TY - JOUR
T1 - The optimization and comparison of two high-throughput faecal headspace sampling platforms
T2 - The Microchamber/Thermal Extractor and Hi-Capacity Sorptive Extraction Probes (HiSorb)
AU - van Vorstenbosch, Robert
AU - Mommers, Alex G R
AU - Pachen, Daniëlle
AU - van Schooten, Frederik Jan
AU - Smolinska, Agnieszka
PY - 2024/4/1
Y1 - 2024/4/1
N2 - Disease detection and monitoring using Volatile Organic Compounds (VOCs) is becoming increasingly popular. For a variety of (gastrointestinal) diseases the microbiome should be considered. As its output is to large extent volatile, faecal volatilomics carries great potential. One technical limitation is that current faecal headspace analysis requires specialized instrumentation which is costly and typically does not work in harmony with Thermal Desorption units often utilized in e.g. exhaled breath studies. This lack of harmonization hinders uptake of such analyses by the Volatilomics community. Therefore, this study optimized and compared two recently harmonized faecal headspace sampling platforms: High-capacity Sorptive extraction (HiSorb) probes and the Microchamber thermal extractor (Microchamber). Statistical Design of Experiment (DOE) was applied to find optimal sampling conditions by maximizing reproducibility, the number of VOCs detected, and between subject variation. To foster general applicability those factors were defined using semi-targeted as well as untargeted metabolic profiles. HiSorb probes were found to result in a faster sampling procedure, higher number of detected VOCs, and higher stability. The headspace collection using the Microchamber resulted in a lower number of detected VOCs, longer sampling times and decreased stability despite a smaller number of interfering VOCs and no background signals. Based on the observed profiles, recommendations are provided on pre-processing and study design when using either one of both platforms. Both can be used to perform faecal headspace collection, but altogether HiSorb is recommended.
AB - Disease detection and monitoring using Volatile Organic Compounds (VOCs) is becoming increasingly popular. For a variety of (gastrointestinal) diseases the microbiome should be considered. As its output is to large extent volatile, faecal volatilomics carries great potential. One technical limitation is that current faecal headspace analysis requires specialized instrumentation which is costly and typically does not work in harmony with Thermal Desorption units often utilized in e.g. exhaled breath studies. This lack of harmonization hinders uptake of such analyses by the Volatilomics community. Therefore, this study optimized and compared two recently harmonized faecal headspace sampling platforms: High-capacity Sorptive extraction (HiSorb) probes and the Microchamber thermal extractor (Microchamber). Statistical Design of Experiment (DOE) was applied to find optimal sampling conditions by maximizing reproducibility, the number of VOCs detected, and between subject variation. To foster general applicability those factors were defined using semi-targeted as well as untargeted metabolic profiles. HiSorb probes were found to result in a faster sampling procedure, higher number of detected VOCs, and higher stability. The headspace collection using the Microchamber resulted in a lower number of detected VOCs, longer sampling times and decreased stability despite a smaller number of interfering VOCs and no background signals. Based on the observed profiles, recommendations are provided on pre-processing and study design when using either one of both platforms. Both can be used to perform faecal headspace collection, but altogether HiSorb is recommended.
KW - Faeces
KW - Gut-Health
KW - Headspace
KW - High-Throughput
KW - Microbiome
KW - Thermal Desorption
KW - Volatile Organic Compounds
U2 - 10.1088/1752-7163/ad2002
DO - 10.1088/1752-7163/ad2002
M3 - Article
SN - 1752-7155
VL - 18
JO - Journal of Breath Research
JF - Journal of Breath Research
IS - 2
M1 - 026007
ER -