Operational Ontology for Oncology (O3): A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer

Charles S. Mayo; Mary U. Feng; Kristy K. Brock; Randi Kudner; Peter Balter; Jeffrey C. Buchsbaum; Amanda Caissie; Elizabeth Covington; Emily C. Daugherty; Andre L. Dekker; Clifton D. Fuller; Anneka L. Hallstrom; David S. Hong; Julian C. Hong; Sophia C. Kamran; Eva Katsoulakis; John Kildea; Andra V. Krauze; Jon J. Kruse; Tod McNutt; Michelle Mierzwa; Amy Moreno; Jatinder R. Palta; Richard Popple; Thomas G. Purdie; Susan Richardson; Gregory C. Sharp; Shiraishi Satomi; Lawrence R. Tarbox; Aradhana M. Venkatesan; Alon Witztum; Kelly E. Woods; Yuan Yao; Keyvan Farahani; Sanjay Aneja; Peter E. Gabriel; Lubomire Hadjiiski; Dan Ruan; Jeffrey H. Siewerdsen; Steven Bratt; Michelle Casagni; Su Chen; John C. Christodouleas; Anthony DiDonato; James Hayman; Rishhab Kapoor; Saul Kravitz; Sharon Sebastian; Martin Von Siebenthal; Walter Bosch; Coen Hurkmans; Sue S. Yom; Ying Xiao

doi:10.1016/j.ijrobp.2023.05.033

Operational Ontology for Oncology (O3): A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer

Charles S. Mayo, Mary U. Feng, Kristy K. Brock, Randi Kudner, Peter Balter, Jeffrey C. Buchsbaum, Amanda Caissie, Elizabeth Covington, Emily C. Daugherty, Andre L. Dekker, Clifton D. Fuller, Anneka L. Hallstrom, David S. Hong, Julian C. Hong, Sophia C. Kamran, Eva Katsoulakis, John Kildea, Andra V. Krauze, Jon J. Kruse, Tod McNuttMichelle Mierzwa, Amy Moreno, Jatinder R. Palta, Richard Popple, Thomas G. Purdie, Susan Richardson, Gregory C. Sharp, Shiraishi Satomi, Lawrence R. Tarbox, Aradhana M. Venkatesan, Alon Witztum, Kelly E. Woods, Yuan Yao, Keyvan Farahani, Sanjay Aneja, Peter E. Gabriel, Lubomire Hadjiiski, Dan Ruan, Jeffrey H. Siewerdsen, Steven Bratt, Michelle Casagni, Su Chen, John C. Christodouleas, Anthony DiDonato, James Hayman, Rishhab Kapoor, Saul Kravitz, Sharon Sebastian, Martin Von Siebenthal, Walter Bosch, Coen Hurkmans, Sue S. Yom, Ying Xiao

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Purpose: The ongoing lack of data standardization severely undermines the potential for automated learning from the vast amount of information routinely archived in electronic health records (EHRs), radiation oncology information systems, treatment planning systems, and other cancer care and outcomes databases. We sought to create a standardized ontology for clinical data, social determinants of health, and other radiation oncology concepts and interrelationships. Methods and Materials: The American Association of Physicists in Medicine's Big Data Science Committee was initiated in July 2019 to explore common ground from the stakeholders’ collective experience of issues that typically compromise the formation of large inter- and intra-institutional databases from EHRs. The Big Data Science Committee adopted an iterative, cyclical approach to engaging stakeholders beyond its membership to optimize the integration of diverse perspectives from the community. Results: We developed the Operational Ontology for Oncology (O3), which identified 42 key elements, 359 attributes, 144 value sets, and 155 relationships ranked in relative importance of clinical significance, likelihood of availability in EHRs, and the ability to modify routine clinical processes to permit aggregation. Recommendations are provided for best use and development of the O3 to 4 constituencies: device manufacturers, centers of clinical care, researchers, and professional societies. Conclusions: O3 is designed to extend and interoperate with existing global infrastructure and data science standards. The implementation of these recommendations will lower the barriers for aggregation of information that could be used to create large, representative, findable, accessible, interoperable, and reusable data sets to support the scientific objectives of grant programs. The construction of comprehensive “real-world” data sets and application of advanced analytical techniques, including artificial intelligence, holds the potential to revolutionize patient management and improve outcomes by leveraging increased access to information derived from larger, more representative data sets.

