基于高光谱成像和人工神经网络的结直肠癌自动光学活检。

Automatic optical biopsy for colorectal cancer using hyperspectral imaging and artificial neural networks.

机构信息

Research Institute Against Digestive Cancer (IRCAD France), Strasbourg, France.

Research Institute Against Digestive Cancer (IRCAD Africa), Kigali, Rwanda.

出版信息

Surg Endosc. 2022 Nov;36(11):8549-8559. doi: 10.1007/s00464-022-09524-z. Epub 2022 Aug 25.

DOI:10.1007/s00464-022-09524-z

PMID:36008640

Abstract

BACKGROUND

Intraoperative identification of cancerous tissue is fundamental during oncological surgical or endoscopic procedures. This relies on visual assessment supported by histopathological evaluation, implying a longer operative time. Hyperspectral imaging (HSI), a contrast-free and contactless imaging technology, provides spatially resolved spectroscopic analysis, with the potential to differentiate tissue at a cellular level. However, HSI produces "big data", which is impossible to directly interpret by clinicians. We hypothesize that advanced machine learning algorithms (convolutional neural networks-CNNs) can accurately detect colorectal cancer in HSI data.

METHODS

In 34 patients undergoing colorectal resections for cancer, immediately after extraction, the specimen was opened, the tumor-bearing section was exposed and imaged using HSI. Cancer and normal mucosa were categorized from histopathology. A state-of-the-art CNN was developed to automatically detect regions of colorectal cancer in a hyperspectral image. Accuracy was validated with three levels of cross-validation (twofold, fivefold, and 15-fold).

RESULTS

32 patients had colorectal adenocarcinomas confirmed by histopathology (9 left, 11 right, 4 transverse colon, and 9 rectum). 6 patients had a local initial stage (T1-2) and 26 had a local advanced stage (T3-4). The cancer detection performance of the CNN using 15-fold cross-validation showed high sensitivity and specificity (87% and 90%, respectively) and a ROC-AUC score of 0.95 (considered outstanding). In the T1-2 group, the sensitivity and specificity were 89% and 90%, respectively, and in the T3-4 group, the sensitivity and specificity were 81% and 93%, respectively.

CONCLUSIONS

Automatic colorectal cancer detection on fresh specimens using HSI, using a properly trained CNN is feasible and accurate, even with small datasets, regardless of the local tumor extension. In the near future, this approach may become a useful intraoperative tool during oncological endoscopic and surgical procedures, and may result in precise and non-destructive optical biopsies to support objective and consistent tumor-free resection margins.

摘要

背景

在肿瘤外科或内镜手术过程中，对癌组织进行术中识别至关重要。这依赖于视觉评估和组织病理学评估，这意味着手术时间更长。高光谱成像（HSI）是一种无对比、非接触式的成像技术，提供空间分辨光谱分析，具有在细胞水平上区分组织的潜力。然而，HSI 产生的“大数据”，临床医生无法直接解释。我们假设先进的机器学习算法（卷积神经网络-CNN）可以准确地从 HSI 数据中检测结直肠癌。

方法

在 34 名因癌症接受结直肠切除术的患者中，标本取出后立即打开，使用 HSI 对肿瘤部位进行暴露和成像。根据组织病理学将癌组织和正常黏膜分类。开发了一种最先进的 CNN 来自动检测高光谱图像中的结直肠癌区域。使用 2 重、5 重和 15 重交叉验证验证准确性。

结果

32 名患者的结直肠腺癌经组织病理学证实（9 例左、11 例右、4 例横结肠和 9 例直肠）。6 例患者有局部初始阶段（T1-2），26 例患者有局部晚期阶段（T3-4）。使用 15 重交叉验证的 CNN 的癌症检测性能显示出高灵敏度和特异性（分别为 87%和 90%），ROC-AUC 评分为 0.95（被认为是出色的）。在 T1-2 组中，灵敏度和特异性分别为 89%和 90%，在 T3-4 组中，灵敏度和特异性分别为 81%和 93%。

结论

使用 HSI 对新鲜标本进行自动结直肠癌检测，使用经过适当训练的 CNN 是可行且准确的，即使数据集较小，也与局部肿瘤扩展无关。在不久的将来，这种方法可能成为肿瘤内镜和外科手术过程中的一种有用的术中工具，并可能导致精确的非破坏性光学活检，以支持客观和一致的无肿瘤切除边缘。

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基于高光谱成像和人工神经网络的结直肠癌自动光学活检。

Automatic optical biopsy for colorectal cancer using hyperspectral imaging and artificial neural networks.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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