Accounting for intensity variation in image analysis of large-scale multiplexed clinical trial datasets

IF 3.4 2区 医学 Q1 PATHOLOGY Journal of Pathology Clinical Research Pub Date : 2023-09-11 DOI:10.1002/cjp2.342
Anja L Frei, Anthony McGuigan, Ritik RAK Sinha, Mark A Glaire, Faiz Jabbar, Luciana Gneo, Tijana Tomasevic, Andrea Harkin, Tim J Iveson, Mark Saunders, Karin Oein, Noori Maka, Francesco Pezella, Leticia Campo, Jennifer Hay, Joanne Edwards, Owen J Sansom, Caroline Kelly, Ian Tomlinson, Wanja Kildal, Rachel S Kerr, David J Kerr, Håvard E Danielsen, Enric Domingo, TransSCOT Consortium, David N Church, Viktor H Koelzer
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Abstract

Multiplex immunofluorescence (mIF) imaging can provide comprehensive quantitative and spatial information for multiple immune markers for tumour immunoprofiling. However, application at scale to clinical trial samples sourced from multiple institutions is challenging due to pre-analytical heterogeneity. This study reports an analytical approach to the largest multi-parameter immunoprofiling study of clinical trial samples to date. We analysed 12,592 tissue microarray (TMA) spots from 3,545 colorectal cancers sourced from more than 240 institutions in two clinical trials (QUASAR 2 and SCOT) stained for CD4, CD8, CD20, CD68, FoxP3, pan-cytokeratin, and DAPI by mIF. TMA slides were multi-spectrally imaged and analysed by cell-based and pixel-based marker analysis. We developed an adaptive thresholding method to account for inter- and intra-slide intensity variation in TMA analysis. Applying this method effectively ameliorated inter- and intra-slide intensity variation improving the image analysis results compared with methods using a single global threshold. Correlation of CD8 data derived by our mIF analysis approach with single-plex chromogenic immunohistochemistry CD8 data derived from subsequent sections indicates the validity of our method (Spearman's rank correlation coefficients ρ between 0.63 and 0.66, p ≪ 0.01) as compared with the current gold standard analysis approach. Evaluation of correlation between cell-based and pixel-based analysis results confirms equivalency (ρ > 0.8, p ≪ 0.01, except for CD20 in the epithelial region) of both analytical approaches. These data suggest that our adaptive thresholding approach can enable analysis of mIF-stained clinical trial TMA datasets by digital pathology at scale for precision immunoprofiling.

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考虑大规模多路临床试验数据集图像分析中的强度变化
多重免疫荧光(mIF)成像可以为肿瘤免疫图谱的多种免疫标志物提供全面的定量和空间信息。然而,由于分析前的异质性,大规模应用于来自多个机构的临床试验样本具有挑战性。本研究报告了迄今为止最大的临床试验样本多参数免疫图谱研究的分析方法。我们在两项临床试验(QUASAR 2和SCOT)中分析了来自3545例结直肠癌的12592个组织微阵列(TMA)点,这些结直肠癌来源于240多个机构,通过mIF对CD4、CD8、CD20、CD68、FoxP3、泛细胞角蛋白和DAPI进行染色。TMA载玻片进行多光谱成像,并通过基于细胞和基于像素的标记物分析进行分析。我们开发了一种自适应阈值方法来解释TMA分析中幻灯片间和幻灯片内强度的变化。与使用单个全局阈值的方法相比,应用该方法有效地改善了幻灯片间和幻灯片内的强度变化,提高了图像分析结果。通过我们的mIF分析方法获得的CD8数据与随后切片中获得的单重显色免疫组织化学CD8数据的相关性表明了我们的方法的有效性(Spearman秩相关系数ρ在0.63和0.66之间,p ≪ 0.01)。基于细胞和基于像素的分析结果之间相关性的评估证实了等效性(ρ >; 0.8,p ≪ 0.01(除了上皮区域中的CD20)。这些数据表明,我们的自适应阈值方法可以通过数字病理学对mIF染色的临床试验TMA数据集进行大规模分析,以进行精确的免疫分析。
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来源期刊
Journal of Pathology Clinical Research
Journal of Pathology Clinical Research Medicine-Pathology and Forensic Medicine
CiteScore
7.40
自引率
2.40%
发文量
47
审稿时长
20 weeks
期刊介绍: The Journal of Pathology: Clinical Research and The Journal of Pathology serve as translational bridges between basic biomedical science and clinical medicine with particular emphasis on, but not restricted to, tissue based studies. The focus of The Journal of Pathology: Clinical Research is the publication of studies that illuminate the clinical relevance of research in the broad area of the study of disease. Appropriately powered and validated studies with novel diagnostic, prognostic and predictive significance, and biomarker discover and validation, will be welcomed. Studies with a predominantly mechanistic basis will be more appropriate for the companion Journal of Pathology.
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