Original language	English (US)
Pages (from-to)	533-550
Number of pages	18
Journal	International Journal of Radiation Oncology Biology Physics
Volume	117
Issue number	3
DOIs	https://doi.org/10.1016/j.ijrobp.2023.05.033
State	Published - Nov 1 2023

ASJC Scopus subject areas

Radiation
Oncology
Radiology Nuclear Medicine and imaging
Cancer Research

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Mayo, C. S., Feng, M. U., Brock, K. K., Kudner, R., Balter, P., Buchsbaum, J. C., Caissie, A., Covington, E., Daugherty, E. C., Dekker, A. L., Fuller, C. D., Hallstrom, A. L., Hong, D. S., Hong, J. C., Kamran, S. C., Katsoulakis, E., Kildea, J., Krauze, A. V., Kruse, J. J., ... Xiao, Y. (2023). Operational Ontology for Oncology (O3): A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer. International Journal of Radiation Oncology Biology Physics, 117(3), 533-550. https://doi.org/10.1016/j.ijrobp.2023.05.033

Operational Ontology for Oncology (O3): A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer. / Mayo, Charles S.; Feng, Mary U.; Brock, Kristy K. et al.
In: International Journal of Radiation Oncology Biology Physics, Vol. 117, No. 3, 01.11.2023, p. 533-550.

Research output: Contribution to journal › Article › peer-review

Mayo, CS, Feng, MU, Brock, KK, Kudner, R, Balter, P, Buchsbaum, JC, Caissie, A, Covington, E, Daugherty, EC, Dekker, AL, Fuller, CD, Hallstrom, AL, Hong, DS, Hong, JC, Kamran, SC, Katsoulakis, E, Kildea, J, Krauze, AV, Kruse, JJ, McNutt, T, Mierzwa, M, Moreno, A, Palta, JR, Popple, R, Purdie, TG, Richardson, S, Sharp, GC, Satomi, S, Tarbox, LR, Venkatesan, AM, Witztum, A, Woods, KE, Yao, Y, Farahani, K, Aneja, S, Gabriel, PE, Hadjiiski, L, Ruan, D, Siewerdsen, JH, Bratt, S, Casagni, M, Chen, S, Christodouleas, JC, DiDonato, A, Hayman, J, Kapoor, R, Kravitz, S, Sebastian, S, Von Siebenthal, M, Bosch, W, Hurkmans, C, Yom, SS & Xiao, Y 2023, 'Operational Ontology for Oncology (O3): A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer', International Journal of Radiation Oncology Biology Physics, vol. 117, no. 3, pp. 533-550. https://doi.org/10.1016/j.ijrobp.2023.05.033

Mayo CS, Feng MU, Brock KK, Kudner R, Balter P, Buchsbaum JC et al. Operational Ontology for Oncology (O3): A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer. International Journal of Radiation Oncology Biology Physics. 2023 Nov 1;117(3):533-550. doi: 10.1016/j.ijrobp.2023.05.033

Mayo, Charles S. ; Feng, Mary U. ; Brock, Kristy K. et al. / Operational Ontology for Oncology (O3) : A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer. In: International Journal of Radiation Oncology Biology Physics. 2023 ; Vol. 117, No. 3. pp. 533-550.

