Principal findings
Perceived concerns and risks with conventional HIEs
The respondents expressed various concerns related to current HIE systems, such as direct emails or lookup models. The first category of problem is related to data quality in HIE databases. Storing incomplete, duplicate, inaccurate patient information in shared records and lack of real-time access to patient data could have detrimental consequences such as wrong treatments and incorrect medicine. Moreover, medical records can be altered, manipulated, or even removed by any entities participating in HIE initiatives. This issue poses an essential risk to the reliability of HIE databases. The second theme has been shaped around skepticism about the conventional exchange platforms. The existing HIEs are mainly conducted through EHRs, which are centralized platforms, and data exchange occurs in a central ownership environment. One common issue with EHR-based exchanges is the lack of standards because healthcare providers may use different uncertified EHRs. The other possible issue is ambiguous data ownership and the lack of visibility of sharing process, which arises due to centralization. In line with the literature, centralization also may increase the odds of privacy invasion, security issues, and data breaches [28]. Since a central repository is more likely to encounter a single point of failure, technical security measures may not ensure health information privacy. The last theme is related to care coordination and trusting relationships in HIE networks. Consistent with previous studies, the central HIE systems work well when various central EHR systems collaborate through a trusting environment [29]. For instance, if a provider uses his/her direct email to share patient information with an unaffiliated counterpart, first, the recipient should be known and trusted. The trust process does not determine by technology, and it is a human factor. The sender should know who the recipient is and whether he/she is trustable. Thus, a lack of trust in an HIE network may prevent entries from collaboration and result in delays in care delivery.
Perceived benefits of blockchain
Respondents pointed out several benefits expected from blockchain applications in HIEs. These benefits could mainly address the key challenges and risks with conventional HIE systems. First, the benefits stem from innovative technological features of blockchain as a radical change that could substitute the business model of established organizations. Blockchain technology offers unique characteristics, such as dual-key encryption that adds a robust security layer to conventional HIE systems. Consistent with previous studies, the decentralized network of distributed nodes can add more security and visibility to transactions because it doesn’t have data breach risks possible with centralized EHR systems [30]. Since a paramount concern associated with HIEs is privacy and security issues, implementing a system that can minimize data collection issues, unauthorized access, and secondary use of data would be a competitive advantage for healthcare organizations. Moreover, a decentralized computing platform processes complex smart contracts to serve a myriad of use cases. Smart contracts can digitally define the terms of the agreement between information seekers and information providers that can be performed automatically without a third party. Blockchain-based HIE can utilize smart contracts to integrate data based on the creation of patient-provider relationships. Thus, blockchain can add transparency into the data sharing process as all entities (including patients) can view what health information is collected and shared, why it is exchanged, and to whom it is transferred? As highlighted by previous studies, smart contracts contain contracts and requirements for data ownership, access control, and authorization [31]. Smart contracts can automatically enforce transactions to obtain consensus from providers and patients before giving viewership to a third party. Smart contracts can reduce transaction and legal, operational, and infrastructure costs in the absence of a middleman. Furthermore, smart contracts can replace trust with automatically-executed terms and conditions according to personal data privacy policies, health data record policies, and third-party involvement policies.
Second, the decentralized nature of blockchain can also improve interoperability standards in healthcare. Decentralization based on distributed nodes can enhance the empowerment of end-users and contribute to the democratization of data. Blockchain-based HIE can enable various nodes to communicate with each other. Patients and providers can have their own nodes to participate in the P2P network. Each node has some responsibilities, such as reading, writing, and entering content. Caregivers can review the historical interaction between healthcare professionals and patients in real-time. Blockchain-powered HIE could provide a comprehensive log of medical records available to patients and enables them to accept or reject relationships with healthcare providers. Consistent with previous studies, blockchain platforms can resolve interoperability conflicts between involved entities through real-time monitoring of patients’ health status and enhanced care coordination [32].
