Published on in Vol 21, No 2 (2019): February

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/12533, first published .
Is Blockchain Technology Suitable for Managing Personal Health Records? Mixed-Methods Study to Test Feasibility

Is Blockchain Technology Suitable for Managing Personal Health Records? Mixed-Methods Study to Test Feasibility

Is Blockchain Technology Suitable for Managing Personal Health Records? Mixed-Methods Study to Test Feasibility

Journals

  1. Lee H, Kung H, Udayasankaran J, Kijsanayotin B, B Marcelo A, Chao L, Hsu C. An Architecture and Management Platform for Blockchain-Based Personal Health Record Exchange: Development and Usability Study. Journal of Medical Internet Research 2020;22(6):e16748 View
  2. Offner K, Sitnikova E, Joiner K, MacIntyre C. Towards understanding cybersecurity capability in Australian healthcare organisations: a systematic review of recent trends, threats and mitigation. Intelligence and National Security 2020;35(4):556 View
  3. Glicksberg B, Burns S, Currie R, Griffin A, Wang Z, Haussler D, Goldstein T, Collisson E. Blockchain-Authenticated Sharing of Genomic and Clinical Outcomes Data of Patients With Cancer: A Prospective Cohort Study. Journal of Medical Internet Research 2020;22(3):e16810 View
  4. Chang S, Chen Y, Lu M, Luo H. Development and Evaluation of a Smart Contract–Enabled Blockchain System for Home Care Service Innovation: Mixed Methods Study. JMIR Medical Informatics 2020;8(7):e15472 View
  5. Mackey T, Bekki H, Matsuzaki T, Mizushima H. Examining the Potential of Blockchain Technology to Meet the Needs of 21st-Century Japanese Health Care: Viewpoint on Use Cases and Policy. Journal of Medical Internet Research 2020;22(1):e13649 View
  6. Zhang R, George A, Kim J, Johnson V, Ramesh B. Benefits of Blockchain Initiatives for Value-Based Care: Proposed Framework. Journal of Medical Internet Research 2019;21(9):e13595 View
  7. Durneva P, Cousins K, Chen M. The Current State of Research, Challenges, and Future Research Directions of Blockchain Technology in Patient Care: Systematic Review. Journal of Medical Internet Research 2020;22(7):e18619 View
  8. Hyla T, Pejaś J. eHealth Integrity Model Based on Permissioned Blockchain. Future Internet 2019;11(3):76 View
  9. Sharma R, Zhang C, Wingreen S, Kshetri N, Zahid A. Design of Blockchain-based Precision Health-Care Using Soft Systems Methodology. Industrial Management & Data Systems 2019;120(3):608 View
  10. Khurshid A, Rajeswaren V, Andrews S. Using Blockchain Technology to Mitigate Challenges in Service Access for the Homeless and Data Exchange Between Providers: Qualitative Study. Journal of Medical Internet Research 2020;22(6):e16887 View
  11. El-Gazzar R, Stendal K. Blockchain in Health Care: Hope or Hype?. Journal of Medical Internet Research 2020;22(7):e17199 View
  12. Chang S, Chen Y. Blockchain in Health Care Innovation: Literature Review and Case Study From a Business Ecosystem Perspective. Journal of Medical Internet Research 2020;22(8):e19480 View
  13. Hort J, Vališ M, Zhang B, Kuča K, Angelucci F. An Overview of Existing Publications and Most Relevant Projects/Platforms on the Use of Blockchain in Medicine and Neurology. Frontiers in Blockchain 2021;4 View
  14. Fatoum H, Hanna S, Halamka J, Sicker D, Spangenberg P, Hashmi S. Blockchains integrated with digital technology revolution: The future of healthcare ecosystems. (Preprint). Journal of Medical Internet Research 2020 View
  15. Fang H, Tan T, Tan Y, Tan C. Blockchain Personal Health Records: Systematic Review. Journal of Medical Internet Research 2021;23(4):e25094 View
  16. Kelly J, Campbell K, Gong E, Scuffham P. The Internet of Things: Impact and Implications for Health Care Delivery. Journal of Medical Internet Research 2020;22(11):e20135 View
  17. Lee K, Lim K, Jung S, Ji H, Hong K, Hwang H, Lee H. Perspectives of Patients, Health Care Professionals, and Developers Toward Blockchain-Based Health Information Exchange: Qualitative Study. Journal of Medical Internet Research 2020;22(11):e18582 View
  18. Roehrs A, da Costa C, Righi R, Mayer A, da Silva V, Goldim J, Schmidt D. Integrating multiple blockchains to support distributed personal health records. Health Informatics Journal 2021;27(2) View
  19. Velmovitsky P, Bublitz F, Fadrique L, Morita P. Blockchain Applications in Health Care and Public Health: Increased Transparency. JMIR Medical Informatics 2021;9(6):e20713 View
  20. Mann S, Balyan A, Rohilla V, Gupta D, Gupta Z, Rahmani A, Khan R. Artificial Intelligence-based Blockchain Technology for Skin Cancer Investigation Complemented with Dietary Assessment and Recommendation using Correlation Analysis in Elder Individuals. Journal of Food Quality 2022;2022:1 View
  21. Taherdoost H. Blockchain-Based Internet of Medical Things. Applied Sciences 2023;13(3):1287 View
  22. Sengupta A, Subramanian H. User Control of Personal mHealth Data Using a Mobile Blockchain App: Design Science Perspective. JMIR mHealth and uHealth 2022;10(1):e32104 View
  23. Dwivedi R, Mehrotra D, Chandra S. Potential of Internet of Medical Things (IoMT) applications in building a smart healthcare system: A systematic review. Journal of Oral Biology and Craniofacial Research 2022;12(2):302 View
  24. Subramanian H, Subramanian S. Improving Diagnosis Through Digital Pathology: Proof-of-Concept Implementation Using Smart Contracts and Decentralized File Storage. Journal of Medical Internet Research 2022;24(3):e34207 View
  25. Dubovitskaya A, Novotny P, Xu Z, Wang F. Applications of Blockchain Technology for Data-Sharing in Oncology: Results from a Systematic Literature Review. Oncology 2020;98(6):403 View
  26. Javed F, Antevski K, Mangues-Bafalluy J, Giupponi L, Bernardos C. Distributed Ledger Technologies for Network Slicing: A Survey. IEEE Access 2022;10:19412 View
  27. Chen H, Chu Y, Lai F. Mobile time banking on blockchain system development for community elderly care. Journal of Ambient Intelligence and Humanized Computing 2023;14(10):13223 View
  28. Han Y, Zhang Y, Vermund S. Blockchain Technology for Electronic Health Records. International Journal of Environmental Research and Public Health 2022;19(23):15577 View
  29. Bautista J, Usman M, Harrell D, Desai I, Holan C, Cowley C, Alexander J, Hanson L, Meyer E, Khurshid A. Qualitative Study of Participant Impressions as Simulated Patients of MediLinker—A Blockchain-Based Identity Verification Application. ACI Open 2022;06(01):e22 View
  30. NATHANI N, Hasan Z. IMPACT OF AI IN INTERNET OF MEDICAL THINGS FOR HEALTH CARE DELIVERY. International Journal of Engineering Technologies and Management Research 2021;8(8):18 View
  31. Li C, Liu J, Qian G, Wang Z, Han J. Double chain system for online and offline medical data sharing viaprivate and consortium blockchain: A system design study. Frontiers in Public Health 2022;10 View
  32. Yeung K. The Health Care Sector’s Experience of Blockchain: A Cross-disciplinary Investigation of Its Real Transformative Potential. Journal of Medical Internet Research 2021;23(12):e24109 View
  33. Yongjoh S, So-In C, Kompunt P, Muneesawang P, Morien R. Development of an Internet-of-Healthcare System Using Blockchain. IEEE Access 2021;9:113017 View
  34. Stach C, Gritti C, Przytarski D, Mitschang B. Assessment and treatment of privacy issues in blockchain systems. ACM SIGAPP Applied Computing Review 2022;22(3):5 View
  35. Krichen M, Ammi M, Mihoub A, Almutiq M. Blockchain for Modern Applications: A Survey. Sensors 2022;22(14):5274 View
  36. Hamed T. Blockchain-based internet of medical things (IoMT) for healthcare management. i-manager’s Journal on Cloud Computing 2022;9(2):21 View
  37. Hiwale M, Walambe R, Potdar V, Kotecha K. A systematic review of privacy-preserving methods deployed with blockchain and federated learning for the telemedicine. Healthcare Analytics 2023;3:100192 View
  38. Giarnieri E, Scardapane S. Towards Artificial Intelligence Applications in Next Generation Cytopathology. Biomedicines 2023;11(8):2225 View
  39. Issa R, Wood C, Rajagopalan S, Chestnov R, Chesters H, Shannon G. Addressing Planetary Health through the Blockchain—Hype or Hope? A Scoping Review. Challenges 2023;15(1):3 View
  40. Moradimokhles H, Pourjamshidi M, Mozafari O. Exploring the role of blockchain technology in medical education: Future opportunities and challenges. Journal of Medical Education Development 2024;17(55):138 View

