人工智能增强导航在腹腔镜结直肠手术中的神经识别与手术教育应用

Artificial intelligence-enhanced navigation for nerve recognition and surgical education in laparoscopic colorectal surgery.

作者信息

Ryu Shunjin, Imaizumi Yuta, Goto Keisuke, Iwauchi Sotaro, Kobayashi Takehiro, Ito Ryusuke, Nakabayashi Yukio

机构信息

Department of Digestive Surgery, Kawaguchi Municipal Medical Center, Kawaguchi City, Saitama, 180, Nishiaraijuku333-0833, Japan.

出版信息

Surg Endosc. 2025 Feb;39(2):1388-1396. doi: 10.1007/s00464-024-11489-0. Epub 2025 Jan 6.

DOI:10.1007/s00464-024-11489-0

PMID:39762611

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11794642/

Abstract

BACKGROUND

Devices that help educate young doctors and enable safe, minimally invasive surgery are needed. Eureka is a surgical artificial intelligence (AI) system that can intraoperatively highlight loose connective tissues (LCTs) in the dissected layers and nerves in the surgical field displayed on a monitor. In this study, we examined whether AI navigation (AIN) with Eureka can assist trainees in recognizing nerves during colorectal surgery.

METHODS

In left-sided colorectal surgery (n = 51, between July 2023 and February 2024), Eureka was connected to the laparoscopic system side by side, and the nerve was highlighted on the monitor during the surgery. We examined the rate of failure to recognize nerves by trainee surgeons over a total of 101 scenarios after it was recognized intraoperatively by the supervising surgeon (certified by the Japanese Society of Endoscopic Surgery). We also examined the frequency of nerve recognition by the trainee physicians viewing the Eureka monitor when recognition was not possible (recognition assistance rate).

RESULTS

The nerve recognition failure rate and recognition assistance rate with AIN were as follows: right hypogastric nerve during sigmoid colon mobilization, 44/101 (43.6%) and 19/44 (43.2%); left hypogastric nerves during dissection of the dorsal rectum, 27/101 (26.7%) and 13/27 (48.1%); right lumbar splanchnic nerves, 32/101 (31.7%) and 29/32 (90.6%); left lumbar splanchnic nerves, 44/101 (43.6%) and 39/44 (88.6%); and pelvic visceral nerves during dissection of the dorsal rectum, 29/45 (64.4%) and 6/29 (20.7%), respectively.

CONCLUSION

Although the rate of recognition with assistance from AIN differed for the different nerves, this system can potentially assist in anatomic recognition, enhance surgical education, and contribute to nerve preservation.

TRIAL REGISTRATION

Improvement of AI navigation in minimally invasive surgery and examination of its intraoperative support and educational effectiveness. Research Ethics Committee of the Kawaguchi Municipal Medical Center (Saitama, Japan) approval number: 2022-27.

摘要

背景

需要有助于培养年轻医生并实现安全、微创手术的设备。Eureka是一种手术人工智能（AI）系统，可在术中突出显示解剖层面中的疏松结缔组织（LCT）以及显示器上显示的手术视野中的神经。在本研究中，我们研究了使用Eureka的人工智能导航（AIN）是否可以帮助学员在结直肠手术中识别神经。

方法

在左侧结直肠手术（2023年7月至2024年2月期间，n = 51）中，将Eureka并排连接到腹腔镜系统，手术期间神经在显示器上突出显示。我们检查了在监督外科医生（由日本内镜外科学会认证）术中识别神经后，实习外科医生在总共101种情况下无法识别神经的发生率。我们还检查了在无法识别时，实习医生查看Eureka显示器时识别神经的频率（识别辅助率）。

结果

AIN的神经识别失败率和识别辅助率如下：乙状结肠游离术中的右下腹神经，分别为44/101（43.6%）和19/44（43.2%）；直肠背侧解剖术中的左下腹神经，分别为27/101（26.7%）和13/27（48.1%）；右腰内脏神经，分别为32/101（31.7%）和29/32（90.6%）；左腰内脏神经，分别为44/101（43.6%）和39/44（88.6%）；直肠背侧解剖术中的盆内脏神经，分别为29/45（64.4%）和6/29（20.7%）。

结论

尽管AIN辅助下的识别率因不同神经而异，但该系统可能有助于解剖识别、加强手术教育并有助于神经保护。

试验注册

微创手术中人工智能导航的改进及其术中支持和教育效果的检查。川口市立医疗中心（日本埼玉）研究伦理委员会批准号：2022 - 27。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d30/11794642/166cd8bee716/464_2024_11489_Fig1_HTML.jpg

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人工智能增强导航在腹腔镜结直肠手术中的神经识别与手术教育应用

Artificial intelligence-enhanced navigation for nerve recognition and surgical education in laparoscopic colorectal surgery.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

TRIAL REGISTRATION

背景

方法

结果

结论

试验注册

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