Optimized breath analysis: customized analytical methods and enhanced workflow for broader detection of VOCs.

IF 3.5 3区医学 Q2 ENDOCRINOLOGY & METABOLISM Metabolomics Pub Date : 2025-01-20 DOI:10.1007/s11306-024-02218-8

Wisenave Arulvasan, Julia Greenwood, Madeleine L Ball, Hsuan Chou, Simon Coplowe, Owen Birch, Patrick Gordon, Andreea Ratiu, Elizabeth Lam, Matteo Tardelli, Monika Szkatulska, Shane Swann, Steven Levett, Ella Mead, Frederik-Jan van Schooten, Agnieszka Smolinska, Billy Boyle, Max Allsworth

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Abstract

Introduction: Breath Volatile organic compounds (VOCs) are promising biomarkers for clinical purposes due to their unique properties. Translation of VOC biomarkers into the clinic depends on identification and validation: a challenge requiring collaboration, well-established protocols, and cross-comparison of data. Previously, we developed a breath collection and analysis method, resulting in 148 breath-borne VOCs identified.

Objectives: To develop a complementary analytical method for the detection and identification of additional VOCs from breath. To develop and implement upgrades to the methodology for identifying features determined to be "on-breath" by comparing breath samples against paired background samples applying three metrics: standard deviation, paired t-test, and receiver-operating-characteristic (ROC) curve.

Methods: A thermal desorption (TD)-gas chromatography (GC)-mass spectrometry (MS)-based analytical method utilizing a PEG phase GC column was developed for the detection of biologically relevant VOCs. The multi-step VOC identification methodology was upgraded through several developments: candidate VOC grouping schema, ion abundance correlation based spectral library creation approach, hybrid alkane-FAMES retention indexing, relative retention time matching, along with additional quality checks. In combination, these updates enable highly accurate identification of breath-borne VOCs, both on spectral and retention axes.

Results: A total of 621 features were statistically determined as on-breath by at least one metric (standard deviation, paired t-test, or ROC). A total of 38 on-breath VOCs were able to be confidently identified from comparison to chemical standards.

Conclusion: The total confirmed on-breath VOCs is now 186. We present an updated methodology for high-confidence VOC identification, and a new set of VOCs commonly found on-breath.

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优化呼吸分析：定制分析方法和增强工作流程，更广泛地检测挥发性有机化合物。

呼气挥发性有机化合物（VOCs）由于其独特的性质，是很有希望用于临床目的的生物标志物。将挥发性有机化合物生物标志物转化为临床取决于鉴定和验证：这是一项挑战，需要合作、完善的协议和数据的交叉比较。此前，我们开发了一种呼吸收集和分析方法，最终鉴定出148种呼吸传播的挥发性有机化合物。目的：建立一种辅助分析方法，用于检测和鉴定呼吸中额外的挥发性有机化合物。通过使用三个指标：标准差、配对t检验和接受者工作特征（ROC）曲线，将呼吸样本与配对背景样本进行比较，开发和实施识别“呼吸上”特征的方法升级。方法：建立了一种基于热解吸(TD)-气相色谱(GC)-质谱（MS）的分析方法，利用PEG相气相色谱柱检测生物相关VOCs。多步骤VOC识别方法通过几个发展得到了升级：候选VOC分组模式，基于离子丰度相关性的光谱库创建方法，混合烷烃- fames保留索引，相对保留时间匹配，以及额外的质量检查。结合这些更新，可以在光谱和保留轴上高度准确地识别呼吸传播的voc。结果：通过至少一个指标（标准差、配对t检验或ROC），共有621项特征被统计确定为呼吸相关。通过与化学标准的比较，总共可以确定38种呼吸性挥发性有机化合物。结论：经确认的呼吸性VOCs总量为186。我们提出了一种更新的高置信度VOC识别方法，以及一套新的常见于呼吸的VOC。

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来源期刊

Metabolomics 医学-内分泌学与代谢

CiteScore

6.60

自引率

2.80%

发文量

审稿时长

2 months

期刊介绍： Metabolomics publishes current research regarding the development of technology platforms for metabolomics. This includes, but is not limited to: metabolomic applications within man, including pre-clinical and clinical pharmacometabolomics for precision medicine metabolic profiling and fingerprinting metabolite target analysis metabolomic applications within animals, plants and microbes transcriptomics and proteomics in systems biology Metabolomics is an indispensable platform for researchers using new post-genomics approaches, to discover networks and interactions between metabolites, pharmaceuticals, SNPs, proteins and more. Its articles go beyond the genome and metabolome, by including original clinical study material together with big data from new emerging technologies.