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« Previous Abstract"Collecting Nontarget Wood-Boring Insects for Host-Specificity Testing of Natural Enemies of Cerambycids: A Case Study of Dastarcus helophoroides (Coleoptera: Bothrideridae), a Parasitoid of the Asian Longhorned Beetle (Coleoptera: Cerambycidae)"    Next AbstractHyphenated Mass Spectrometry versus Real-Time Mass Spectrometry Techniques for the Detection of Volatile Compounds from the Human Body »

J Breath Res


Title:Assessment of a combined gas chromatography mass spectrometer sensor system for detecting biologically relevant volatile compounds
Author(s):Gould O; Wieczorek T; de Lacy Costello B; Persad R; Ratcliffe N;
Address:"Institute of Biosensor Technology, University of the West of England, Coldharbour Lane, Frenchay, Bristol, BS16 1QY, United Kingdom"
Journal Title:J Breath Res
Year:2017
Volume:20171206
Issue:1
Page Number:16009 -
DOI: 10.1088/1752-7163/aa8efe
ISSN/ISBN:1752-7163 (Electronic) 1752-7155 (Linking)
Abstract:"There have been a number of studies in which metal oxide sensors (MOS) have replaced conventional analytical detectors in gas chromatography systems. However, despite the use of these instruments in a range of applications including breath research the sensor responses (i.e. resistance changes w.r.t. concentration of VCs) remain largely unreported. This paper addresses that issue by comparing the response of a metal oxide sensor directly with a mass spectrometer (MS), whereby both detectors are interfaced to the same GC column using an s-swafer. It was demonstrated that the sensitivity of an in-house fabricated ZnO/SnO(2) thick film MOS was superior to a modern MS for the detection of a wide range of volatile compounds (VCs) of different functionalities and masses. Better techniques for detection and quantification of these VCs is valuable, as many of these compounds are commonly reported throughout the scientific literature. This is also the first published report of a combined GC-MS sensor system. These two different detector technologies when combined, should enhance discriminatory abilities to aid disease diagnoses using volatiles from e.g. breath, and bodily fluids. Twenty-nine chemical standards have been tested using solid phase micro-extraction; 25 of these compounds are found on human breath. In all but two instances the sensor exhibited the same or superior limit of detection compared to the MS. Twelve stool samples from healthy participants were analysed; the sensor detected, on average 1.6 peaks more per sample than the MS. Similarly, analysing the headspace of E. coli broth cultures the sensor detected 6.9 more peaks per sample versus the MS. This greater sensitivity is primarily a function of the superior limits of detection of the metal oxide sensor. This shows that systems based on the combination of chromatography systems with solid state sensors shows promise for a range of applications"
Keywords:Escherichia coli/isolation & purification Feces/chemistry Gas Chromatography-Mass Spectrometry/*instrumentation/*methods Humans Limit of Detection Metals/chemistry Oxides/chemistry Reference Standards Semiconductors Solutions Volatile Organic Compounds/*a;
Notes:"MedlineGould, Oliver Wieczorek, Tom de Lacy Costello, Ben Persad, Raj Ratcliffe, Norman eng England 2017/12/07 J Breath Res. 2017 Dec 6; 12(1):016009. doi: 10.1088/1752-7163/aa8efe"

 
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