Abstract
Sampling of volatile organic compounds (VOCs) has shown promise for detection of a range of diseases but results have proved hard to replicate due to a lack of standardization. In this work we introduce the ‘Peppermint Initiative’. The initiative seeks to disseminate a standardized experiment that allows comparison of breath sampling and data analysis methods. Further, it seeks to share a set of benchmark values for the measurement of VOCs in breath. Pilot data are presented to illustrate the standardized approach to the interpretation of results obtained from the Peppermint experiment. This pilot study was conducted to determine the washout profile of peppermint compounds in breath, identify appropriate sampling time points, and formalise the data analysis.Five and ten participants were recruited to undertake a standardized intervention by ingesting a peppermint oil capsule that engenders a predictable and controlled change in the VOC profile in exhaled breath. After collecting a pre-ingestion breath sample, five further samples are taken at 2, 4, 6, 8, and 10 h after ingestion. Samples were analysed using ion mobility spectrometry coupled to multi-capillary column and thermal desorption gas chromatography mass spectrometry. A regression analysis of the washout data was used to determine sampling times for the final peppermint protocol, and the time for the compound measurement to return to baseline levels was selected as a benchmark value. A measure of the quality of the data generated from a given technique is proposed by comparing data fidelity.This study protocol has been used for all subsequent measurements by the Peppermint Consortium (16 partners from seven countries). So far 1200 breath samples from 200 participants using a range of sampling and analytical techniques have been collected. The data from the consortium will be disseminated in subsequent technical notes focussing on results from individual platforms.
Highlights
The analysis of volatile organic compounds (VOCs) in exhaled breath offers a non-invasive method for the discovery of prospective biomarkers with the potential for developing clinical and research applications
While recent appraisals of the success of the Metabolomics Standards Initiative (MSI) suggest that adherence to the minimum reporting standards is lower than expected, and comparative datastewardship from the breath research community is in its infancy, the MSI provides a framework and approach to follow
Identification of peppermint oil related compounds in breath In the preparatory thermal desorption (TD)-gas chromatography mass spectrometry (GC-MS) analysis of breath, eight compounds were attributed to ingestion of a peppermint oil capsule, see table 1
Summary
The analysis of volatile organic compounds (VOCs) in exhaled breath offers a non-invasive method for the discovery of prospective biomarkers with the potential for developing clinical and research applications. Breath biomarkers have been proposed for a range of diseases [2]. Breath research encompasses a wide range of sampling and analytical techniques. Agendas for standardizing different methods (sampling, analytics, reporting) and benchmarking have been described for specific diseases [6]. While recent appraisals of the success of the MSI suggest that adherence to the minimum reporting standards is lower than expected, and comparative datastewardship from the breath research community is in its infancy, the MSI provides a framework and approach to follow
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