Produção Nacional
Revisado por pares
Covid-19 Automated Diagnosis and Risk Assessment through Metabolomics and Machine Learning
2021; American Chemical Society; Volume: 93; Issue: 4 Linguagem: Inglês
10.1021/acs.analchem.0c04497
ISSN1520-6882
AutoresJeany Delafiori, Luiz Cláudio Navarro, Rinaldo Focaccia Siciliano, Gisely Cardoso de Melo, Estela Natacha Brandt Busanello, José Carlos Nicolau, Geovana Manzan Sales, Arthur Noin de Oliveira, Fernando Val, Diogo Noin de Oliveira, Adriana Eguti, Luiz Augusto dos Santos, Talia Falcão Dalçóquio, Adriadne Justi Bertolin, Rebeca Linhares Abreu Netto, Rocío Salsoso, Djane Clarys Baía-da-Silva, Fabiana G. Marcondes‐Braga, Vanderson de Souza Sampaio, Carla C. Judice, Fábio Trindade Maranhão Costa, Nelsón Durán, Maurício Wesley Perroud, Éster Cerdeira Sabino, Marcus Lacerda, Leonardo Oliveira Reis, Wagner José Fávaro, Wuelton Marcelo Monteiro, Anderson R. Rocha, Rodrigo Ramos Catharino,
Tópico(s)SARS-CoV-2 detection and testing
ResumoCOVID-19 is still placing a heavy health and financial burden worldwide. Impairment in patient screening and risk management plays a fundamental role on how governments and authorities are directing resources, planning reopening, as well as sanitary countermeasures, especially in regions where poverty is a major component in the equation. An efficient diagnostic method must be highly accurate, while having a cost-effective profile. We combined a machine learning-based algorithm with mass spectrometry to create an expeditious platform that discriminate COVID-19 in plasma samples within minutes, while also providing tools for risk assessment, to assist healthcare professionals in patient management and decision-making. A cross-sectional study enrolled 815 patients (442 COVID-19, 350 controls and 23 COVID-19 suspicious) from three Brazilian epicenters from April to July 2020. We were able to elect and identify 19 molecules related to the disease's pathophysiology and several discriminating features to patient's health-related outcomes. The method applied for COVID-19 diagnosis showed specificity >96% and sensitivity >83%, and specificity >80% and sensitivity >85% during risk assessment, both from blinded data. Our method introduced a new approach for COVID-19 screening, providing the indirect detection of infection through metabolites and contextualizing the findings with the disease's pathophysiology. The pairwise analysis of biomarkers brought robustness to the model developed using machine learning algorithms, transforming this screening approach in a tool with great potential for real-world application.
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