Published on in Vol 13, No 1 (2011): Jan-Mar

Open Source, Open Standards, and Health Care Information Systems

Open Source, Open Standards, and Health Care Information Systems

Open Source, Open Standards, and Health Care Information Systems

Authors of this article:

Carl J Reynolds1 ;   Jeremy C Wyatt2

Journals

  1. Karopka T, Schmuhl H, Demski H. Free/Libre Open Source Software in Health Care: A Review. Healthcare Informatics Research 2014;20(1):11 View
  2. Vincent C, Niezen G, O'Kane A, Stawarz K. Can Standards and Regulations Keep Up With Health Technology?. JMIR mHealth and uHealth 2015;3(2):e64 View
  3. Koumaditis K. Governance of Service-Oriented Architecture in a Healthcare Organization: A Case Study. Journal of Information Technology Case and Application Research 2015;17(3-4):130 View
  4. Clarke M, Belden J, Kim M. How Does Learnability of Primary Care Resident Physicians Increase After Seven Months of Using an Electronic Health Record? A Longitudinal Study. JMIR Human Factors 2016;3(1):e9 View
  5. Martseniuk V, Milian N. About the approach of solving machine learning problems integrated with data from open source systems of electronic medical records. Scientific journal of the Ternopil national technical university 2019;95(3):105 View
  6. Liang D, Darko A, Zeng J. Interval-valued pythagorean fuzzy power average-based MULTIMOORA method for multi-criteria decision-making. Journal of Experimental & Theoretical Artificial Intelligence 2020;32(5):845 View
  7. Tillmann T, Gibson A, Scott G, Harrison O, Dominiczak A, Hanlon P. Systems Medicine 2.0: Potential Benefits of Combining Electronic Health Care Records With Systems Science Models. Journal of Medical Internet Research 2015;17(3):e64 View
  8. Laack T, Lones E, Schumacher D, Todd F, Cook D. Sharing simulation-based training courses between institutions: opportunities and challenges. Advances in Simulation 2017;2(1) View
  9. van Velsen L, Beaujean D, van Gemert-Pijnen J. Why mobile health app overload drives us crazy, and how to restore the sanity. BMC Medical Informatics and Decision Making 2013;13(1) View
  10. O’Kane A, Park S, Mentis H, Blandford A, Chen Y. Turning to Peers: Integrating Understanding of the Self, the Condition, and Others’ Experiences in Making Sense of Complex Chronic Conditions. Computer Supported Cooperative Work (CSCW) 2016;25(6):477 View
  11. O'Neill B, Ryan C, Roy S, Simes T. Supporting Nursing Faculty With a Digital Repository of Simulation Resources. Teaching and Learning in Nursing 2020;15(3):175 View
  12. Syzdykova A, Malta A, Zolfo M, Diro E, Oliveira J. Open-Source Electronic Health Record Systems for Low-Resource Settings: Systematic Review. JMIR Medical Informatics 2017;5(4):e44 View
  13. Zaidan A, Zaidan B, Hussain M, Haiqi A, Mat Kiah M, Abdulnabi M. Multi-criteria analysis for OS-EMR software selection problem: A comparative study. Decision Support Systems 2015;78:15 View
  14. Masum H, Lackman R, Bartleson K. Developing global health technology standards: what can other industries teach us?. Globalization and Health 2013;9(1):49 View
  15. Faujdar D, Sahay S, Singh T, Kaur M, Kumar R. Field testing of a digital health information system for primary health care: A quasi-experimental study from India. International Journal of Medical Informatics 2020;141:104235 View
  16. Reynolds C. Better value digital health: the medium, the market and the role of openness. Clinical Medicine 2013;13(4):336 View
  17. Purkayastha S, Allam R, Maity P, Gichoya J. Comparison of Open-Source Electronic Health Record Systems Based on Functional and User Performance Criteria. Healthcare Informatics Research 2019;25(2):89 View
  18. Safadi H, Chan D, Dawes M, Roper M, Faraj S. Open-source health information technology: A case study of electronic medical records. Health Policy and Technology 2015;4(1):14 View
  19. Kiah M, Haiqi A, Zaidan B, Zaidan A. Open source EMR software: Profiling, insights and hands-on analysis. Computer Methods and Programs in Biomedicine 2014;117(2):360 View
  20. Gershkovich P, Sinard J. Customizing Laboratory Information Systems. Advances in Anatomic Pathology 2015;22(5):323 View
  21. Roumani Y, Nwankpa J, Roumani Y. Adopters’ trust in enterprise open source vendors: An empirical examination. Journal of Systems and Software 2017;125:256 View