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title = "Operational Ontology for Oncology (O3): A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer",

abstract = "Purpose: The ongoing lack of data standardization severely undermines the potential for automated learning from the vast amount of information routinely archived in electronic health records (EHRs), radiation oncology information systems, treatment planning systems, and other cancer care and outcomes databases. We sought to create a standardized ontology for clinical data, social determinants of health, and other radiation oncology concepts and interrelationships. Methods and Materials: The American Association of Physicists in Medicine's Big Data Science Committee was initiated in July 2019 to explore common ground from the stakeholders{\textquoteright} collective experience of issues that typically compromise the formation of large inter- and intra-institutional databases from EHRs. The Big Data Science Committee adopted an iterative, cyclical approach to engaging stakeholders beyond its membership to optimize the integration of diverse perspectives from the community. Results: We developed the Operational Ontology for Oncology (O3), which identified 42 key elements, 359 attributes, 144 value sets, and 155 relationships ranked in relative importance of clinical significance, likelihood of availability in EHRs, and the ability to modify routine clinical processes to permit aggregation. Recommendations are provided for best use and development of the O3 to 4 constituencies: device manufacturers, centers of clinical care, researchers, and professional societies. Conclusions: O3 is designed to extend and interoperate with existing global infrastructure and data science standards. The implementation of these recommendations will lower the barriers for aggregation of information that could be used to create large, representative, findable, accessible, interoperable, and reusable data sets to support the scientific objectives of grant programs. The construction of comprehensive “real-world” data sets and application of advanced analytical techniques, including artificial intelligence, holds the potential to revolutionize patient management and improve outcomes by leveraging increased access to information derived from larger, more representative data sets.",

author = "Mayo, {Charles S.} and Feng, {Mary U.} and Brock, {Kristy K.} and Randi Kudner and Peter Balter and Buchsbaum, {Jeffrey C.} and Amanda Caissie and Elizabeth Covington and Daugherty, {Emily C.} and Dekker, {Andre L.} and Fuller, {Clifton D.} and Hallstrom, {Anneka L.} and Hong, {David S.} and Hong, {Julian C.} and Kamran, {Sophia C.} and Eva Katsoulakis and John Kildea and Krauze, {Andra V.} and Kruse, {Jon J.} and Tod McNutt and Michelle Mierzwa and Amy Moreno and Palta, {Jatinder R.} and Richard Popple and Purdie, {Thomas G.} and Susan Richardson and Sharp, {Gregory C.} and Shiraishi Satomi and Tarbox, {Lawrence R.} and Venkatesan, {Aradhana M.} and Alon Witztum and Woods, {Kelly E.} and Yuan Yao and Keyvan Farahani and Sanjay Aneja and Gabriel, {Peter E.} and Lubomire Hadjiiski and Dan Ruan and Siewerdsen, {Jeffrey H.} and Steven Bratt and Michelle Casagni and Su Chen and Christodouleas, {John C.} and Anthony DiDonato and James Hayman and Rishhab Kapoor and Saul Kravitz and Sharon Sebastian and {Von Siebenthal}, Martin and Walter Bosch and Coen Hurkmans and Yom, {Sue S.} and Ying Xiao",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = nov,

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doi = "10.1016/j.ijrobp.2023.05.033",

language = "English (US)",

volume = "117",

pages = "533--550",

journal = "International Journal of Radiation Oncology Biology Physics",

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TY - JOUR

T1 - Operational Ontology for Oncology (O3)

T2 - A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer

AU - Mayo, Charles S.

AU - Feng, Mary U.

AU - Brock, Kristy K.

AU - Kudner, Randi

AU - Balter, Peter

AU - Buchsbaum, Jeffrey C.

AU - Caissie, Amanda

AU - Covington, Elizabeth

AU - Daugherty, Emily C.

AU - Dekker, Andre L.

AU - Fuller, Clifton D.

AU - Hallstrom, Anneka L.

AU - Hong, David S.

AU - Hong, Julian C.

AU - Kamran, Sophia C.

AU - Katsoulakis, Eva

AU - Kildea, John

AU - Krauze, Andra V.

AU - Kruse, Jon J.

AU - McNutt, Tod

AU - Mierzwa, Michelle

AU - Moreno, Amy

AU - Palta, Jatinder R.

AU - Popple, Richard

AU - Purdie, Thomas G.

AU - Richardson, Susan

AU - Sharp, Gregory C.

AU - Satomi, Shiraishi

AU - Tarbox, Lawrence R.

AU - Venkatesan, Aradhana M.

AU - Witztum, Alon

AU - Woods, Kelly E.

AU - Yao, Yuan

AU - Farahani, Keyvan

AU - Aneja, Sanjay

AU - Gabriel, Peter E.

