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Raman spectra‐based deep learning: A tool to identify microbial contamination

Murali Kannan Maruthamuthu, Amir Hossein Raffiee, Denílson Mendes de Oliveira, Arezoo M. Ardekani, Mohit S. Verma

2020MicrobiologyOpen96 citationsDOIOpen Access PDF

Abstract

Deep learning has the potential to enhance the output of in-line, on-line, and at-line instrumentation used for process analytical technology in the pharmaceutical industry. Here, we used Raman spectroscopy-based deep learning strategies to develop a tool for detecting microbial contamination. We built a Raman dataset for microorganisms that are common contaminants in the pharmaceutical industry for Chinese Hamster Ovary (CHO) cells, which are often used in the production of biologics. Using a convolution neural network (CNN), we classified the different samples comprising individual microbes and microbes mixed with CHO cells with an accuracy of 95%-100%. The set of 12 microbes spans across Gram-positive and Gram-negative bacteria as well as fungi. We also created an attention map for different microbes and CHO cells to highlight which segments of the Raman spectra contribute the most to help discriminate between different species. This dataset and algorithm provide a route for implementing Raman spectroscopy for detecting microbial contamination in the pharmaceutical industry.

Topics & Concepts

ContaminationRaman spectroscopyEnvironmental scienceEnvironmental chemistryArtificial intelligenceComputer scienceChemistryBiologyOpticsEcologyPhysicsSpectroscopy Techniques in Biomedical and Chemical ResearchSpectroscopy and Chemometric AnalysesBiosensors and Analytical Detection