AI Article Synopsis
- Mass spectrometric profiling reveals the protein and metabolic composition of biological samples, but current computational methods struggle to accurately correlate spectra to molecular components, limiting its use in classifying diseases.
- The study explores machine learning, specifically 1D and 3D convolutional neural networks (CNNs), to analyze raw mass spectrometry data directly for cancer classification, achieving a high accuracy of 0.95 in distinguishing between various cancer phenotypes and healthy individuals.
- The neural networks demonstrated the ability to classify cancer types and assess their similarities, paving the way for more efficient identification of complex biological data without traditional preprocessing hurdles.
Article Abstract
Mass spectrometric profiling provides information on the protein and metabolic composition of biological samples. However, the weak efficiency of computational algorithms in correlating tandem spectra to molecular components (proteins and metabolites) dramatically limits the use of "omics" profiling for the classification of nosologies. The development of machine learning methods for the intelligent analysis of raw mass spectrometric (HPLC-MS/MS) measurements without involving the stages of preprocessing and data identification seems promising. In our study, we tested the application of neural networks of two types, a 1D residual convolutional neural network (CNN) and a 3D CNN, for the classification of three cancers by analyzing metabolomic-proteomic HPLC-MS/MS data. In this work, we showed that both neural networks could classify the phenotypes of gender-mixed oncology, kidney cancer, gender-specific oncology, ovarian cancer, and the phenotype of a healthy person by analyzing 'omics' data in 'mgf' data format. The created models effectively recognized oncopathologies with a model accuracy of 0.95. Information was obtained on the remoteness of the studied phenotypes. The closest in the experiment were ovarian cancer, kidney cancer, and prostate cancer/kidney cancer. In contrast, the healthy phenotype was the most distant from cancer phenotypes and ovarian and prostate cancers. The neural network makes it possible to not only classify the studied phenotypes, but also to determine their similarity (distance matrix), thus overcoming algorithmic barriers in identifying HPLC-MS/MS spectra. Neural networks are versatile and can be applied to standard experimental data formats obtained using different analytical platforms.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8707435 | PMC |
| http://dx.doi.org/10.3390/jpm11121288 | DOI Listing |
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