More and more people have biological samples and health information stored with a range of public and private entities, including direct-to-consumer health and ancestry genetic testing companies, clinical laboratories, cohort initiatives and large-scale biobanks. Personal health information includes many types of information, ranging from qualitative or demographic information to genomic data and even biobanked tissue itself (1). And with the rise of Big Data research initiatives, personal information from a range of sources is being compiled, shared and analyzed in ever more complex ways (2). Often, individuals are asked to provide consent for the storage and use of their information for research and other permitted purposes. In other circumstances, policies allow research to be conducted without consent.

The obligation to maintain the privacy of the research participant is foundational to biomedical research. It is mentioned in virtually every research ethics guideline, including well-established international statements (3,4), national policies (5,6), and professional ethics codes (7,8). Privacy is expected by the general public and research participants, and it is a key component of public trust in the research enterprise (9). But there is growing concern about the challenges of keeping participant information private and confidential (10,11). Growth in sophisticated information technologies that can facilitate data breaches along with increasing collection and sharing of digitized health information may make it more difficult for researchers, public research institutions and private companies to maintain this obligation (12).

When consent is required for research involving health information and biological samples, the relevant consent process often includes information about data protection, the entities and individuals that will have access, and why confidentiality cannot always be guaranteed. But given the shifting information technology landscape, to what degree does the consent process need to evolve, if at all, to reflect emerging privacy and data protection concerns? Have privacy risks – and the public concerns and perceptions about those risks – changed enough to warrant re-consenting for samples that were collected with data protection guarantees that are no longer realistic? What privacy risks ought to be disclosed to participants and when? And are the promises of anonymity that are so often made to research participants and research ethics boards still tenable?

In this article we explore these questions through the lens of Canadian health law and research ethics policies. The goal is to map the nature of the emerging consent challenges. As research involving health information and biological samples becomes increasingly common, essential and complex, the issues associated with privacy will intensify. Here, we seek to highlight several areas that warrant immediate attention.

A number of recent studies have highlighted how emerging computational strategies can be used to identify individuals in health data repositories managed by public or private institutions (13). And this is true even if the information has been anonymized and scrubbed of all identifiers (14). A study by Na et al., for example, found that an algorithm could be used to re-identify 85.6% of adults and 69.8% of children in a physical activity cohort study, “despite data aggregation and removal of protected health information” (15). A 2018 study concluded that data collected by ancestry companies could be used to identify approximately 60% of Americans of European ancestry and that, in the near future, the percentage is likely to increase substantially (16). Such concerns have led at least one company to offer “anonymous” genome sequencing (17). Furthermore, a 2019 study successfully used a “linkage attack framework” – that is, an algorithm aimed at re-identifying anonymous health information – that can link online health data to real world people and thus, as suggested by the authors, clearly demonstrates “the vulnerability of existing online health data”(18). And these are just a few examples of the developing approaches that have raised questions about the security of health information framed as being confidential. Indeed, it has been suggested that today’s “techniques of re-identification effectively nullify scrubbing and compromise privacy” (19).

In addition, data breaches involving health information are on the rise. A study from the US found that the rate of data breaches increased by 70% between 2010 and 2017 (20,21). Sensitive demographic and financial information is commonly compromised (22). In Canada, there have been a number of high profile breaches involving publicly held health information (23,24). In British Columbia, for example, a 2016 incident led to a province-wide freeze of biomedical research involving health information (25). Data breaches in the private sector are also increasing, with most being caused by malicious or criminal attacks (26,27). In addition, there are examples of inappropriate sharing of data for research purposes, as exemplified by the potential class action lawsuit in the United States that accuses the University of Chicago of sharing identifiable patient data with Google (28).

There have also been highly publicized instances of genetic repositories being used by law enforcement agencies for the purpose of criminal investigations. Probably the most famous was when genetic information from a direct-to-consumer genealogy company was used to uncover the identity of and apprehend the Golden State murderer (29,30). Since then, there have been numerous other examples of repositories of genetic samples being used in similar situations (31). While the use of genetic databases in this context does not necessarily implicate health research biobanks and cohort studies, it once again emphasizes how information that was collected under a presumption of confidentiality may be used in controversial and unexpected ways. These cases have also made the privacy issues very public – as highlighted by this New York Times headline: “Sooner or Later Your Cousin’s DNA Is Going to Solve a Murder … The price may be everyone’s genetic privacy” (32). This coverage may impact public perceptions and concerns about privacy issues and, perhaps, expectations regarding what is disclosed during the consent process.

The emergence of powerful technologies and re-identification strategies coupled with a rising number of privacy controversies has prompted some commentators to go so far as to suggest that the entire concept of privacy and anonymity is dead (27,33,34). Indeed, it has been suggested that we now live in the era of privacy nihilism – a time when it is becoming near impossible to maintain privacy and to control what others can learn about you (35). Of course, not all data repositories are the same and the risk of a data breach likely differs significantly depending on many factors. Still, these privacy controversies and technology trends highlight that we may need to reconceptualise how we think about and frame privacy for the purposes of consent. This seems particularly so given that much of consent law is based on what a research participant may want to know about risks and not necessarily merely those that are most significant.

