利用经肛门拖出标本组织学切片的深度学习提高先天性巨结肠症的诊断：初步结果

Enhancing diagnosis of Hirschsprung's disease using deep learning from histological sections of post pull-through specimens: preliminary results.

机构信息

Division of Pediatric Surgery, Department of Women's and Children's Health, University of Padova, Via Giustiniani 2, 35128, Padova, Italy.

Pediatric Surgery Unit, Division of Women's and Children's Health, Padova University Hospital, Padova, Italy.

出版信息

Pediatr Surg Int. 2023 Nov 29;40(1):12. doi: 10.1007/s00383-023-05590-z.

DOI:10.1007/s00383-023-05590-z

PMID:38019366

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10687181/

Abstract

PURPOSE

Accurate histological diagnosis in Hirschsprung disease (HD) is challenging, due to its complexity and potential for errors. In this study, we present an artificial intelligence (AI)-based method designed to identify ganglionic cells and hypertrophic nerves in HD histology.

METHODS

Formalin-fixed samples were used and an expert pathologist and a surgeon annotated these slides on a web-based platform, identifying ganglionic cells and nerves. Images were partitioned into square sections, augmented through data manipulation techniques and used to develop two distinct U-net models: one for detecting ganglionic cells and normal nerves; the other to recognise hypertrophic nerves.

RESULTS

The study included 108 annotated samples, resulting in 19,600 images after data augmentation and manually segmentation. Subsequently, 17,655 slides without target elements were excluded. The algorithm was trained using 1945 slides (930 for model 1 and 1015 for model 2) with 1556 slides used for training the supervised network and 389 for validation. The accuracy of model 1 was found to be 92.32%, while model 2 achieved an accuracy of 91.5%.

CONCLUSION

The AI-based U-net technique demonstrates robustness in detecting ganglion cells and nerves in HD. The deep learning approach has the potential to standardise and streamline HD diagnosis, benefiting patients and aiding in training of pathologists.

摘要

目的

先天性巨结肠症（HD）的组织学诊断具有一定难度，因为其存在复杂性和潜在错误风险。本研究提出了一种基于人工智能（AI）的方法，旨在识别 HD 组织学中的神经节细胞和肥大神经。

方法

使用福尔马林固定样本，由一位病理专家和一位外科医生在基于网络的平台上对这些切片进行注释，以识别神经节细胞和神经。图像被分割成正方形区域，通过数据处理技术进行扩充，并用于开发两个不同的 U-net 模型：一个用于检测神经节细胞和正常神经；另一个用于识别肥大神经。

结果

该研究共纳入 108 个注释样本，经数据扩充和手动分割后共获得 19600 张图像。随后，排除了 17655 张不含目标元素的切片。该算法使用 1945 张切片（模型 1 为 930 张，模型 2 为 1015 张）进行训练，其中 1556 张用于训练有监督网络，389 张用于验证。模型 1 的准确率为 92.32%，模型 2 的准确率为 91.5%。

结论

基于 AI 的 U-net 技术在检测 HD 中的神经节细胞和神经方面表现出稳健性。深度学习方法具有标准化和简化 HD 诊断的潜力，使患者受益，并有助于病理学家的培训。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/803e/10687181/986a5b614c68/383_2023_5590_Fig1_HTML.jpg

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利用经肛门拖出标本组织学切片的深度学习提高先天性巨结肠症的诊断：初步结果

Enhancing diagnosis of Hirschsprung's disease using deep learning from histological sections of post pull-through specimens: preliminary results.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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