利用嵌套主动机器学习改进目标质谱数据分析

IF 6.8 Q1 AUTOMATION & CONTROL SYSTEMS
Duran Bao, Qingbo Shu, Bo Ning, Michael Tang, Yubing Liu, Noel Wong, Zhengming Ding, Zizhan Zheng, Christopher J. Lyon, Tony Hu, Jia Fan
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引用次数: 0

摘要

靶向质谱(MS)有望实现蛋白质和蛋白质代表肽的精确鉴定和定量,从而提高疾病诊断水平。然而,复杂的数据分析和专家审查要求阻碍了其临床应用。假设机器学习(ML)模型可以自动进行数据分析,从而加快 MS 的临床应用。该方法涉及一个 ML 驱动的管道,该管道从 MS 靶区提取统计和形态特征,并将这些特征输入 ML 算法,以生成和评估预测模型。研究结果表明,ML 预测模型在提取的特征与原始光谱强度数据的对比训练中表现出更优越的性能,随机森林模型在内部和外部验证数据集中都表现出稳健的分类性能。这些模型在不同的训练数据集规模和阳性样本率下依然有效,并通过嵌套主动学习方法得到增强。因此,这种方法可以彻底改变临床 MS 应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Improving Targeted Mass Spectrometry Data Analysis with Nested Active Machine Learning

Improving Targeted Mass Spectrometry Data Analysis with Nested Active Machine Learning

Targeted mass spectrometry (MS) holds promise for precise protein and protein-representative peptide identification and quantification, enhancing disease diagnosis. However, its clinical application is hindered by complex data analysis and expert review requirements. It is hypothesized that machine learning (ML) models can automate data analysis to accelerate the clinical application of MS. The approach involves an ML-driven pipeline that extracts statistical and morphological features from an MS target region and feeds these features into ML algorithms to generate and assess predictive models. The findings demonstrate ML prediction models exhibit superior performance when trained on extracted features versus raw spectra intensity data and that random forest models exhibit robust classification performance in both internal and external validation datasets. These models remain effective across varying training dataset sizes and positive sample rates and are enhanced by a nested active learning approach. This approach can thus revolutionize clinical MS applications.

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