Progress and challenges of developing volatile metabolites from exhaled breath as a biomarker platform.

IF 3.5 3区 医学 Q2 ENDOCRINOLOGY & METABOLISM Metabolomics Pub Date : 2024-07-08 DOI:10.1007/s11306-024-02142-x
Hsuan Chou, Lucy Godbeer, Max Allsworth, Billy Boyle, Madeleine L Ball
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Abstract

Background: The multitude of metabolites generated by physiological processes in the body can serve as valuable biomarkers for many clinical purposes. They can provide a window into relevant metabolic pathways for health and disease, as well as be candidate therapeutic targets. A subset of these metabolites generated in the human body are volatile, known as volatile organic compounds (VOCs), which can be detected in exhaled breath. These can diffuse from their point of origin throughout the body into the bloodstream and exchange into the air in the lungs. For this reason, breath VOC analysis has become a focus of biomedical research hoping to translate new useful biomarkers by taking advantage of the non-invasive nature of breath sampling, as well as the rapid rate of collection over short periods of time that can occur. Despite the promise of breath analysis as an additional platform for metabolomic analysis, no VOC breath biomarkers have successfully been implemented into a clinical setting as of the time of this review.

Aim of review: This review aims to summarize the progress made to address the major methodological challenges, including standardization, that have historically limited the translation of breath VOC biomarkers into the clinic. We highlight what steps can be taken to improve these issues within new and ongoing breath research to promote the successful development of the VOCs in breath as a robust source of candidate biomarkers. We also highlight key recent papers across select fields, critically reviewing the progress made in the past few years to advance breath research.

Key scientific concepts of review: VOCs are a set of metabolites that can be sampled in exhaled breath to act as advantageous biomarkers in a variety of clinical contexts.

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将呼出气体中的挥发性代谢物开发为生物标记物平台的进展与挑战。
背景:体内生理过程产生的多种代谢物可作为有价值的生物标记物用于多种临床目的。它们可以为了解健康和疾病的相关代谢途径提供一个窗口,还可以作为候选治疗靶点。这些在人体内产生的代谢物中有一部分是挥发性的,被称为挥发性有机化合物(VOC),可以在呼出的气体中检测到。这些挥发性有机化合物可从其源头扩散到全身各处,进入血液,并在肺部与空气交换。因此,呼出气体挥发性有机化合物分析已成为生物医学研究的一个重点,希望利用呼气采样的非侵入性和短时间内快速采集的特点,转化出新的有用生物标记物。尽管呼气分析有望成为代谢组学分析的另一个平台,但截至本综述撰写之时,尚未有任何挥发性有机化合物呼气生物标记物成功应用于临床:本综述旨在总结在解决包括标准化在内的主要方法挑战方面所取得的进展,这些挑战一直限制着挥发性有机化合物呼气生物标记物向临床的转化。我们强调了在新的和正在进行的呼气研究中可以采取哪些措施来改善这些问题,以促进呼气中的挥发性有机化合物作为候选生物标记物的可靠来源的成功开发。我们还重点介绍了近期一些领域的重要文献,对过去几年在推动呼气研究方面取得的进展进行了批判性回顾:挥发性有机化合物是一组可在呼出气体中采样的代谢物,可在各种临床环境中作为有利的生物标记物。
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来源期刊
Metabolomics
Metabolomics 医学-内分泌学与代谢
CiteScore
6.60
自引率
2.80%
发文量
84
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.
期刊最新文献
Multiplatform metabolomic interlaboratory study of a whole human stool candidate reference material from omnivore and vegan donors. Sex-bias metabolism of fetal organs, and their relationship to the regulation of fetal brain-placental axis. Identification of novel hypertension biomarkers using explainable AI and metabolomics. Association of urinary volatile organic compounds and chronic kidney disease in patients with diabetes: real-world evidence from the NHANES. Investigation of the reproducibility of the treatment efficacy of a commercial bio stimulant using metabolic profiling on flax.
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