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Improving the interoperability of biomedical ontologies with compound alignments

Oliveira, Daniela
Pesquita, Catia
Identifiers
http://hdl.handle.net/10379/13347
 https://doi.org/10.13025/28477
Publication Date
2018-01-09
Keywords
biomedical ontologies, ontology alignment, algorithms, phenotype ontology, unification, integration, anatomy, biology
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Article
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Citation
Oliveira, Daniela; Pesquita, Catia (2018). Improving the interoperability of biomedical ontologies with compound alignments. Journal of Biomedical Semantics 9 ,
Abstract
Background: Ontologies are commonly used to annotate and help process life sciences data. Although their original goal is to facilitate integration and interoperability among heterogeneous data sources, when these sources are annotated with distinct ontologies, bridging this gap can be challenging. In the last decade, ontology matching systems have been evolving and are now capable of producing high-quality mappings for life sciences ontologies, usually limited to the equivalence between two ontologies. However, life sciences research is becoming increasingly transdisciplinary and integrative, fostering the need to develop matching strategies that are able to handle multiple ontologies and more complex relations between their concepts. Results: We have developed ontologymatching algorithms that are able to find compoundmappings between multiple biomedical ontologies, in the form of ternary mappings, finding for instance that "aortic valve stenosis"(HP: 0001650) is equivalent to the intersection between "aortic valve"(FMA: 7236) and "constricted" (PATO: 0001847). The algorithms take advantage of search space filtering based on partial mappings between ontology pairs, to be able to handle the increased computational demands. The evaluation of the algorithms has shown that they are able to produce meaningful results, with precision in the range of 60-92% for new mappings. The algorithms were also applied to the potential extension of logical definitions of the OBO and the matching of several plant-related ontologies. Conclusions: This work is a first step towards finding more complex relations between multiple ontologies. The evaluation shows that the results produced are significant and that the algorithms could satisfy specific integration needs.
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Publisher
Springer Nature
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Attribution-NonCommercial-NoDerivs 3.0 Ireland
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Externally hosted open access publications with University of Galway authors (2)