjunct to fluoroscopy for trajectory planning to place a spinal needle into the medial aspect of the foramen ovale.

RESULTS

A 50-year-old woman with multiple sclerosis-related right-sided classical trigeminal neuralgia had persistent pain, refractory to medications, previous gamma knife stereotactic radiosurgery, and percutaneous radiofrequency rhizotomy performed elsewhere. The patient underwent AR-assisted fluoroscopy-guided percutaneous GR. The needle was placed into the right trigeminal cistern within seconds. She was discharged home after a few hours of observation with no complications and reported pain relief.

CONCLUSION

AR-assisted percutaneous rhizotomy may enhance the learning curve of these types of procedures and decrease surgery duration and radiation exposure. This allowed rapid and correct placement of a spinal needle through the foramen ovale.

摘要

背景

经皮三叉神经切断术是治疗药物难治性三叉神经痛的常见手术。传统上,这些手术是在荧光镜引导下根据解剖标志进行的。增强现实(AR)可将虚拟内容叠加在现实世界上,有潜力根据术前影像改善手术靶点的定位。

目的

研究AR作为传统荧光镜引导下甘油神经根切断术(GR)辅助手段的潜在应用及益处。

方法

我们采用如前所述的传统荧光镜引导下经皮GR技术,在全身麻醉下进行。根据患者术前计算机断层扫描对Medivis SurgicalAR系统进行解剖配准,外科医生佩戴该系统的AR护目镜。AR作为荧光镜的辅助手段用于轨迹规划,以将脊髓穿刺针置入卵圆孔内侧。

结果

一名50岁患有多发性硬化相关右侧典型三叉神经痛的女性,疼痛持续存在,对药物、既往伽玛刀立体定向放射外科手术及在其他地方进行的经皮射频神经根切断术均无效。该患者接受了AR辅助荧光镜引导下经皮GR。数秒内将穿刺针置入右侧三叉神经池。经过数小时观察后她出院回家且无并发症,报告疼痛缓解。

结论

AR辅助经皮神经根切断术可能会改善这类手术的学习曲线,缩短手术时间并减少辐射暴露。这使得能够快速且正确地将脊髓穿刺针穿过卵圆孔。

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