Deployment of a Machine Learning Algorithm in a Real-World Cohort for Quality Control Monitoring of Human Epidermal Growth Factor-2-Stained Clinical Specimens in Breast Cancer.

Archives of pathology & laboratory medicine Pub Date : 2024-12-18 DOI:10.5858/arpa.2024-0111-OA

Benjamin Glass, Michel E Vandenberghe, Surya Teja Chavali, Syed Ashar Javed, Murray Resnick, Harsha Pokkalla, Hunter Elliott, Sudha Rao, Shamira Sridharan, Jacqueline A Brosnan-Cashman, Ilan Wapinski, Michael Montalto, Andrew H Beck, Craig Barker

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Abstract

Context.—: Precise determination of biomarker status is necessary for clinical trial enrollment and endpoint analyses, as well as for optimal treatment determination in real-world practice. However, variabilities may be introduced into this process due to the processing of clinical specimens by different laboratories and assessment by distinct pathologists. Machine learning tools have the potential to minimize inconsistencies, although their use is not presently widespread.

Objective.—: To assess the applicability of machine learning to the quality control process for biomarker scoring in oncology, we developed and validated an automated machine learning model to be applied as a quality control tool for monitoring the assessment of human epidermal growth factor-2 (HER2).

Design.—: The model was trained using whole slide images from multiple sources to quantify HER2 expression and measure immunohistochemistry stain intensity, tumor area, and the presence of artifacts or ductal carcinoma in situ across breast cancer phenotypes. The quality control tool was deployed in a real-world cohort of HER2-stained breast cancer sample images collected from routine diagnostic practice to evaluate trends in HER2 testing quality indicators and between pathology laboratories.

Results.—: Automated image analysis for HER2 scoring is consistent and reliable using this algorithm. Deployment of the HER2 quality control tool across 3 clinical laboratories revealed interlaboratory variability in HER2 scoring and inconsistencies in data reporting.

Conclusions.—: These results support the future incorporation of quality control algorithms for real-time monitoring of clinical laboratories contributing to clinical trials in oncology and in the real-world setting of HER2 immunohistochemistry testing in local clinical laboratories and hospitals.

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在真实世界队列中部署机器学习算法，用于乳腺癌中人类表皮生长因子-2染色临床标本的质量控制监测。

上下文。-：生物标志物状态的精确测定对于临床试验入组和终点分析，以及在现实实践中确定最佳治疗是必要的。然而，由于不同实验室对临床标本的处理和不同病理学家的评估，可能会在这一过程中引入变数。机器学习工具有可能将不一致性降到最低，尽管它们的使用目前还没有得到广泛应用。为了评估机器学习在肿瘤生物标志物评分质量控制过程中的适用性，我们开发并验证了一个自动机器学习模型，该模型将被用作监测人类表皮生长因子-2 （HER2）评估的质量控制工具。-：使用来自多个来源的整张幻灯片图像对模型进行训练，以量化HER2表达，并测量免疫组织化学染色强度、肿瘤面积以及各种乳腺癌表型中伪影或导管原位癌的存在。质量控制工具应用于从常规诊断实践中收集的HER2染色乳腺癌样本图像的真实队列中，以评估HER2检测质量指标和病理实验室之间的趋势。-：使用该算法进行HER2评分的自动图像分析是一致和可靠的。在3个临床实验室中部署HER2质量控制工具，揭示了HER2评分在实验室间的差异和数据报告的不一致性。-：这些结果支持未来将质量控制算法纳入临床实验室的实时监测，有助于肿瘤学临床试验和当地临床实验室和医院的HER2免疫组织化学测试的现实环境。

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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Archives of pathology & laboratory medicine

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