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Cascaded Deep Convolutional Neural Networks as Improved Methods of Preprocessing Raman Spectroscopy Data

Mohammadrahim Kazemzadeh, Miguel Martínez-Calderón, Wei Xu, Lawrence W. Chamley, Colin L. Hisey, Neil G. R. Broderick

2022Analytical Chemistry76 citationsDOI

Abstract

Machine learning has had a significant impact on the value of spectroscopic characterization tools, particularly in biomedical applications, due to its ability to detect latent patterns within complex spectral data. However, it often requires extensive data preprocessing, including baseline correction and denoising, which can lead to an unintentional bias during classification. To address this, we developed two deep learning methods capable of fully preprocessing raw Raman spectroscopy data without any human input. First, cascaded deep convolutional neural networks (CNN) based on either ResNet or U-Net architectures were trained on randomly generated spectra with augmented defects. Then, they were tested using simulated Raman spectra, surface-enhanced Raman spectroscopy (SERS) imaging of chemical species, low resolution Raman spectra of human bladder cancer tissue, and finally, classification of SERS spectra from human placental extracellular vesicles (EVs). Both approaches resulted in faster training and complete spectral preprocessing in a single step, with more speed, defect tolerance, and classification accuracy compared to conventional methods. These findings indicate that cascaded CNN preprocessing is ideal for biomedical Raman spectroscopy applications in which large numbers of heterogeneous spectra with diverse defects need to be automatically, rapidly, and reproducibly preprocessed.

Topics & Concepts

Raman spectroscopyPreprocessorArtificial intelligenceConvolutional neural networkPattern recognition (psychology)ChemistryDeep learningSurface-enhanced Raman spectroscopyPrincipal component analysisComputer scienceData pre-processingSpectroscopyBiological systemRaman scatteringOpticsPhysicsBiologyQuantum mechanicsSpectroscopy Techniques in Biomedical and Chemical ResearchSpectroscopy and Chemometric AnalysesThermography and Photoacoustic Techniques
Cascaded Deep Convolutional Neural Networks as Improved Methods of Preprocessing Raman Spectroscopy Data | Litcius