Results 31 to 40 of about 764,785 (295)
A Way to Automatically Enrich Biomedical Ontologies [PDF]
International Conference on Extending Database Technology, 2016 International audienceBiomedical ontologies play an important role for information extraction in the biomedical domain. We present a workflow for updating automatically biomedical ontologies, composed of four steps. We detail two contributions concerning
Jonquet, Clement +3 more
core +4 more sources
Knowledge Discovery from Biomedical Ontologies in Cross Domains. [PDF]
PLoS One, 2016 In recent years, there is an increasing demand for sharing and integration of medical data in biomedical research. In order to improve a health care system, it is required to support the integration of data by facilitating semantic interoperability ...
Shen F, Lee Y.
europepmc +2 more sources
Use of Biomedical Ontologies for Integration of Biological Knowledge for Learning and Prediction of Adverse Drug Reactions. [PDF]
Gene Regul Syst Bio, 2017 Drug-induced toxicity is a major public health concern that leads to patient morbidity and mortality. To address this problem, the Food and Drug Administration is working on the PredicTox initiative, a pilot research program on tyrosine kinase inhibitors,
Zaman S, Sarntivijai S, Abernethy DR.
europepmc +2 more sources
Relations in biomedical ontologies [PDF]
Genome Biology, 2005 To enhance the treatment of relations in biomedical ontologies we advance a methodology for providing consistent and unambiguous formal definitions of the relational expressions used in such ontologies in a way designed to assist developers and users in ...
Barry Smith +9 more
semanticscholar +3 more sources
A methodology for biomedical ontology reuse [PDF]
, 2016 The abundance of biomedical ontologies is beneficial to the development of biomedical related systems. However, existing biomedical ontologies such as the National Cancer Institute Thesaurus (NCIT), Foundational Model of Anatomy (FMA) and Systematized
Meziane, F, Zulkarnain, NZ
core +4 more sources
FEDRR: fast, exhaustive detection of redundant hierarchical relations for quality improvement of large biomedical ontologies. [PDF]
BioData Min, 2016 Redundant hierarchical relations refer to such patterns as two paths from one concept to another, one with length one (direct) and the other with length greater than one (indirect).
Xing G, Zhang GQ, Cui L.
europepmc +2 more sources
Clonal complexes in biomedical ontologies [PDF]
Nature Precedings, 2009 An accurate classification of bacteria is essential for the proper identification of patient infections and subsequent treatment decisions. Multi-Locus Sequence Typing (MLST) is a genetic technique for bacterial classification.
Cowell, Lindsay +2 more
core +3 more sources
Searching biomedical ontologies based on content [PDF]
, 2007 As more ontologies become publicly available, finding the 'right' ontologies becomes much harder. In this paper, we introduce a new ontology search technique which is based on corpus analysis.
Alani, Harith +4 more
core +2 more sources
A Systematic Analysis of Term Reuse and Term Overlap across Biomedical Ontologies. [PDF]
Semant Web, 2017 Kamdar MR, Tudorache T, Musen MA.
europepmc +2 more sources
Large Language Models in Bio-Ontology Research: A Review [PDF]
BioengineeringBiomedical ontologies are critical for structuring domain knowledge and enabling integrative analyses in the life sciences. Traditional ontology development is labor-intensive, requiring extensive expert curation.
Prashanti Manda
doaj +2 more sources