Synthea: An approach, method, and software mechanism for generating synthetic patients and the synthetic electronic health care record

Synthea: An approach, method, and software mechanism for generating synthetic patients and the synthetic electronic health care record

Abstract Objective Our objective is to create a source of synthetic electronic health records that is readily available; suited to industrial, innovation, research, and educational uses; and free of legal, privacy, security, and intellectual property restrictions. Materials and Methods We developed...

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Veröffentlicht in:Journal of the American Medical Informatics Association : JAMIA 2018-03, Vol.25 (3), p.230-238
Hauptverfasser: Walonoski, Jason, Kramer, Mark, Nichols, Joseph, Quina, Andre, Moesel, Chris, Hall, Dylan, Duffett, Carlton, Dube, Kudakwashe, Gallagher, Thomas, McLachlan, Scott
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container_end_page 238
container_issue 3
container_start_page 230
container_title Journal of the American Medical Informatics Association : JAMIA
container_volume 25
creator Walonoski, Jason
Kramer, Mark
Nichols, Joseph
Quina, Andre
Moesel, Chris
Hall, Dylan
Duffett, Carlton
Dube, Kudakwashe
Gallagher, Thomas
McLachlan, Scott
description Abstract Objective Our objective is to create a source of synthetic electronic health records that is readily available; suited to industrial, innovation, research, and educational uses; and free of legal, privacy, security, and intellectual property restrictions. Materials and Methods We developed Synthea, an open-source software package that simulates the lifespans of synthetic patients, modeling the 10 most frequent reasons for primary care encounters and the 10 chronic conditions with the highest morbidity in the United States. Results Synthea adheres to a previously developed conceptual framework, scales via open-source deployment on the Internet, and may be extended with additional disease and treatment modules developed by its user community. One million synthetic patient records are now freely available online, encoded in standard formats (eg, Health Level-7 [HL7] Fast Healthcare Interoperability Resources [FHIR] and Consolidated-Clinical Document Architecture), and accessible through an HL7 FHIR application program interface. Discussion Health care lags other industries in information technology, data exchange, and interoperability. The lack of freely distributable health records has long hindered innovation in health care. Approaches and tools are available to inexpensively generate synthetic health records at scale without accidental disclosure risk, lowering current barriers to entry for promising early-stage developments. By engaging a growing community of users, the synthetic data generated will become increasingly comprehensive, detailed, and realistic over time. Conclusion Synthetic patients can be simulated with models of disease progression and corresponding standards of care to produce risk-free realistic synthetic health care records at scale.
doi_str_mv 10.1093/jamia/ocx079
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Materials and Methods We developed Synthea, an open-source software package that simulates the lifespans of synthetic patients, modeling the 10 most frequent reasons for primary care encounters and the 10 chronic conditions with the highest morbidity in the United States. Results Synthea adheres to a previously developed conceptual framework, scales via open-source deployment on the Internet, and may be extended with additional disease and treatment modules developed by its user community. One million synthetic patient records are now freely available online, encoded in standard formats (eg, Health Level-7 [HL7] Fast Healthcare Interoperability Resources [FHIR] and Consolidated-Clinical Document Architecture), and accessible through an HL7 FHIR application program interface. Discussion Health care lags other industries in information technology, data exchange, and interoperability. The lack of freely distributable health records has long hindered innovation in health care. Approaches and tools are available to inexpensively generate synthetic health records at scale without accidental disclosure risk, lowering current barriers to entry for promising early-stage developments. By engaging a growing community of users, the synthetic data generated will become increasingly comprehensive, detailed, and realistic over time. Conclusion Synthetic patients can be simulated with models of disease progression and corresponding standards of care to produce risk-free realistic synthetic health care records at scale.</description><identifier>ISSN: 1067-5027</identifier><identifier>EISSN: 1527-974X</identifier><identifier>DOI: 10.1093/jamia/ocx079</identifier><identifier>PMID: 29025144</identifier><language>eng</language><publisher>England: Oxford University Press</publisher><subject>Research and Applications</subject><ispartof>Journal of the American Medical Informatics Association : JAMIA, 2018-03, Vol.25 (3), p.230-238</ispartof><rights>The Author 2017. 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Approaches and tools are available to inexpensively generate synthetic health records at scale without accidental disclosure risk, lowering current barriers to entry for promising early-stage developments. By engaging a growing community of users, the synthetic data generated will become increasingly comprehensive, detailed, and realistic over time. 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subjects Research and Applications
title Synthea: An approach, method, and software mechanism for generating synthetic patients and the synthetic electronic health care record
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