The public, and patients in particular, are mostly supportive of the idea of sharing their health information and biological material for research purposes (36,37). However, that support is often contingent on the promise of privacy and the de-identification of information (38), a strategy that, as noted, may not be effective at protecting privacy. Despite the technological reality that it has become near impossible to guarantee its existence, people still care about privacy, particularly in the context of biological samples (39) and health information (37). A 2017 study from the US found that “[n]inety percent of participants agreed health information privacy was important to them; 64% agreed that they worried about the privacy of their health information” (37). A 2019 study from Canada found that while most people support the contribution of personal data for research purposes, “respondents placed high importance on deidentification of data” and only “58% were confident about the privacy and security procedures in place” (40).

This work highlights the degree to which support for research is linked to assurances of privacy (38). These concerns may be heightened in the context of genetic information. While the way in which individuals think about privacy in the context of health information can vary considerably (41), genetic information is generally viewed, rightly or not (42), as being especially sensitive. Studies have consistently found that, if asked, people will say they are concerned about both genetic privacy (43,44) and data breaches in relation to online data (45).

We need to take care not to oversimplify privacy concerns. Individual circumstances will, for example, change how people rate privacy as a concern in the context of research. A patient or an individual with a sick family member may view the privacy concerns of health information differently than a person who is not directly or indirectly involved in a research initiative (46), and there is also variation within these groups (47). Likewise, whether a research participant is paid or unpaid for their involvement may also change the calculus (44). People balance risks differently for many reasons. Still, the body of available research suggests people are concerned about privacy and the potential for data breaches (38).

Studies have also found that the public is concerned about data custodians sharing personal information without consent. A 2018 survey, for example, found that 85% of Americans are concerned that DTC genetic testing companies will share genetic data without permission and 71% are worried medical researchers will do the same (48). This concern about privacy can impact willingness to use online services (49) and to participate in research that involves the collection of health information and genetic material, such as biobanking (50). Such data again demonstrates public attention to privacy in this context and the need to be sensitive to these issues during the consent process.

Privacy issues are also getting more and more media coverage (32,51,52), which may then increase concern for privacy by making people more aware of the relevant issues. Research has shown that media coverage of a risk can make that risk seem more likely. This is due to the “availability bias”, a well-known cognitive bias that affects our perceptions (53). And there are indications that an increasing percentage of the public wish to retain significant control over their health information. Indeed, we have seen the rise of the concept of “biorights” (54) – that is, the desire for research participants to control and profit from biological material donated for research purposes. This movement has been stirred, at least in part, by both the perception that biological samples are worth a significant amount of money and controversies associated with the mishandling of biological samples (55), such as the much publicized case of Henrietta Lacks (39).

These kinds of developments may heighten the public’s interest in and concern about privacy issues, which may, in turn, trigger interest in heightened disclosure in the context of consent. Indeed, a 2018 survey from the US found that “data privacy” was ranked as the single biggest concern in relation to the private sector, above job creation, access to healthcare and education (56). A 2016 study by the Office of the Privacy Commissioner of Canada found that the public is becoming increasingly concerned about protection of personal privacy, with 92% saying they are at least somewhat concerned (57). Thirty-seven percent say they are extremely concerned, which is up from 25% in 2012 (57).

The collection and use of biological samples and digitized health information for research purposes has long generated legal and research ethics issues (55,58). It seems likely that the privacy issues outlined above may further complicate these challenges. Here we focus more narrowly on two specific and practical questions: what privacy risks need to be disclosed and when recontact and reconsent is required. Again, our aim is to map these challenges to inform future conceptual and empirical work.

In this age of Big Data research, it seems likely that there will be an increasing need to collect biological samples and digital health information. At the same time, as computational and information technologies progress, the risks to privacy will expand. The same technologies that are making health information more clinically and scientifically valuable – such as inexpensive sequencing, online databases and AI – are the tools that can also be leveraged to compromise privacy.

The promise of anonymity is becoming ever more tenuous. Yet, it remains a foundational component of the research ethics policies that underlay and enable health research. The potential inability to ensure anonymity could have significant ramifications. The public values privacy and, as a result, the inability to ensure it could re-frame the consent process and how participants think about participation in research initiatives. It would be valuable to generate more data on the public’s and research participants’ tolerance for the risk of privacy breaches and to engage in research to help determine how best to communicate those risks in a balanced manner.

The fact that privacy is highly valued affirms and even heightens the legal obligation to disclose privacy related risks. Material information about risks, including risks associated with privacy, must be disclosed. If there is a material change in risk, this information needs to be disclosed and may trigger an obligation to reconsent. Given the rapid rate of development in AI and other domains relevant to data protection, important questions arise as to what kind of advances in reidentification technologies could constitute a material change in risk. Such considerations will require ongoing monitoring by the research ethics community and seem likely, at the very least, to complicate the way we think about the protection of privacy.