Artificial intelligence-based quantification of lymphocytes in feline small intestinal biopsies.

IF 2.3 2区 农林科学 Q2 PATHOLOGY
Judit M Wulcan, Paula R Giaretta, Sai Fingerhood, Simone de Brot, Esther E V Crouch, Tatiana Wolf, Maria Isabel Casanova, Pedro R Ruivo, Pompei Bolfa, Nicolás Streitenberger, Christof A Bertram, Taryn A Donovan, Michael Kevin Keel, Peter F Moore, Stefan M Keller
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Abstract

Feline chronic enteropathy is a poorly defined condition of older cats that encompasses chronic enteritis to low-grade intestinal lymphoma. The histological evaluation of lymphocyte numbers and distribution in small intestinal biopsies is crucial for classification and grading. However, conventional histological methods for lymphocyte quantification have low interobserver agreement, resulting in low diagnostic reliability. This study aimed to develop and validate an artificial intelligence (AI) model to detect intraepithelial and lamina propria lymphocytes in hematoxylin and eosin-stained small intestinal biopsies from cats. The median sensitivity, positive predictive value, and F1 score of the AI model compared with the majority opinion of 11 veterinary anatomic pathologists, were 100% (interquartile range [IQR] 67%-100%), 57% (IQR 38%-83%), and 67% (IQR 43%-80%) for intraepithelial lymphocytes, and 89% (IQR 71%-100%), 67% (IQR 50%-82%), and 70% (IQR 43%-80%) for lamina propria lymphocytes, respectively. Errors included false negatives in whole-slide images with faded stain and false positives in misidentifying enterocyte nuclei. Semiquantitative grading at the whole-slide level showed low interobserver agreement among pathologists, underscoring the need for a reproducible quantitative approach. While semiquantitative grade and AI-derived lymphocyte counts correlated positively, the AI-derived lymphocyte counts overlapped between different grades. Our AI model, when supervised by a pathologist, offers a reproducible, objective, and quantitative assessment of feline intestinal lymphocytes at the whole-slide level, and has the potential to enhance diagnostic accuracy and consistency for feline chronic enteropathy.

基于人工智能的猫科动物小肠活检中淋巴细胞的定量分析。
猫慢性肠病是一种定义不清的老年猫疾病,包括慢性肠炎和低度肠道淋巴瘤。对小肠活检组织中淋巴细胞的数量和分布进行组织学评估对于分类和分级至关重要。然而,传统的淋巴细胞定量组织学方法观察者之间的一致性较低,导致诊断可靠性不高。本研究旨在开发和验证一种人工智能(AI)模型,用于检测苏木精和伊红染色的猫小肠活检组织中的上皮内和固有层淋巴细胞。与 11 位兽医解剖病理学家的多数意见相比,人工智能模型检测上皮内淋巴细胞的灵敏度、阳性预测值和 F1 分数的中位数分别为 100%(四分位数间距 [IQR] 67%-100%)、57%(IQR 38%-83%)和 67%(IQR 43%-80%);检测固有层淋巴细胞的灵敏度、阳性预测值和 F1 分数的中位数分别为 89%(IQR 71%-100%)、67%(IQR 50%-82%)和 70%(IQR 43%-80%)。误差包括染色褪色的全切片图像的假阴性和肠细胞核识别错误的假阳性。病理学家之间在整张切片水平上的半定量分级显示出较低的观察者间一致性,这突出表明需要一种可重复的定量方法。虽然半定量分级与人工智能衍生淋巴细胞计数呈正相关,但人工智能衍生淋巴细胞计数在不同分级之间存在重叠。在病理学家的指导下,我们的人工智能模型可在整个切片水平上对猫肠道淋巴细胞进行可重复、客观和定量的评估,并有可能提高猫慢性肠病诊断的准确性和一致性。
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来源期刊
Veterinary Pathology
Veterinary Pathology 农林科学-病理学
CiteScore
4.70
自引率
8.30%
发文量
99
审稿时长
2 months
期刊介绍: Veterinary Pathology (VET) is the premier international publication of basic and applied research involving domestic, laboratory, wildlife, marine and zoo animals, and poultry. Bridging the divide between natural and experimental diseases, the journal details the diagnostic investigations of diseases of animals; reports experimental studies on mechanisms of specific processes; provides unique insights into animal models of human disease; and presents studies on environmental and pharmaceutical hazards.
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