  22. . TRENDS OF OPEN SOURCE SOFTWARE IN MISSIONCRITICAL ITS SERVICES INFRASTRUCTURES ADOPTION IN LOCAL ENVIRONMENT. JOURNAL OF MECHANICS OF CONTINUA AND MATHEMATICAL SCIENCES 2020;15(8) View
  23. Ramírez-Mora S, Oktaba H, Gómez-Adorno H, Sierra G. Exploring the communication functions of comments during bug fixing in Open Source Software projects. Information and Software Technology 2021;136:106584 View
  24. Laila U, Ahmed N, Arfeen A, Ali A, Khurram M, Khan M. Mission‐critical open‐source software adoption model validation using Partial Least Square ‐ Structural Equation Modeling. Journal of Software: Evolution and Process 2023;35(2) View
  25. Lario R, Kawamoto K, Sottara D, Eilbeck K, Huff S, Del Fiol G, Soley R, Middleton B. A method for structuring complex clinical knowledge and its representational formalisms to support composite knowledge interoperability in healthcare. Journal of Biomedical Informatics 2023;137:104251 View
  26. Ye Y, Barapatre S, Davis M, Elliston K, Davatzikos C, Fedorov A, Fillion-Robin J, Foster I, Gilbertson J, Lasso A, Miller J, Morgan M, Pieper S, Raumann B, Sarachan B, Savova G, Silverstein J, Taylor D, Zelnis J, Zhang G, Cuticchia J, Becich M. Open-source Software Sustainability Models: Initial White Paper From the Informatics Technology for Cancer Research Sustainability and Industry Partnership Working Group. Journal of Medical Internet Research 2021;23(12):e20028 View
  27. Bakar A, Sultan A, Zulzalil H, Din J. Open Source Software Adaptation in Africa. International Journal of Open Source Software and Processes 2014;5(1):1 View
  28. Shen-Gunther J, Cai H, Wang Y. HPV Integration Site Mapping: A Rapid Method of Viral Integration Site (VIS) Analysis and Visualization Using Automated Workflows in CLC Microbial Genomics. International Journal of Molecular Sciences 2022;23(15):8132 View
  29. Umm-e-Laila F, Najeed Ahmed Khan S, Asad Arfeen T. Framework for Identification of Critical Factors for Open Source Software Adoption Decision in Mission-Critical IT Infrastructure Services. IETE Journal of Research 2023;69(2):635 View
  30. Peplinski J, Pearce J. Economic Efficiency of an Open-Source National Medical Lab Software in Canada. Journal of Medical Systems 2023;47(1) View
  31. Louw C. Digital Public Health Solutions in Response to the COVID-19 Pandemic: Comparative Analysis of Contact Tracing Solutions Deployed in Japan and Germany. Journal of Medical Internet Research 2023;25:e44966 View
  32. Wanger J, Cullen T, Dunbar E, Flowers J. Open-Source Software for Public Health: Opportunities and Approaches. Sexually Transmitted Diseases 2023;50(8S):S31 View
  33. Yogev D, Goldberg T, Arami A, Tejman-Yarden S, Winkler T, Maoz B. Current state of the art and future directions for implantable sensors in medical technology: Clinical needs and engineering challenges. APL Bioengineering 2023;7(3) View
  34. Bostan S, Johnson O, Jaspersen L, Randell R. Contextual Barriers to Implementing Open-Source Electronic Health Record Systems for Low- and Lower-Middle-Income Countries: Scoping Review. Journal of Medical Internet Research 2024;26:e45242 View
  35. Tsafnat G, Dunscombe R, Gabriel D, Grieve G, Reich C. Converge or Collide? Making Sense of a Plethora of Open Data Standards in Health Care. Journal of Medical Internet Research 2024;26:e55779 View
  36. Bellmann L, Gottfried K, Breitfeld P, Ückert F. GraphXplore: Visual exploration and accessible preprocessing of medical data. SoftwareX 2025;29:101978 View

Books/Policy Documents

  1. Martsenyuk V, Semenets A. Advances in Soft and Hard Computing. View
  2. Özcan T, Kocak S, Brune P. Web Engineering. View
  3. Hovenga E, Lowe C. Measuring Capacity to Care Using Nursing Data. View
  4. Chavez A, Kovarik C. Health Information Systems and the Advancement of Medical Practice in Developing Countries. View
  5. Séror A. Open Source Systems: Grounding Research. View
  6. DePalo P, Park K, Song Y. Human-Computer Interaction. Applications and Services. View
  7. Cavalini L, Cook T. Open Source Systems: Grounding Research. View
  8. Martsenyuk V, Povoroznyuk V, Semenets A, Martynyuk L. Artificial Intelligence and Soft Computing. View
  9. Chavez A, Kovarik C. Healthcare Policy and Reform. View