Norwich Medical School, University of East Anglia, Norwich Research Park, Norwich, NR4 7TJ, UK.
Division of Infection, Immunity and Respiratory Medicine, School of Biological Sciences, The University of Manchester; Manchester Academic Health Science Centre and NIHR Manchester Biomedical Research Centre, Manchester University Hospitals NHS Foundation Trust, Manchester, UK.
Respir Med. 2020 Aug;169:105984. doi: 10.1016/j.rmed.2020.105984. Epub 2020 May 16.
Metabolomics refers to study of the metabolome, the entire set of metabolites produced by a biological system. The application of metabolomics to exhaled breath samples - breathomics - is a rapidly growing field with potential application to asthma diagnosis and management.
We aimed to review the adult asthma breathomic literature and present a comprehensive list of volatile organic compounds identified by asthma breathomic models.
We undertook a systematic search for literature on exhaled volatile organic compounds in adult asthma. We assessed the quality of studies and performed a qualitative synthesis.
We identified twenty studies; these were methodologically heterogenous with a variable risk of bias. Studies almost universally reported breathomics to be capable of differentiating - with moderate or greater accuracy - between samples from healthy controls and those with asthma; and to be capable of phenotyping disease. However, there was little concordance in the compounds upon which discriminatory models were based.
Results to-date are promising but validation in independent prospective cohorts is needed. This may be challenging given the high levels of inter-individual variation. However, large-scale, multi-centre studies are underway and validation efforts have been aided by the publication of technical standards likely to increase inter-study comparability. Successful validation of breathomic models for diagnosis and phenotyping would constitute an important step towards personalised medicine in asthma.
代谢组学是指对代谢组的研究,即生物系统产生的全部代谢物。代谢组学在呼出气样本中的应用——呼出气组学,是一个快速发展的领域,具有应用于哮喘诊断和管理的潜力。
我们旨在综述成人哮喘呼出气组学文献,并列出哮喘呼出气组学模型所鉴定的挥发性有机化合物的综合清单。
我们对成人哮喘呼出气挥发性有机化合物的文献进行了系统检索。我们评估了研究的质量并进行了定性综合。
我们确定了二十项研究;这些研究在方法学上存在异质性,存在不同程度的偏倚风险。研究几乎普遍报告呼出气组学能够以中等或更高的准确性区分健康对照者和哮喘患者的样本;并且能够对疾病进行表型分析。然而,基于区分模型的化合物之间几乎没有一致性。
迄今为止的结果是有希望的,但需要在独立的前瞻性队列中进行验证。鉴于个体间的高度变异性,这可能具有挑战性。然而,正在进行大规模的多中心研究,并且技术标准的发布有助于验证工作,这些标准可能会提高研究间的可比性。成功验证用于诊断和表型分析的呼出气组学模型将是哮喘个体化医学的重要一步。