RT Journal Article
SR Electronic
T1 The ManRay project: Initial development of a web-enabled ontology for nuclear medicine
JF Journal of Nuclear Medicine
JO J Nucl Med
FD Society of Nuclear Medicine
SP 371P
OP 371P
VO 47
IS suppl 1
A1 Carl Taswell
A1 Ben Franc
A1 Randy Hawkins
YR 2006
UL http://jnm.snmjournals.org/content/47/suppl_1/371P.1.abstract
AB 1431 Objectives: The semantic web extends the original web with technologies that provide syntactic structure (XML) and semantic meaning (RDF) permitting the development of taxonomies and inference rules (Berners-Lee et al, 2001). These technologies together with the Web Ontology Language (OWL) enable the compilation of knowledge representations or collections of information known as ontologies. Biomedical ontologies have benefited from significant development in the bioinformatics and clinical informatics communities (Pinciroli et al, 2005). In contrast, there appears to be a relative dearth of progress in the specialty fields of nuclear medicine and radiopharmaceutics. With the exception of some work on a radiopharmaceutical information database (Blaine et al, 1999) which did not involve any semantic web technologies nor any internet technologies, extensive literature searches have not found any other nuclear medicine informatics projects. The ManRay project attempts to fill this gap. Methods: Ontologies for the ManRay project are constructed adhering to (1) the specifications for XML, RDF, and OWL recommended by the World Wide Web Consortium (www.w3.org), (2) the usage paradigm advocated by Lacy (see diagram on page 144 of his 2005 book on OWL), and (3) general software engineering principles of hierarchical modularity, flexibility, and extensibility. Development is guided by the “ontology steward” paradigm in which the steward hosts and manages the ontology standard but does not necessarily provide a database distributing data compliant with the standard. Thus, the steward’s web server publishes the ontology as a *.owl file while other publishers distribute their data as compliant *.rdf files that reference the ontology steward’s *.owl file. Results: The ManRay project implements an ontology for nuclear medicine, radiopharmaceutics, and molecular imaging structured as a hierarchy of *.owl files with manray.owl as the top level and separate *.owl files for imaging protocols, pharmaceuticals, and radionuclides as the lower levels. The website www.nucmedlib.org hosts the ManRay project and its ontology. Conclusions: Development and promotion of a nuclear medicine ontology as an open standard for the exchange of data constitutes the most important goal of the ManRay project. Establishment of this ontology will enable the subsequent development of informatics applications capable of performing inference, such as automated meta-analyses, on data published according to the standard. Individuals and/or organizations interested in contributing to the ManRay project are encouraged to contact the authors.