Monitoring the Epidemiology of Otitis Using Free-Text Pediatric Medical Notes: A Deep Learning Approach
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Published:2023-12-25
Issue:1
Volume:14
Page:28
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ISSN:2075-4426
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Container-title:Journal of Personalized Medicine
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language:en
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Short-container-title:JPM
Author:
Lanera Corrado1ORCID, Lorenzoni Giulia1ORCID, Barbieri Elisa2ORCID, Piras Gianluca1ORCID, Magge Arjun3, Weissenbacher Davy3, Donà Daniele2ORCID, Cantarutti Luigi4, Gonzalez-Hernandez Graciela3, Giaquinto Carlo24, Gregori Dario1ORCID
Affiliation:
1. Unit of Biostatistics, Epidemiology and Public Health, Department of Cardiac, Thoracic, Vascular Sciences and Public Health, University of Padova, 35131 Padova, Italy 2. Division of Pediatric Infectious Diseases, Department for Woman and Child Health, University of Padova, 35128 Padova, Italy 3. Health Language Processing Center, Institute for Biomedical Informatics at the Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA 19104, USA 4. Società Servizi Telematici—Pedianet, 35100 Padova, Italy
Abstract
Free-text information represents a valuable resource for epidemiological surveillance. Its unstructured nature, however, presents significant challenges in the extraction of meaningful information. This study presents a deep learning model for classifying otitis using pediatric medical records. We analyzed the Pedianet database, which includes data from January 2004 to August 2017. The model categorizes narratives from clinical record diagnoses into six types: no otitis, non-media otitis, non-acute otitis media (OM), acute OM (AOM), AOM with perforation, and recurrent AOM. Utilizing deep learning architectures, including an ensemble model, this study addressed the challenges associated with the manual classification of extensive narrative data. The performance of the model was evaluated according to a gold standard classification made by three expert clinicians. The ensemble model achieved values of 97.03, 93.97, 96.59, and 95.48 for balanced precision, balanced recall, accuracy, and balanced F1 measure, respectively. These results underscore the efficacy of using automated systems for medical diagnoses, especially in pediatric care. Our findings demonstrate the potential of deep learning in interpreting complex medical records, enhancing epidemiological surveillance and research. This approach offers significant improvements in handling large-scale medical data, ensuring accuracy and minimizing human error. The methodology is adaptable to other medical contexts, promising a new horizon in healthcare analytics.
Subject
Medicine (miscellaneous)
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