AU - Hadjiiski, Lubomire

AU - Ruan, Dan

AU - Siewerdsen, Jeffrey H.

AU - Bratt, Steven

AU - Casagni, Michelle

AU - Chen, Su

AU - Christodouleas, John C.

AU - DiDonato, Anthony

AU - Hayman, James

AU - Kapoor, Rishhab

AU - Kravitz, Saul

AU - Sebastian, Sharon

AU - Von Siebenthal, Martin

AU - Bosch, Walter

AU - Hurkmans, Coen

AU - Yom, Sue S.

AU - Xiao, Ying

PY - 2023/11/1

Y1 - 2023/11/1

N2 - Purpose: The ongoing lack of data standardization severely undermines the potential for automated learning from the vast amount of information routinely archived in electronic health records (EHRs), radiation oncology information systems, treatment planning systems, and other cancer care and outcomes databases. We sought to create a standardized ontology for clinical data, social determinants of health, and other radiation oncology concepts and interrelationships. Methods and Materials: The American Association of Physicists in Medicine's Big Data Science Committee was initiated in July 2019 to explore common ground from the stakeholders’ collective experience of issues that typically compromise the formation of large inter- and intra-institutional databases from EHRs. The Big Data Science Committee adopted an iterative, cyclical approach to engaging stakeholders beyond its membership to optimize the integration of diverse perspectives from the community. Results: We developed the Operational Ontology for Oncology (O3), which identified 42 key elements, 359 attributes, 144 value sets, and 155 relationships ranked in relative importance of clinical significance, likelihood of availability in EHRs, and the ability to modify routine clinical processes to permit aggregation. Recommendations are provided for best use and development of the O3 to 4 constituencies: device manufacturers, centers of clinical care, researchers, and professional societies. Conclusions: O3 is designed to extend and interoperate with existing global infrastructure and data science standards. The implementation of these recommendations will lower the barriers for aggregation of information that could be used to create large, representative, findable, accessible, interoperable, and reusable data sets to support the scientific objectives of grant programs. The construction of comprehensive “real-world” data sets and application of advanced analytical techniques, including artificial intelligence, holds the potential to revolutionize patient management and improve outcomes by leveraging increased access to information derived from larger, more representative data sets.

AB - Purpose: The ongoing lack of data standardization severely undermines the potential for automated learning from the vast amount of information routinely archived in electronic health records (EHRs), radiation oncology information systems, treatment planning systems, and other cancer care and outcomes databases. We sought to create a standardized ontology for clinical data, social determinants of health, and other radiation oncology concepts and interrelationships. Methods and Materials: The American Association of Physicists in Medicine's Big Data Science Committee was initiated in July 2019 to explore common ground from the stakeholders’ collective experience of issues that typically compromise the formation of large inter- and intra-institutional databases from EHRs. The Big Data Science Committee adopted an iterative, cyclical approach to engaging stakeholders beyond its membership to optimize the integration of diverse perspectives from the community. Results: We developed the Operational Ontology for Oncology (O3), which identified 42 key elements, 359 attributes, 144 value sets, and 155 relationships ranked in relative importance of clinical significance, likelihood of availability in EHRs, and the ability to modify routine clinical processes to permit aggregation. Recommendations are provided for best use and development of the O3 to 4 constituencies: device manufacturers, centers of clinical care, researchers, and professional societies. Conclusions: O3 is designed to extend and interoperate with existing global infrastructure and data science standards. The implementation of these recommendations will lower the barriers for aggregation of information that could be used to create large, representative, findable, accessible, interoperable, and reusable data sets to support the scientific objectives of grant programs. The construction of comprehensive “real-world” data sets and application of advanced analytical techniques, including artificial intelligence, holds the potential to revolutionize patient management and improve outcomes by leveraging increased access to information derived from larger, more representative data sets.

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Operational Ontology for Oncology (O3): A Professional Society-Based, Multistakeholder, Consensus-Driven Informatics Standard Supporting Clinical and Research Use of Real-World Data From Patients Treated for Cancer

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