癌症生物学中质控细胞仪数据的监督分析新手指南。

IF 2.5 4区 生物学 Q3 BIOCHEMICAL RESEARCH METHODS
Julia Wlosik, Samuel Granjeaud, Laurent Gorvel, Daniel Olive, Anne-Sophie Chretien
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引用次数: 0

摘要

质谱仪能以单细胞分辨率对生物样本进行深度剖析。由于细胞的高度异质性和复杂性,这项技术在癌症研究中显得尤为重要。高维数据集的下游分析越来越依赖于机器学习(ML)来提取临床相关信息,包括用于分类和回归目的的监督算法。在癌症研究中,它们被用于开发预测模型,以指导临床决策。然而,有监督算法的开发面临着重大挑战,例如在应用于临床之前需要进行充分验证。在这项工作中,我们提供了一个分析质谱数据的框架,重点关注有监督算法及其应用实例。我们还提高了研究人员对有关良好实践的关键问题的认识,使他们对在其质量细胞测量数据上实施有监督 ML 感到好奇。最后,我们讨论了将监督式 ML 应用于癌症研究的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A beginner's guide to supervised analysis for mass cytometry data in cancer biology

A beginner's guide to supervised analysis for mass cytometry data in cancer biology

Mass cytometry enables deep profiling of biological samples at single-cell resolution. This technology is more than relevant in cancer research due to high cellular heterogeneity and complexity. Downstream analysis of high-dimensional datasets increasingly relies on machine learning (ML) to extract clinically relevant information, including supervised algorithms for classification and regression purposes. In cancer research, they are used to develop predictive models that will guide clinical decision making. However, the development of supervised algorithms faces major challenges, such as sufficient validation, before being translated into the clinics. In this work, we provide a framework for the analysis of mass cytometry data with a specific focus on supervised algorithms and practical examples of their applications. We also raise awareness on key issues regarding good practices for researchers curious to implement supervised ML on their mass cytometry data. Finally, we discuss the challenges of supervised ML application to cancer research.

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来源期刊
Cytometry Part A
Cytometry Part A 生物-生化研究方法
CiteScore
8.10
自引率
13.50%
发文量
183
审稿时长
4-8 weeks
期刊介绍: Cytometry Part A, the journal of quantitative single-cell analysis, features original research reports and reviews of innovative scientific studies employing quantitative single-cell measurement, separation, manipulation, and modeling techniques, as well as original articles on mechanisms of molecular and cellular functions obtained by cytometry techniques. The journal welcomes submissions from multiple research fields that fully embrace the study of the cytome: Biomedical Instrumentation Engineering Biophotonics Bioinformatics Cell Biology Computational Biology Data Science Immunology Parasitology Microbiology Neuroscience Cancer Stem Cells Tissue Regeneration.
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