Towards Accurate Identification of Antibiotic-Resistant Pathogens through the Ensemble of Multiple Preprocessing Methods Based on MALDI-TOF Spectra

Matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry (MS) has been used to identify microorganisms and predict antibiotic resistance. The preprocessing method for the MS spectrum is key to extracting critical information from complicated MS spectral data. Differen...

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Veröffentlicht in:	International journal of molecular sciences 2023-01, Vol.24 (2), p.998
Hauptverfasser:	Chung, Chia-Ru, Wang, Hsin-Yao, Chou, Po-Han, Wu, Li-Ching, Lu, Jang-Jih, Horng, Jorng-Tzong, Lee, Tzong-Yi
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Sprache:	eng
Schlagworte:	Accuracy Acinetobacter baumannii - chemistry Acinetobacter Infections Algorithms Anti-Bacterial Agents - pharmacology Antibiotic resistance Antibiotics Bacteria Bacterial infections Bayes Theorem Bayesian analysis Classification Continuous wavelet transform Drug resistance Feature selection Health care facilities Humans Ions Laboratories Machine learning Mass spectrometry Mass spectroscopy Methods Microorganisms Open source software Peptides Prediction models Preprocessing Spectra Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods Support vector machines Wavelet transforms
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description	Matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry (MS) has been used to identify microorganisms and predict antibiotic resistance. The preprocessing method for the MS spectrum is key to extracting critical information from complicated MS spectral data. Different preprocessing methods yield different data, and the optimal approach is unclear. In this study, we adopted an ensemble of multiple preprocessing methods--FlexAnalysis, MALDIquant, and continuous wavelet transform-based methods--to detect peaks and build machine learning classifiers, including logistic regressions, naïve Bayes classifiers, random forests, and a support vector machine. The aim was to identify antibiotic resistance in , , , and Group B (GBS) based on MALDI-TOF MS spectra collected from two branches of a referral tertiary medical center. The ensemble method was compared with the individual methods. Random forest models built with the data preprocessed by the ensemble method outperformed individual preprocessing methods and achieved the highest accuracy, with values of 84.37% ( ), 90.96% ( ), 78.54% ( ), and 70.12% (GBS) on independent testing datasets. Through feature selection, important peaks related to antibiotic resistance could be detected from integrated information. The prediction model can provide an opinion for clinicians. The discriminative peaks enabling better prediction performance can provide a reference for further investigation of the resistance mechanism.
doi_str_mv	10.3390/ijms24020998
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The preprocessing method for the MS spectrum is key to extracting critical information from complicated MS spectral data. Different preprocessing methods yield different data, and the optimal approach is unclear. In this study, we adopted an ensemble of multiple preprocessing methods--FlexAnalysis, MALDIquant, and continuous wavelet transform-based methods--to detect peaks and build machine learning classifiers, including logistic regressions, naïve Bayes classifiers, random forests, and a support vector machine. The aim was to identify antibiotic resistance in , , , and Group B (GBS) based on MALDI-TOF MS spectra collected from two branches of a referral tertiary medical center. The ensemble method was compared with the individual methods. Random forest models built with the data preprocessed by the ensemble method outperformed individual preprocessing methods and achieved the highest accuracy, with values of 84.37% ( ), 90.96% ( ), 78.54% ( ), and 70.12% (GBS) on independent testing datasets. Through feature selection, important peaks related to antibiotic resistance could be detected from integrated information. The prediction model can provide an opinion for clinicians. 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The preprocessing method for the MS spectrum is key to extracting critical information from complicated MS spectral data. Different preprocessing methods yield different data, and the optimal approach is unclear. In this study, we adopted an ensemble of multiple preprocessing methods--FlexAnalysis, MALDIquant, and continuous wavelet transform-based methods--to detect peaks and build machine learning classifiers, including logistic regressions, naïve Bayes classifiers, random forests, and a support vector machine. The aim was to identify antibiotic resistance in , , , and Group B (GBS) based on MALDI-TOF MS spectra collected from two branches of a referral tertiary medical center. The ensemble method was compared with the individual methods. 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subjects	Accuracy Acinetobacter baumannii - chemistry Acinetobacter Infections Algorithms Anti-Bacterial Agents - pharmacology Antibiotic resistance Antibiotics Bacteria Bacterial infections Bayes Theorem Bayesian analysis Classification Continuous wavelet transform Drug resistance Feature selection Health care facilities Humans Ions Laboratories Machine learning Mass spectrometry Mass spectroscopy Methods Microorganisms Open source software Peptides Prediction models Preprocessing Spectra Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods Support vector machines Wavelet transforms
title	Towards Accurate Identification of Antibiotic-Resistant Pathogens through the Ensemble of Multiple Preprocessing Methods Based on MALDI-TOF Spectra
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