Artificial intelligence can be trained to predict c-KIT-11 mutational status of canine mast cell tumors from hematoxylin and eosin-stained histological slides.

IF 2.3 2区 农林科学 Q2 PATHOLOGY Veterinary Pathology Pub Date : 2024-10-18 DOI:10.1177/03009858241286806
Chloé Puget, Jonathan Ganz, Julian Ostermaier, Thomas Conrad, Eda Parlak, Christof A Bertram, Matti Kiupel, Katharina Breininger, Marc Aubreville, Robert Klopfleisch
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Abstract

Numerous prognostic factors are currently assessed histologically and immunohistochemically in canine mast cell tumors (MCTs) to evaluate clinical behavior. In addition, polymerase chain reaction (PCR) is often performed to detect internal tandem duplication (ITD) mutations in exon 11 of the c-KIT gene (c-KIT-11-ITD) to predict the therapeutic response to tyrosine kinase inhibitors. This project aimed at training deep learning models (DLMs) to identify MCTs with c-KIT-11-ITD solely based on morphology. Hematoxylin and eosin (HE) stained slides of 368 cutaneous, subcutaneous, and mucocutaneous MCTs (195 with ITD and 173 without) were stained consecutively in 2 different laboratories and scanned with 3 different slide scanners. This resulted in 6 data sets (stain-scanner variations representing diagnostic institutions) of whole-slide images. DLMs were trained with single and mixed data sets and their performances were assessed under stain-scanner variations (domain shifts). The DLM correctly classified HE slides according to their c-KIT-11-ITD status in up to 87% of cases with a 0.90 sensitivity and a 0.83 specificity. A relevant performance drop could be observed when the stain-scanner combination of training and test data set differed. Multi-institutional data sets improved the average accuracy but did not reach the maximum accuracy of algorithms trained and tested on the same stain-scanner variant (ie, intra-institutional). In summary, DLM-based morphological examination can predict c-KIT-11-ITD with high accuracy in canine MCTs in HE slides. However, staining protocol and scanner type influence accuracy. Larger data sets of scans from different laboratories and scanners may lead to more robust DLMs to identify c-KIT mutations in HE slides.

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通过训练人工智能,可从苏木精和伊红染色的组织学切片中预测犬肥大细胞瘤的 c-KIT-11 突变状态。
目前对犬肥大细胞瘤(MCT)的组织学和免疫组化进行了大量预后因素评估,以评价其临床表现。此外,聚合酶链反应(PCR)通常用于检测c-KIT基因(c-KIT-11-ITD)第11外显子的内部串联重复(ITD)突变,以预测对酪氨酸激酶抑制剂的治疗反应。该项目旨在训练深度学习模型(DLMs),以便仅根据形态鉴定出具有c-KIT-11-ITD的MCT。368 例皮肤、皮下和粘膜 MCT(195 例有 ITD,173 例无 ITD)的血氧菌素和伊红(HE)染色玻片在 2 个不同的实验室连续染色,并用 3 台不同的玻片扫描仪扫描。这样就得到了 6 个全玻片图像数据集(染色-扫描仪差异代表诊断机构)。使用单一数据集和混合数据集对 DLM 进行了训练,并在染色扫描仪变化(域转移)的情况下对其性能进行了评估。根据 c-KIT-11-ITD 状态对 HE 切片进行分类的 DLM 正确率高达 87%,灵敏度为 0.90,特异度为 0.83。当训练数据集和测试数据集的染色扫描组合不同时,可观察到相关的性能下降。多机构数据集提高了平均准确率,但没有达到在同一染色扫描仪变体(即机构内)上训练和测试的算法的最高准确率。总之,基于 DLM 的形态学检查能高精度预测 HE 切片中犬 MCT 的 c-KIT-11-ITD。然而,染色方案和扫描仪类型会影响准确性。来自不同实验室和扫描仪的更大扫描数据集可能会使 DLM 更可靠,从而在 HE 切片中识别 c-KIT 突变。
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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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