Applications of Electronic-Nose Technologies for Noninvasive Early Detection of Plant, Animal and Human Diseases

The development of electronic-nose (e-nose) technologies for disease diagnostics was initiated in the biomedical field for detection of biotic (microbial) causes of human diseases during the mid-1980s. The use of e-nose devices for disease-diagnostic applications subsequently was extended to plant a...

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Main Author: Alphus Dan Wilson
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Chemosensors
Subjects:
Online Access:http://www.mdpi.com/2227-9040/6/4/45
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spelling doaj-3d8aa089c3bb403b94ba4ab6115ef8e52020-11-24T20:41:33ZengMDPI AGChemosensors2227-90402018-10-01644510.3390/chemosensors6040045chemosensors6040045Applications of Electronic-Nose Technologies for Noninvasive Early Detection of Plant, Animal and Human DiseasesAlphus Dan Wilson0Southern Hardwoods Laboratory, Pathology Department, Center for Bottomland Hardwoods Research, Southern Research Station, USDA Forest Service, 432 Stoneville Road, Stoneville, MS 38776, USAThe development of electronic-nose (e-nose) technologies for disease diagnostics was initiated in the biomedical field for detection of biotic (microbial) causes of human diseases during the mid-1980s. The use of e-nose devices for disease-diagnostic applications subsequently was extended to plant and animal hosts through the invention of new gas-sensing instrument types and disease-detection methods with sensor arrays developed and adapted for additional host types and chemical classes of volatile organic compounds (VOCs) closely associated with individual diseases. Considerable progress in animal disease detection using e-noses in combination with metabolomics has been accomplished in the field of veterinary medicine with new important discoveries of biomarker metabolites and aroma profiles for major infectious diseases of livestock, wildlife, and fish from both terrestrial and aquaculture pathology research. Progress in the discovery of new e-nose technologies developed for biomedical applications has exploded with new information and methods for diagnostic sampling and disease detection, identification of key chemical disease biomarkers, improvements in sensor designs, algorithms for discriminant analysis, and greater, more widespread testing of efficacy in clinical trials. This review summarizes progressive advancements in utilizing these specialized gas-sensing devices for numerous diagnostic applications involving noninvasive early detections of plant, animal, and human diseases.http://www.mdpi.com/2227-9040/6/4/45bat white-nose syndromediagnostic pathologydisease biomarker metaboliteselectronic aroma detectione-noseearly disease diagnosishuman diseases
collection DOAJ
language English
format Article
sources DOAJ
author Alphus Dan Wilson
spellingShingle Alphus Dan Wilson
Applications of Electronic-Nose Technologies for Noninvasive Early Detection of Plant, Animal and Human Diseases
Chemosensors
bat white-nose syndrome
diagnostic pathology
disease biomarker metabolites
electronic aroma detection
e-nose
early disease diagnosis
human diseases
author_facet Alphus Dan Wilson
author_sort Alphus Dan Wilson
title Applications of Electronic-Nose Technologies for Noninvasive Early Detection of Plant, Animal and Human Diseases
title_short Applications of Electronic-Nose Technologies for Noninvasive Early Detection of Plant, Animal and Human Diseases
title_full Applications of Electronic-Nose Technologies for Noninvasive Early Detection of Plant, Animal and Human Diseases
title_fullStr Applications of Electronic-Nose Technologies for Noninvasive Early Detection of Plant, Animal and Human Diseases
title_full_unstemmed Applications of Electronic-Nose Technologies for Noninvasive Early Detection of Plant, Animal and Human Diseases
title_sort applications of electronic-nose technologies for noninvasive early detection of plant, animal and human diseases
publisher MDPI AG
series Chemosensors
issn 2227-9040
publishDate 2018-10-01
description The development of electronic-nose (e-nose) technologies for disease diagnostics was initiated in the biomedical field for detection of biotic (microbial) causes of human diseases during the mid-1980s. The use of e-nose devices for disease-diagnostic applications subsequently was extended to plant and animal hosts through the invention of new gas-sensing instrument types and disease-detection methods with sensor arrays developed and adapted for additional host types and chemical classes of volatile organic compounds (VOCs) closely associated with individual diseases. Considerable progress in animal disease detection using e-noses in combination with metabolomics has been accomplished in the field of veterinary medicine with new important discoveries of biomarker metabolites and aroma profiles for major infectious diseases of livestock, wildlife, and fish from both terrestrial and aquaculture pathology research. Progress in the discovery of new e-nose technologies developed for biomedical applications has exploded with new information and methods for diagnostic sampling and disease detection, identification of key chemical disease biomarkers, improvements in sensor designs, algorithms for discriminant analysis, and greater, more widespread testing of efficacy in clinical trials. This review summarizes progressive advancements in utilizing these specialized gas-sensing devices for numerous diagnostic applications involving noninvasive early detections of plant, animal, and human diseases.
topic bat white-nose syndrome
diagnostic pathology
disease biomarker metabolites
electronic aroma detection
e-nose
early disease diagnosis
human diseases
url http://www.mdpi.com/2227-9040/6/4/45
work_keys_str_mv AT alphusdanwilson applicationsofelectronicnosetechnologiesfornoninvasiveearlydetectionofplantanimalandhumandiseases
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