Books/Policy Documents

  1. de Araújo Novaes M, Basu A. Fundamentals of Telemedicine and Telehealth. View
  2. Peisl T, Shah B. Systems, Software and Services Process Improvement. View
  3. . Fundamentals of Telemedicine and Telehealth. View
  4. Kara O, Kurutkan M. The Impact of Artificial Intelligence on Governance, Economics and Finance, Volume I. View
  5. Fonseca-Gomes J, Francisco D, Sequeira J. Political and Economic Implications of Blockchain Technology in Business and Healthcare. View
  6. Menon S, Prasad S, Soni G. Using Multimedia Systems, Tools, and Technologies for Smart Healthcare Services. View
  7. Balaji V, Dinesh Kumar J. Internet of Things, Artificial Intelligence and Blockchain Technology. View
  8. Pandey R, Pandey A, Maurya P, Singh G. The Internet of Medical Things (IoMT) and Telemedicine Frameworks and Applications. View
  9. Y. N, Shahid S. Unleashing the Potentials of Blockchain Technology for Healthcare Industries. View
  10. Panimalar S, Gunasundari S. Emerging Trends in Expert Applications and Security. View
  11. Lu Y. Digital Transformation in Healthcare in Post-Covid-19 Times. View
  12. Kumar Giri S, Dash S. Blockchain Technology in Healthcare - Concepts, Methodologies, and Applications. View
  13. Steinhauser S, Stadler V, Hüsig S. Technologien und Technologiemanagement im Gesundheitswesen. View
  14. Prabakaran P, Choudhary M, Kumar K, Loganathan G, Salih I, Kumari K, Karthick L. Trends and Applications in Mechanical Engineering, Composite Materials and Smart Manufacturing. View
  15. Wirayasa I, Chimankar A, Madhumithaa N, Shankar U, Karthick L, J. S. Trends and Applications in Mechanical Engineering, Composite Materials and Smart Manufacturing. View