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Mass spectrometry combined with machine learning identifies novel protein signatures as demonstrated with multisystem inflammatory syndrome in children
Mass spectrometry combined with machine learning identifies novel protein signatures as demonstrated with multisystem inflammatory syndrome in children
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Mass spectrometry combined with machine learning identifies novel protein signatures as demonstrated with multisystem inflammatory syndrome in children
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Mass spectrometry combined with machine learning identifies novel protein signatures as demonstrated with multisystem inflammatory syndrome in children
Mass spectrometry combined with machine learning identifies novel protein signatures as demonstrated with multisystem inflammatory syndrome in children

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Mass spectrometry combined with machine learning identifies novel protein signatures as demonstrated with multisystem inflammatory syndrome in children
Mass spectrometry combined with machine learning identifies novel protein signatures as demonstrated with multisystem inflammatory syndrome in children
Journal Article

Mass spectrometry combined with machine learning identifies novel protein signatures as demonstrated with multisystem inflammatory syndrome in children

2025
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Overview
Rapid and accurate diagnosis of emerging inflammatory illnesses is challenging due to overlapping clinical features with existing conditions. We demonstrate an approach that integrates proteomic analysis with machine learning to identify diagnostic protein signatures, using the example of SARS-CoV-2-induced multisystem inflammatory syndrome in children (MIS-C). We used plasma samples collected from subjects diagnosed with MIS-C and compared them first to controls with asymptomatic/mild SARS-CoV-2 infection and then to controls with pneumonia or Kawasaki disease. We used mass spectrometry to identify proteins and support vector machine (SVM) algorithm-based classification schemes to identify protein signatures. Diagnostic accuracy was assessed by calculating sensitivity, specificity, and area under the ROC curve (AUC), and corrected for overfitting by cross-validation. Proteomic analysis of a training dataset containing MIS-C (N = 17), and asymptomatic/mild SARS-CoV-2 infected control samples (N = 20) identified 643 proteins, of which 101 were differentially expressed. Plasma proteins associated with inflammation increased, and those associated with metabolism and coagulation decreased in MIS-C relative to controls. The SVM machine learning algorithm identified a three-protein model (ORM1, AZGP1, SERPINA3) that achieved 90.0% specificity, 88.2% sensitivity, and 93.5% AUC, distinguishing MIS-C from controls in the training set. Performance was retained in the validation dataset utilizing MIS-C (N = 19) and asymptomatic/mild SARS-CoV-2 infected control samples (N = 10) (90.0% specificity, 84.2% sensitivity, 87.4% AUC). We next replicated our approach to compare MIS-C with similarly presenting syndromes, such as pneumonia (N = 17) and Kawasaki disease (N = 13), and found a distinct three-protein signature (VWF, FCGBP, and SERPINA3) that accurately distinguished MIS-C from the other conditions (97.5% specificity, 89.5% sensitivity, 95.6% AUC). A software tool was also developed that may be used to evaluate other protein signatures using our data. These results demonstrate that the use of mass spectrometry to identify candidate plasma proteins followed by machine learning, specifically SVM, is an efficient strategy for identifying and evaluating biomarker signatures for disease classification.