人工智能在腹腔镜胃癌根治术中的手术安全性：利用深度学习预测与术后胰瘘相关的解剖学标志。

Artificial intelligence for surgical safety during laparoscopic gastrectomy for gastric cancer: Indication of anatomical landmarks related to postoperative pancreatic fistula using deep learning.

机构信息

Department of Gastroenterological and Pediatric Surgery, Faculty of Medicine, Oita University, Oita, Japan.

Department of Information Systems and Engineering, Faculty of Information Engineering, Fukuoka Institute of Technology, Fukuoka, Japan.

出版信息

Surg Endosc. 2024 Oct;38(10):5601-5612. doi: 10.1007/s00464-024-11117-x. Epub 2024 Aug 2.

DOI:10.1007/s00464-024-11117-x

PMID:39093411

Abstract

BACKGROUND

Postoperative pancreatic fistula (POPF) is a critical complication of laparoscopic gastrectomy (LG). However, there are no widely recognized anatomical landmarks to prevent POPF during LG. This study aimed to identify anatomical landmarks related to POPF occurrence during LG for gastric cancer and to develop an artificial intelligence (AI) navigation system for indicating these landmarks.

METHODS

Dimpling lines (DLs)-depressions formed between the pancreas and surrounding organs-were defined as anatomical landmarks related to POPF. The DLs for the mesogastrium, intestine, and transverse mesocolon were named DMP, DIP, and DTP, respectively. We included 50 LG cases to develop the AI system (45/50 were used for training and 5/50 for adjusting the hyperparameters of the employed system). Regarding the validation of the AI system, DLs were assessed by an external evaluation committee using a Likert scale, and the pancreas was assessed using the Dice coefficient, with 10 prospectively registered cases.

RESULTS

Six expert surgeons confirmed the efficacy of DLs as anatomical landmarks related to POPF in LG. An AI system was developed using a semantic segmentation model that indicated DLs in real-time when this system was synchronized during surgery. Additionally, the distribution of scores for DMP was significantly higher than that of the other DLs (p < 0.001), indicating the relatively high accuracy of this landmark. In addition, the Dice coefficient of the pancreas was 0.70.

CONCLUSIONS

The DLs may be used as anatomical landmarks related to POPF occurrence. The developed AI navigation system can help visualize the DLs in real-time during LG.

摘要

背景

腹腔镜胃切除术（LG）后胰瘘（POPF）是一种严重的并发症。然而，目前还没有被广泛认可的解剖学标志来预防 LG 术后胰瘘的发生。本研究旨在确定与胃癌 LG 术后胰瘘发生相关的解剖学标志，并开发一种人工智能（AI）导航系统来指示这些标志。

方法

凹陷线（DLs）——胰腺和周围器官之间形成的凹陷——被定义为与 POPF 发生相关的解剖学标志。胃系膜、肠和横结肠系膜的 DL 分别命名为 DMP、DIP 和 DTP。我们纳入了 50 例 LG 病例来开发 AI 系统（45/50 用于训练，5/50 用于调整所使用系统的超参数）。对于 AI 系统的验证，外部评估委员会使用李克特量表评估 DLs，使用 Dice 系数评估胰腺，共 10 例前瞻性注册病例。

结果

6 名专家外科医生确认了 DLs 作为 LG 术后胰瘘相关解剖学标志的有效性。使用语义分割模型开发了一个 AI 系统，该系统在手术中同步时实时指示 DLs。此外，DMP 的评分分布明显高于其他 DLs（p<0.001），表明该标志具有较高的准确性。此外，胰腺的 Dice 系数为 0.70。

结论

DLs 可作为与 POPF 发生相关的解剖学标志。开发的 AI 导航系统可帮助在 LG 期间实时可视化 DLs。

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人工智能在腹腔镜胃癌根治术中的手术安全性：利用深度学习预测与术后胰瘘相关的解剖学标志。

Artificial intelligence for surgical safety during laparoscopic gastrectomy for gastric cancer: Indication of anatomical landmarks related to postoperative pancreatic fistula using deep learning.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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