Article: The HealthChain Blockchain for Electronic Health Records: Development Study

Background: Health care professionals are required to maintain accurate health records of patients. Furthermore, these records should be shared across different health care organizations for professionals to have a complete review of medical history and avoid missing important information. Nowadays, health care providers use electronic health records (EHRs) as a key to the implementation of these goals and delivery of quality care. However, there are technical and legal hurdles that prevent the adoption of these systems, such as concerns about performance and privacy issues.

Objective: This study aimed to build and evaluate an experimental blockchain for EHRs, named HealthChain, which overcomes the disadvantages of traditional EHR systems.

Methods: HealthChain is built based on consortium blockchain technology. Specifically, three organizations, namely hospitals, insurance providers, and governmental agencies, form a consortium that operates under a governance model, which enforces the business logic agreed by all participants. Every peer node hosts an instance of the distributed ledger consisting of EHRs and an instance of chaincode regulating the permissions of participants. Designated orderers establish consensus on the order of EHRs and then disseminate blocks to peers.

Results: HealthChain achieves functional and nonfunctional requirements. It can store EHRs in a distributed ledger and share them among different participants. Moreover, it demonstrates superior features, such as privacy preservation, security, and high throughput. These are the main reasons why HealthChain is proposed.

Conclusions: Consortium blockchain technology can help to build new EHR systems and solve the problems that prevent the adoption of traditional systems.

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References

1.

Valle J, Gomes C, Godby T, Coustasse A . The Feasibility of the Nationwide Health Information Network. Health Care Manag (Frederick). 2016; 35(2):103-12. DOI: 10.1097/HCM.0000000000000101. View

2.

Lapsia V, Lamb K, Yasnoff W . Where should electronic records for patients be stored?. Int J Med Inform. 2012; 81(12):821-7. DOI: 10.1016/j.ijmedinf.2012.08.008. View

3.

Yli-Huumo J, Ko D, Choi S, Park S, Smolander K . Where Is Current Research on Blockchain Technology?-A Systematic Review. PLoS One. 2016; 11(10):e0163477. PMC: 5047482. DOI: 10.1371/journal.pone.0163477. View

4.

Ichikawa D, Kashiyama M, Ueno T . Tamper-Resistant Mobile Health Using Blockchain Technology. JMIR Mhealth Uhealth. 2017; 5(7):e111. PMC: 5550736. DOI: 10.2196/mhealth.7938. View

5.

Nugent T, Upton D, Cimpoesu M . Improving data transparency in clinical trials using blockchain smart contracts. F1000Res. 2017; 5:2541. PMC: 5357027. DOI: 10.12688/f1000research.9756.1. View