Third, previous studies propose that blockchain could improve system performance by increasing the effectiveness and efficiency of information-sharing transactions [33]. Historically, blockchain networks have proved that they could significantly reduce system downtime. Centralized HIEs could suffer from network downtime and inactive time. However, one premise of blockchain is high uptime with fewer to no system breaks that could provide high availability [34]. The distributed ledger enables each node to keep a copy of the entire ledger and administer the chain independently. Thus, if one node fails, no disruption occurs, the remaining nodes continue operating well. Blockchain-based HIEs could reduce the legal and operational costs of exchange transactions because there is no need to pay an intermediary. These platforms also increase the speed of transactions and provide faster data exchange since smart contracts make medical records accessible in real-time. For example, when a healthcare provider adds new health information or a patient shares a portion of medical records with an authorized third party, automated information is made available in the network. The blockchain HIE could instantaneously allow a patient to recover medical records from the provider node or authorize a third party to access their shared data on demand.
Perceived concerns and risks with blockchain
Respondents also highlighted some concerns and risks associated with the use of blockchain in HIEs. The first source of concerns is related to individual perceptions about blockchain technology as a whole. Since blockchain is still new, many people (including healthcare professionals) have little knowledge about platforms designed based on this radical technology. Lack of knowledge may also lead to a lack of trust because many people believe that blockchain is in its infancy and is not ready to be used in a sensitive environment such as healthcare [35]. Physicians are professionals in a specific body of knowledge, but they are not necessarily technical experts. Insights and understandings about advanced technology are a function of exposure to technological innovations. However, very few hospitals have already integrated blockchain into their practices; thus, many physicians are still not wide-open to blockchain applications. Respondents expressed that lots of physicians might also confuse blockchain applications in healthcare with cryptocurrency (such as bitcoin blockchain). Since most people only hear negative news when it makes it to the mainstream media and several media coverage highlights illegal use of bitcoin in the dark market, it may affect the general perceptions of physicians about blockchain technology.
The second type of concern is related to the technical aspect of blockchain. Physicians aware of blockchain applications in healthcare may believe that this technology is not easy to use. Participants mentioned that the complexity of blockchain technology (such as mining, encryption protocols, and nodes) is a considerable barrier to adoption. Physicians might believe that using blockchain to exchange health information is complicated, and they may not be able to handle all technical requirements to control their assigned nodes. The other technical concern is that developing the right blockchain architecture compatible with the healthcare domain would be challenging. Different model structures use different verification procedures and consensus algorithm. For instance, public or permissioned blockchain uses different ways of controlling and showing transactions [36]. Permissionless maybe is not a good option for blockchain HIEs since anyone can read and write on the network, and all transactions (i.e., exchange records) are made public with individual anonymity. Permissioned blockchain can be based on different architectures, such as private and federated. In the private blockchain, verification is done by just the owner of the blockchain. That single “highly trusted” organization can control the rights of reading and writing data on the blockchain. However, it would be challenging to align many organizations to use the same blockchain. As proposed by other studies, in the federated (or consortium) blockchain, more than one organization is in charge of the system [37]. Thus, it can be a better fit for HIE initiatives where multiple entities control separate nodes to share information between different organizations. Complying with the technical aspects of various blockchain architectures could be another source of concern for healthcare professionals.
The third category of concern is related to organizational strategies and practices to select and implement blockchain technology. Respondents stated that a new system (e.g., blockchain HIEs) may not always solve a data-sharing problem between healthcare organizations. As highlighted by previous studies, many interoperability issues can be rooted in ineffective procedures or partial use of conventional HIEs [38]. Blockchain HIE initiatives may be terminated because they are not aligned with hospital strategic directions or are not supported by policymakers of healthcare organizations. Hospital leaders may consider quantifiable data and reports (data-driven decisions) or use their subjective judgments to conclude that initial costs and long-term costs associated with maintaining, supporting, and enhancing the blockchain system make blockchain HIEs unfeasible. Another organizational issue in system acquisition is selecting the right application that meets the organization’s needs. In the design phase, managers should finalize the make/buy decision by choosing between designing an in-house blockchain platform or contracting with an external supplier. Conducting a cost–benefit analysis can lead to contracting with an outside blockchain developer, designing a blockchain platform in-house, or purchasing from a blockchain vendor. When a healthcare organization passes the selection phase, they enter the next important phase, the implementation stage [26]. Implementation is characterized by allocating the required resources, changing conventional data sharing workflow, installing a new blockchain system, testing the blockchain-HIE platform, integrating blockchain into healthcare practices, developing network infrastructure, planning implementation duration, and calculating implementation costs (i.e., recurring and non-recurring costs). Arranging these initiatives needs strategic planning, human inputs, infrastructure resources, and support from management.
