NIH | National Cancer Institute | NCI Wiki  

Error rendering macro 'rw-search'

null

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 21 Next »

Unknown macro: {multi-excerpt}

EVS supports a broad community of users, growing from its core mission of meeting NCI terminology needs to also support community-driven standards supporting data exchange and interoperability across a broad range of clinical trial, research and other activities. Over the last dozen years, this community has made major contributions to EVS content, technology, and dissemination, achieving results beyond what the individual participants could have achieved separately.

This document briefly outlines EVS resources; collects available statistics, for both NCI and related systems, to capture the level, composition, and nature of use; and then fleshes this out with operational details, user profiles and other information, including top users of specific resources. Each section focuses on a particular topic, with selected highlights gathered here.

Use of EVS Servers

  • EVS browsers, using LexEVS local APIs, are used by 5,000 – 6,000 unique visitors monthly with some 15,000 visits.
  • Top users include NCI (CBIIT and others), FDA, various parts of NIH, many universities and biomedical companies, and other biomedical organizations.
  • LexEVS distributed (remote) APIs are used by 100-150 unique visitors monthly, mostly applications including many CBIIT tools, OCE, NCRR, and many universities and biomedical research organizations.
  • LexEVS caGrid Data and Analytical services each attract 50-100 unique visitors monthly, making 2,000 to 3,000 visits to each service and accessing a combined total of 12-18 GB of terminology data downloaded each month.
  • The Term Suggestion site is hit by 100-120 unique visitors with 200-300 visits monthly.
  • FTP access is only partly tracked, but included 25,000 file downloads via the http interface in June 2011.

Use of EVS Content on Select Non-EVS Servers

  • Some 40,000 unique visitors monthly use the NCI Drug Dictionary, built from NCI Thesaurus drug content and representing some 2-3% of all Cancer.gov use.
  • Tens of thousands use FDA file and LISTSERVs for EVS supported FDA terminology standards, used on FDA internal servers for coding and validation of tens of thousands of data submissions each month.
  • The SPL LISTSERV alone has some 40,000 subscribers, and 9,466 different entities in more than 100 countries use this terminology to list their products.
  • CDRH alone reports 35,000 safety report submissions a month based on NCI Thesaurus terminology.
  • CDISC server registered downloads 2009-11 totaled 2,973 users from 1,524 organizations for SDTM, 866 users from 603 organizations for CDASH.
  • Combined with downloads from NCI servers, total downloads of the entire standard exceeded 14,000, primarily for institutional use.
  • NLM redistributes NCI Thesaurus to its 5,500 UMLS users, and gets 10,000,000 hits monthly on its 27,000 DailyMed SPL files all using EVS maintained SPL terminology.
  • NCBO had 8,843 NCI Thesaurus page views January-July 2011, keeping it at or near the top of use among NCBO's 200 collected terminologies and ontologies.

Use of EVS Tools

  • EVS software is available as open source for community code contributions and reuse.
  • EVS has supported Mayo Clinic development of the LexEVS terminology servers, now being deployed at MD Anderson, Stanford, Emory, Ohio State University Medical Center, Georgetown University, Washington University, and National Cancer Research Institute (NCRI)/UK CancerGrid, as well as IBM and GE Healthcare.
  • Several of these sites are also adopting EVS browser software.
  • EVS has worked with Stanford and others on NCI Protégé and related tools.
  • NPO is the only direct adopter of the NCI-customized versions, but there has been extensive sharing of underlying Protégé and other development work.
  • Other tools in development are also expected to have significant outside adoption.

Shared Terminology Development

  • Over the last 10 years, NCIt has been adopted by FDA, CDISC, NCPDP and other partners as a shared framework for developing terminology standards, allowing participants to compare and harmonize with each other's content while taking advantage of full-text definitions, codes, and other features.
  • About 40,000 out of the nearly 100,000 current NCIt concepts have terms from both EVS and from one or more of these other sources.

User Profiles

  • EVS terminology content, standards and technology are adopted and actively used by many user organizations and communities, some directly involving tens of thousands of users.
  • Examples include:
    • Clinical trial programs such as CCOP, using NCIt for coding the care of 85,000 patients.
    • TCGA content, used by at least 59 academic, commercial and non-profit organizations in 25 studies.
    • caNanoLab, still heavily used with more than 141,668 visitors since June of last year.
    • NIH use such as at NICHD, which employs NCIt pediatric terminology for the coding of 848 clinical trials, used by 52 different academic and research organizations.
  • Many of these standards extend beyond the NCI and NIH community to outside agencies and standards organizations such as NCPDP, whose use of NCI's drug standard terminology extends its use to some 200 vendors serving approximately 15,000 pharmacies nationwide, including large providers such as First DataBank and Surescripts, the nation's largest e-prescriber.
  • Surescripts alone connects thousands of pharmacies across the US, and is connected to the largest network of payers and Medicaid Fee for Service payers nationwide.
  • NCIt content has also become a regulatory standard through shared use by FDA, CDISC and others, such as for drug submissions.
  • FDA states that from Oct. 2009 until September 2010, some 14, 014 electronic submissions were received at FDA in electronic format using NCI Thesaurus regulatory coding.
  • Numerous academic, research, and even commercial organizations are also using and extending the capabilities of LexEVS and other EVS tools, for use throughout their organizations and for the development of commercial products.

Bibliography on EVS

  • The EVS bibliography includes some 200 journal articles and other scientific literature, covering
    • Overviews and analyses of EVS.
    • Programs and projects that discuss explicitly their use of EVS resources in support of cancer research and other scientific efforts.
  • No labels