Artificial intelligence algorithm for neoplastic cell percentage estimation and its application to copy number variation in urinary tract cancer.

IF 1.7 Q3 PATHOLOGY
Jinahn Jeong, Deokhoon Kim, Yeon-Mi Ryu, Ja-Min Park, Sun Young Yoon, Bokyung Ahn, Gi Hwan Kim, Se Un Jeong, Hyun-Jung Sung, Yong Il Lee, Sang-Yeob Kim, Yong Mee Cho
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Abstract

Background: Bladder cancer is characterized by frequent mutations, which provide potential therapeutic targets for most patients. The effectiveness of emerging personalized therapies depends on an accurate molecular diagnosis, for which the accurate estimation of the neoplastic cell percentage (NCP) is a crucial initial step. However, the established method for determining the NCP, manual counting by a pathologist, is time-consuming and not easily executable.

Methods: To address this, artificial intelligence (AI) models were developed to estimate the NCP using nine convolutional neural networks and the scanned images of 39 cases of urinary tract cancer. The performance of the AI models was compared to that of six pathologists for 119 cases in the validation cohort. The ground truth value was obtained through multiplexed immunofluorescence. The AI model was then applied to 41 cases in the application cohort that underwent next-generation sequencing testing, and its impact on the copy number variation (CNV) was analyzed.

Results: Each AI model demonstrated high reliability, with intraclass correlation coefficients (ICCs) ranging from 0.82 to 0.88. These values were comparable or better to those of pathologists, whose ICCs ranged from 0.78 to 0.91 in urothelial carcinoma cases, both with and without divergent differentiation/ subtypes. After applying AI-driven NCP, 190 CNV (24.2%) were reclassified with 66 (8.4%) and 78 (9.9%) moved to amplification and loss, respectively, from neutral/minor CNV. The neutral/minor CNV proportion decreased by 6%.

Conclusions: These results suggest that AI models could assist human pathologists in repetitive and cumbersome NCP calculations.

估算肿瘤细胞百分比的人工智能算法及其在尿路癌拷贝数变异中的应用。
背景:膀胱癌的特点是突变频繁,这为大多数患者提供了潜在的治疗目标。新出现的个性化疗法的有效性取决于准确的分子诊断,而准确估算肿瘤细胞百分比(NCP)是至关重要的第一步。然而,确定 NCP 的既定方法是由病理学家手动计数,既耗时又不易执行:为了解决这个问题,我们开发了人工智能(AI)模型,利用九个卷积神经网络和 39 例尿路癌的扫描图像来估算 NCP。将人工智能模型的性能与六位病理学家对 119 例验证队列病例的性能进行了比较。基本真实值是通过多重免疫荧光获得的。然后将人工智能模型应用于应用队列中的 41 个进行了新一代测序检测的病例,并分析了其对拷贝数变异(CNV)的影响:每个人工智能模型都表现出很高的可靠性,类内相关系数(ICC)在 0.82 到 0.88 之间。这些数值与病理学家的数值相当或更高,病理学家在尿路上皮癌病例中的类内相关系数从 0.78 到 0.91 不等,包括有分化/亚型差异和无分化/亚型差异的病例。应用人工智能驱动的 NCP 后,190 个 CNV(24.2%)被重新分类,其中 66 个(8.4%)和 78 个(9.9%)分别从中性/轻度 CNV 转为扩增和缺失。中性/轻度 CNV 比例下降了 6%:这些结果表明,人工智能模型可以帮助人类病理学家进行重复而繁琐的 NCP 计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.00
自引率
4.20%
发文量
45
审稿时长
14 weeks
期刊介绍: The Journal of Pathology and Translational Medicine is an open venue for the rapid publication of major achievements in various fields of pathology, cytopathology, and biomedical and translational research. The Journal aims to share new insights into the molecular and cellular mechanisms of human diseases and to report major advances in both experimental and clinical medicine, with a particular emphasis on translational research. The investigations of human cells and tissues using high-dimensional biology techniques such as genomics and proteomics will be given a high priority. Articles on stem cell biology are also welcome. The categories of manuscript include original articles, review and perspective articles, case studies, brief case reports, and letters to the editor.
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