The last class of concern refers to market-related issues. The success of blockchain-powered HIEs is also dependent on external factors that may not be under the direct control of a healthcare organization. One dimension of the market-oriented concerns is how the use of blockchain in healthcare is regulated. Respondents generally expressed that rules and regulations governing blockchain applications in healthcare are not very clear. Consistent with previous studies, since laws and regulations usually lag behind technological advancements, a lack of regulatory guidelines and supporting laws would be a source of concerns [10]. Respondents were not sure that blockchain-based HIEs were aligned with the Health Insurance Portability and Accountability Act (HIPAA) privacy and security compliance metrics. The other external risk is the industry traction and lack of blockchain adoption in the market. HIE initiatives should occur in a network of providers, and it would be impractical if only a few healthcare organizations joined the network. Thus, the value of network membership to one user is positively affected when other users join and enlarge the network. The value in this context can be effective data-sharing across several providers, resulting in better treatment, care planning, and patient safety. Consistent with Alabi [39], such markets refer to exhibit network effects or network externalities. Besides network effects, lack of collaboration among various stakeholders (e.g., patients, providers, insurance companies, etc.) can cause risks. It would be possible for many stakeholders to join the network, but few of them may fully participate in blockchain projects through their nodes. Lack of stakeholders' participation can lead to delays in data exchange in the network. In particular, the role and responsibilities of patient nodes in transactions are still not clear for other beneficiaries. For instance, if a provider adds new medical exam records to the blockchain but the patient node does not accept/reject relationships to verify the transaction, it will slow down the work process, and the data may not be recorded in the ledger.
A guiding framework
The findings imply that physicians expect several benefits from blockchain HIE; however, concerns and risks are also not negligible. The calculus of perceived benefits and risks may determine value from blockchain applications in information exchange among healthcare providers. Thus, if blockchain delivers less added value than conventional HIE methods, healthcare professionals will negatively favor blockchain-based HIE. This study contributes to the current discussion on blockchain in healthcare by providing a better picture of what benefits and concerns may shape physicians' perceptions about blockchain-based HIE initiatives. Figure 1 displays a guiding framework to show the main themes, categories, and concepts resulting from interviews.
Managerial contributions
In this section, practical implications of the results are discussed. These practical implications can be helpful for both healthcare managers and blockchain system developers. The first managerial contribution is that the pre-adoption phase is as important as the implementation stage for leveraging successful blockchain solutions. Pre-adoption is a critical step because lack of awareness and familiarity of users (physicians in particular) with the concepts and bases of blockchain is raised as an essential concern. In the pre-adoption phase, healthcare organizations need to create awareness, evaluate the possible disruptive effect of blockchain technology on current workflow and practices, and conduct preliminary exploration [40]. Thus, managers may begin with the fundamentals (like learning blockchain) and familiarize physicians with basic blockchain terms and technical specifications. Providing a glossary of the most popular and essential jargon, terms, and shorthands can result in higher education and blockchain guides. Since healthcare professionals generally lack insight into the world of blockchain solutions, exposure through seminars, workshops, or online hands-on training could allow potential users to better understand the business value of blockchain-enabled HIEs.
The second recommendation is that healthcare managers revisit their organizational strategy and address what they currently do regarding information exchange, why blockchain is required, what blockchain architecture is the best option, and how they can implement it. The unauthorized sharing of sensitive health information can erode public trust in healthcare systems [41]. Healthcare organizations can encourage increased adoption of blockchain for secure and interoperable HIE. Blockchain system developers can play an essential role in designing blockchain-based HIE that improves interoperability. Blockchain system developers need to develop federated blockchain models for HIE that enable healthcare organizations to cooperate with various entities. Then, Blockchain system developers can define technical standards and collectively urge regulators to articulate compliance requirements to encourage scaled blockchain solutions for HIE [42]. Handling regulatory uncertainty such as compliance with HIPAA to minimize data breach risk could significantly support organizations in adopting blockchain in the healthcare industry. When several entities participate in a federated blockchain for information sharing, it allows healthcare strategists to develop legal frameworks for different use cases and impact the development of the regulation in their favor.
