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Rapid bacterial identification through volatile organic compound analysis and deep learning
Rapid bacterial identification through volatile organic compound analysis and deep learning
by Yan, Bowen , Lu, Yanyi , Lu, Weiping , Li, Min , He, Qinghua , Zeng, Lin , Zhou, Bangfu
in Accuracy / Alexnet / Algorithms / Analysis / Antibiotics / Antimicrobial resistance / Bacteria / Bacteria - classification / Bacteria - isolation & purification / Bacterial infections / Bioengineering / Bioinformatics / Biomedical and Life Sciences / Chemistry, Analytic / Chromatography / Classification / Clinical medicine / Computational Biology/Bioinformatics / Computational linguistics / Computer Appl. in Life Sciences / Data mining / Deep Learning / Drug resistance in microorganisms / E coli / Food safety / GC-IMS / Humans / Identification / Identification and classification / Impact resistance / Infections / Laboratories / Language processing / Life Sciences / Machine learning / Mass spectrometry / Methicillin / Methods / Microarrays / Microorganisms / Molecular biology / Natural language interfaces / Neural networks / Risk factors / Scientific imaging / Support vector machines / VOCs / Volatile organic compounds / Volatile Organic Compounds - analysis
2024
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Rapid bacterial identification through volatile organic compound analysis and deep learning
by Yan, Bowen , Lu, Yanyi , Lu, Weiping , Li, Min , He, Qinghua , Zeng, Lin , Zhou, Bangfu
in Accuracy / Alexnet / Algorithms / Analysis / Antibiotics / Antimicrobial resistance / Bacteria / Bacteria - classification / Bacteria - isolation & purification / Bacterial infections / Bioengineering / Bioinformatics / Biomedical and Life Sciences / Chemistry, Analytic / Chromatography / Classification / Clinical medicine / Computational Biology/Bioinformatics / Computational linguistics / Computer Appl. in Life Sciences / Data mining / Deep Learning / Drug resistance in microorganisms / E coli / Food safety / GC-IMS / Humans / Identification / Identification and classification / Impact resistance / Infections / Laboratories / Language processing / Life Sciences / Machine learning / Mass spectrometry / Methicillin / Methods / Microarrays / Microorganisms / Molecular biology / Natural language interfaces / Neural networks / Risk factors / Scientific imaging / Support vector machines / VOCs / Volatile organic compounds / Volatile Organic Compounds - analysis
2024
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Rapid bacterial identification through volatile organic compound analysis and deep learning
Rapid bacterial identification through volatile organic compound analysis and deep learning
by Yan, Bowen , Lu, Yanyi , Lu, Weiping , Li, Min , He, Qinghua , Zeng, Lin , Zhou, Bangfu
in Accuracy / Alexnet / Algorithms / Analysis / Antibiotics / Antimicrobial resistance / Bacteria / Bacteria - classification / Bacteria - isolation & purification / Bacterial infections / Bioengineering / Bioinformatics / Biomedical and Life Sciences / Chemistry, Analytic / Chromatography / Classification / Clinical medicine / Computational Biology/Bioinformatics / Computational linguistics / Computer Appl. in Life Sciences / Data mining / Deep Learning / Drug resistance in microorganisms / E coli / Food safety / GC-IMS / Humans / Identification / Identification and classification / Impact resistance / Infections / Laboratories / Language processing / Life Sciences / Machine learning / Mass spectrometry / Methicillin / Methods / Microarrays / Microorganisms / Molecular biology / Natural language interfaces / Neural networks / Risk factors / Scientific imaging / Support vector machines / VOCs / Volatile organic compounds / Volatile Organic Compounds - analysis
2024

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Rapid bacterial identification through volatile organic compound analysis and deep learning
Rapid bacterial identification through volatile organic compound analysis and deep learning
Journal Article

Rapid bacterial identification through volatile organic compound analysis and deep learning

Yan, Bowen,
Lu, Yanyi,
Lu, Weiping,
Li, Min,
He, Qinghua,
Zeng, Lin,
Zhou, Bangfu
2024
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Overview
Background The increasing antimicrobial resistance caused by the improper use of antibiotics poses a significant challenge to humanity. Rapid and accurate identification of microbial species in clinical settings is crucial for precise medication and reducing the development of antimicrobial resistance. This study aimed to explore a method for automatic identification of bacteria using Volatile Organic Compounds (VOCs) analysis and deep learning algorithms. Results AlexNet, where augmentation is applied, produces the best results. The average accuracy rate for single bacterial culture classification reached 99.24% using cross-validation, and the accuracy rates for identifying the three bacteria in randomly mixed cultures were SA:98.6%, EC:98.58% and PA:98.99%, respectively. Conclusion This work provides a new approach to quickly identify bacterial microorganisms. Using this method can automatically identify bacteria in GC-IMS detection results, helping clinical doctors quickly detect bacterial species, accurately prescribe medication, thereby controlling epidemics, and minimizing the negative impact of bacterial resistance on society.
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Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject

Accuracy

/ Alexnet

/ Algorithms

/ Analysis

/ Antibiotics

/ Antimicrobial resistance

/ Bacteria

/ Bacteria - classification

/ Bacteria - isolation & purification

/ Bacterial infections

/ Bioengineering

/ Bioinformatics

/ Biomedical and Life Sciences

/ Chemistry, Analytic

/ Chromatography

/ Classification

/ Clinical medicine

/ Computational Biology/Bioinformatics

/ Computational linguistics

/ Computer Appl. in Life Sciences

/ Data mining

/ Deep Learning

/ Drug resistance in microorganisms

/ E coli

/ Food safety

/ GC-IMS

/ Humans

/ Identification

/ Identification and classification

/ Impact resistance

/ Infections

/ Laboratories

/ Language processing

/ Life Sciences

/ Machine learning

/ Mass spectrometry

/ Methicillin

/ Methods

/ Microarrays

/ Microorganisms

/ Molecular biology

/ Natural language interfaces

/ Neural networks

/ Risk factors

/ Scientific imaging

/ Support vector machines

/ VOCs

/ Volatile organic compounds

/ Volatile Organic Compounds - analysis

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