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Modular Point-of-Care Breath Analyzer and Shape Taxonomy-Based Machine Learning for Gastric Cancer Detection.
Polaka, Inese; Bhandari, Manohar Prasad; Mezmale, Linda; Anarkulova, Linda; Veliks, Viktors; Sivins, Armands; Lescinska, Anna Marija; Tolmanis, Ivars; Vilkoite, Ilona; Ivanovs, Igors; Padilla, Marta; Mitrovics, Jan; Shani, Gidi; Haick, Hossam; Leja, Marcis.
Afiliação
  • Polaka I; Institute of Clinical and Preventive Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Bhandari MP; Institute of Clinical and Preventive Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Mezmale L; Institute of Clinical and Preventive Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Anarkulova L; Riga East University Hospital, LV-1038 Riga, Latvia.
  • Veliks V; Faculty of Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Sivins A; Institute of Clinical and Preventive Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Lescinska AM; Liepaja Regional Hospital, LV-3414 Liepaja, Latvia.
  • Tolmanis I; Faculty of Residency, Riga Stradins University, LV-1007 Riga, Latvia.
  • Vilkoite I; Institute of Clinical and Preventive Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Ivanovs I; Institute of Clinical and Preventive Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Padilla M; Riga East University Hospital, LV-1038 Riga, Latvia.
  • Mitrovics J; Institute of Clinical and Preventive Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Shani G; Riga East University Hospital, LV-1038 Riga, Latvia.
  • Haick H; Faculty of Medicine, University of Latvia, LV-1586 Riga, Latvia.
  • Leja M; Digestive Diseases Center GASTRO, LV-1079 Riga, Latvia.
Diagnostics (Basel) ; 12(2)2022 Feb 14.
Article em En | MEDLINE | ID: mdl-35204584
BACKGROUND: Gastric cancer is one of the deadliest malignant diseases, and the non-invasive screening and diagnostics options for it are limited. In this article, we present a multi-modular device for breath analysis coupled with a machine learning approach for the detection of cancer-specific breath from the shapes of sensor response curves (taxonomies of clusters). METHODS: We analyzed the breaths of 54 gastric cancer patients and 85 control group participants. The analysis was carried out using a breath analyzer with gold nanoparticle and metal oxide sensors. The response of the sensors was analyzed on the basis of the curve shapes and other features commonly used for comparison. These features were then used to train machine learning models using Naïve Bayes classifiers, Support Vector Machines and Random Forests. RESULTS: The accuracy of the trained models reached 77.8% (sensitivity: up to 66.54%; specificity: up to 92.39%). The use of the proposed shape-based features improved the accuracy in most cases, especially the overall accuracy and sensitivity. CONCLUSIONS: The results show that this point-of-care breath analyzer and data analysis approach constitute a promising combination for the detection of gastric cancer-specific breath. The cluster taxonomy-based sensor reaction curve representation improved the results, and could be used in other similar applications.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Diagnostic_studies Idioma: En Revista: Diagnostics (Basel) Ano de publicação: 2022 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Diagnostic_studies Idioma: En Revista: Diagnostics (Basel) Ano de publicação: 2022 Tipo de documento: Article