The third practical contribution is how healthcare organizations can make sense of the potential value of blockchain-enabled HIEs versus conventional HIE models. Mangers and strategies can communicate the problems and risks attached to conventional HIEs to physicians. Then, the key advantages of using blockchain-based HIEs should be highlighted in organizations’ communication channels (such as an intranet or forums) to clarify the value-added of blockchain applications. Finally, they need to express possible blockchain-related risks and how they can address them. For instance, physicians may be worried about the additional workload they may encounter when checking the medical history in a severe condition or strict regulations that make it difficult to reap blockchain’s potential and, then, to obtain the promised value of blockchain [31]. Clear organizational policies and guidelines should be in place to provide information about how managers figure out the compliance, setup, integration, education, workload, and live support.
Finally, dependency on intra- and inter-organizational collaborations is a significant barrier to the successful implementation of permissioned blockchain [43]. Any organizational chain will entail a certain amount of risk. Integrating blockchain is a radical change that fundamentally transforms business models and may involve higher risk for healthcare managers and users. Healthcare organizations that retrofit their strategies with blockchain-based HIEs may strongly believe in decentralized technology. They may want to be a technology leader by developing technological standards and providing a network for other organizations unfamiliar with blockchain to join. They may consider blockchain as a technology to redesign the organizations’ current business model to remain competitive in a fierce market. Cost reductions and efficiency gains provided by blockchain can provide the opportunity to improve healthcare organizations’ market positioning. Thus, other affiliated or unaffiliated organizations may be willing to collaborate within a network to be involved in information-sharing activities. This dynamism can create an environment enabling all healthcare organizations in the blockchain network to obtain the value-added of the technology. Moreover, innovative healthcare organizations can form a blockchain unit (including passionate physicians and IT department representatives) in which they work on the adoption of blockchain, learning competencies, and sharing with other physicians under strong management support.
Study strengths
This qualitative study was mainly conducted to discover physicians’ perceptions, concerns, and expectations about using blockchain in HIE systems. Thirty-eight physicians who were familiar with HIE and blockchain technology were selected to provide valid and relevant insights. The study design has some strengths. First, the interviewees were sampled from various specialties, experience levels, workplaces, healthcare settings, with diverse personal demographics, such as age and gender. This approach could increase data richness by identifying themes generated from interviewing physicians with different backgrounds. Second, the participants of this study were reasonably familiar with HIE and blockchain principles, which was not likely seen in previous studies. Third, this research is among the first qualitative studies to translate physicians’ experiences and perceptions to specific suggestions for the successful rollout of blockchain-based HIE in healthcare organizations.
Limitations and future studies
This study has several limitations. First, the findings of this study, which focused on a group of physicians in the United States, may not be generalizable to other countries. Moreover, 38 participants cannot entirely represent the opinions and perspectives of the entire physician population. It would be interesting for future studies to examine the perceptions of more physicians in other countries with different technology infrastructures. Second, the participants in this study were selected using purposive sampling based on particular inclusion criteria to obtain meaningful and practical insights. Thus, respondents were selected on the basis of their familiarity with HIE efforts and blockchain applications in healthcare. Thus, future research can extend this study using other sampling methods (e.g., probability sampling) to include a more diverse sample of physicians. Third, this study attempted to explore the opinions and attitudes of physicians, not other HIE stakeholders (such as health authorities). It can be of interest for future research to investigate the perceptions of other stakeholders, such as patients or health care policymakers. Fourth, the coding procedure consisted of two researchers using NVIVO software to compare and contrast the interview transcripts, identify themes, and choose exemplary quotes. Other researchers may have identified different concepts, themes, or quotes. Future researchers can extend this study and mitigate researcher bias by regular discussions with a larger research team. Finally, this qualitative study identified several constructs (perceived benefits and risks) that may affect physicians’ intentions to use blockchain-based HIE in their practices. Future quantitative research is needed to examine the significance and importance of these constructs in the successful implementation of blockchain at hospital-based levels. Moreover, further studies are required to empirically examine the relationships between variables exhibited in the guiding model to measure the prediction power of the proposed model.