Literature DB >> 26819529

Diagnosing gastrointestinal illnesses using fecal headspace volatile organic compounds.

Daniel K Chan1, Cadman L Leggett1, Kenneth K Wang1.   

Abstract

Volatile organic compounds (VOCs) emitted from stool are the components of the smell of stool representing the end products of microbial activity and metabolism that can be used to diagnose disease. Despite the abundance of hydrogen, carbon dioxide, and methane that have already been identified in human flatus, the small portion of trace gases making up the VOCs emitted from stool include organic acids, alcohols, esters, heterocyclic compounds, aldehydes, ketones, and alkanes, among others. These are the gases that vary among individuals in sickness and in health, in dietary changes, and in gut microbial activity. Electronic nose devices are analytical and pattern recognition platforms that can utilize mass spectrometry or electrochemical sensors to detect these VOCs in gas samples. When paired with machine-learning and pattern recognition algorithms, this can identify patterns of VOCs, and thus patterns of smell, that can be used to identify disease states. In this review, we provide a clinical background of VOC identification, electronic nose development, and review gastroenterology applications toward diagnosing disease by the volatile headspace analysis of stool.

Entities:  

Keywords:  Electronic nose; Feces; Mass spectrometry; Odors; Volatile organic compounds

Mesh:

Substances:

Year:  2016        PMID: 26819529      PMCID: PMC4721995          DOI: 10.3748/wjg.v22.i4.1639

Source DB:  PubMed          Journal:  World J Gastroenterol        ISSN: 1007-9327            Impact factor:   5.742


  51 in total

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7.  Volatile organic compounds from feces and their potential for diagnosis of gastrointestinal disease.

Authors:  Catherine E Garner; Stephen Smith; Ben de Lacy Costello; Paul White; Robert Spencer; Chris S J Probert; Norman M Ratcliffe
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2.  Effects of Sampling Conditions and Environmental Factors on Fecal Volatile Organic Compound Analysis by an Electronic Nose Device.

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6.  Nonhuman primate breath volatile organic compounds associate with developmental programming and cardio-metabolic status.

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7.  Smell - Adding a New Dimension to Urinalysis.

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8.  Monitoring the Reaction of the Body State to Antibiotic Treatment against Helicobacter pylori via Infrared Spectroscopy: A Case Study.

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Review 9.  Machine Learning in Human Olfactory Research.

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10.  Optimized Sampling Conditions for Fecal Volatile Organic Compound Analysis by Means of Field Asymmetric Ion Mobility Spectrometry.

Authors:  Sofie Bosch; Sofia El Manouni El Hassani; James A Covington; Alfian N Wicaksono; Marije K Bomers; Marc A Benninga; Chris J J Mulder; Nanne K H de Boer; Tim G J de Meij
Journal:  Anal Chem       Date:  2018-06-15       Impact factor: 6.986
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