Knowledge graphs for enhancing transparency in health data ecosystems1
Author:
Aisopos Fotis1, Jozashoori Samaneh2, Niazmand Emetis2, Purohit Disha2, Rivas Ariam2, Sakor Ahmad2, Iglesias Enrique2, Vogiatzis Dimitrios13, Menasalvas Ernestina4, Rodriguez Gonzalez Alejandro4, Vigueras Guillermo4, Gomez-Bravo Daniel4, Torrente Maria5, Hernández López Roberto5, Provencio Pulla Mariano5, Dalianis Athanasios6, Triantafillou Anna6, Paliouras Georgios1, Vidal Maria-Esther2
Affiliation:
1. Institute of Informatics & Telecommunications, National Centre for Scientific Research “Demokritos”, Greece 2. Leibniz University of Hannover and L3S Research Center and TIB Leibniz Information Centre for Science and Technology, Germany 3. American College of Greece, Deree, Greece 4. Universidad Politécnica de Madrid, Spain 5. Medical Oncology Department, Puerta de Hierro University Hospital, Servicio Madrileño de Salud, Spain 6. Innovation Lab, Athens Technology Center, Greece
Abstract
Tailoring personalized treatments demands the analysis of a patient’s characteristics, which may be scattered over a wide variety of sources. These features include family history, life habits, comorbidities, and potential treatment side effects. Moreover, the analysis of the services visited the most by a patient before a new diagnosis, as well as the type of requested tests, may uncover patterns that contribute to earlier disease detection and treatment effectiveness. Built on knowledge-driven ecosystems, we devise DE4LungCancer, a health data ecosystem of data sources for lung cancer. In this data ecosystem, knowledge extracted from heterogeneous sources, e.g., clinical records, scientific publications, and pharmacological data, is integrated into knowledge graphs. Ontologies describe the meaning of the combined data, and mapping rules enable the declarative definition of the transformation and integration processes. DE4LungCancer is assessed regarding the methods followed for data quality assessment and curation. Lastly, the role of controlled vocabularies and ontologies in health data management is discussed, as well as their impact on transparent knowledge extraction and analytics. This paper presents the lessons learned in the DE4LungCancer development. It demonstrates the transparency level supported by the proposed knowledge-driven ecosystem, in the context of the lung cancer pilots of the EU H2020-funded project BigMedilytic, the ERA PerMed funded project P4-LUCAT, and the EU H2020 projects CLARIFY and iASiS.
Subject
Computer Networks and Communications,Computer Science Applications,Information Systems
Reference54 articles.
1. The dark side of data ecosystems: A longitudinal study of the damd project;Aaen;European Journal of Information Systems,2021 2. The comparative efficacy and safety of the angiotensin receptor blockers in the management of hypertension and other cardiovascular diseases;Abraham;Drug Saf,2015 3. Enhancing answer completeness of SPARQL queries via crowdsourcing;Acosta;J. Web Semant.,2017 4. S. Auer, C. Bizer, G. Kobilarov, J. Lehmann, R. Cyganiak and Z. Ives, Dbpedia: A nucleus for a web of open data, in: Proceedings of ISWC + ASWC, 2007, pp. 722–735. 5. E.A. Balas, M.M. Vernon, F. Magrabi, L.T. Gordon, J. Sexton et al., Big data clinical research: Validity, ethics, and regulation, in: MedInfo, 2015, pp. 448–452.
Cited by
4 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|