The language of “participant-driven research,” “crowdsourcing” and “citizen science” is increasingly being used to encourage the public to become involved in research ventures as both subjects and scientists. Originally, these labels were invoked by volunteer research efforts propelled by amateurs outside of traditional research institutions and aimed at appealing to those looking for more “democratic,” “patient-centric,” or “lay” alternatives to the professional science establishment. As mainstream translational biomedical research requires increasingly larger participant pools, however, corporate, academic and governmental research programs (...) are embracing this populist rhetoric to encourage wider public participation. We examine the ethical and social implications of this recruitment strategy. We begin by surveying examples of “citizen science” outside of biomedicine, as paradigmatic of the aspirations this democratizing rhetoric was originally meant to embody. Next, we discuss the ways these aspirations become articulated in the biomedical context, with a view to drawing out the multiple and potentially conflicting meanings of “public engagement” when citizens are also the subjects of the science. We then illustrate two uses of public engagement rhetoric to gain public support for national biomedical research efforts: its post-hoc use in the “care.data” project of the National Health Service in England, and its proactive uses in the “Precision Medicine Initiative” of the United States White House. These examples will serve as the basis for a normative analysis, discussing the potential ethical and social ramifications of this rhetoric. We pay particular attention to the implications of government strategies that cultivate the idea that members of the public have a civic duty to participate in government-sponsored research initiatives. We argue that such initiatives should draw from policy frameworks that support normative analysis of the role of citizenry. And, we conclude it is imperative to make visible and clear the full spectrum of meanings of “citizen science,” the contexts in which it is used, and its demands with respect to participation, engagement, and governance. (shrink)

Since the late 1980s, the human genetics and genomics research community has been promising to usher in a “new paradigm for health care”—one that uses molecular profiling to identify human genetic variants implicated in multifactorial health risks. After the completion of the Human Genome Project in 2003, a wide range of stakeholders became committed to this “paradigm shift,” creating a confluence of investment, advocacy, and enthusiasm that bears all the marks of a “scientific/intellectual social movement” within biomedicine. Proponents of this (...) movement usually offer four ways in which their approach to medical diagnosis and health care improves upon current practices, arguing that it is more “personalized,” “predictive,” “preventive,” and “participatory” than the medical status quo. Initially, it was personalization that seemed to best sum up the movement's appeal. By 2012, however, powerful opinion leaders were abandoning “personalized medicine” in favor of a new label: “precision medicine.” The new label received a decisive seal of approval when, in January 2015, President Obama unveiled plans for a national “precision medicine initiative” to promote the development and use of genomic tools in health care. (shrink)

Advances in genomics have led to calls for developing population-based preventive genomic sequencing programs with the goal of identifying genetic health risks in adults without known risk factors. One critical issue for minimizing the harms and maximizing the benefits of PGS is determining the kind and degree of control individuals should have over the generation, use, and handling of their genomic information. In this article we examine whether PGS programs should offer individuals the opportunity to selectively opt out of the (...) sequencing or analysis of specific genomic conditions or whether PGS should be implemented using an all-or-nothing panel approach. We conclude that any responsible scale-up of PGS will require a menu approach that may seem impractical to some, but that draws its justification from a rich mix of normative, legal, and practical considerations. (shrink)

In discussions of the ethics of human gene therapy, it has become standard to draw a distinction between the use of human gene transfer techniques to treat health problems and their use to enhance or improve normal human traits. Some dispute the normative force of this distinction by arguing that it is undercut by the legitimate medical use of human gene transfer techniques to prevent disease - such as genetic engineering to bolster immune function, improve the efficiency of DNA repair, (...) or add cellular receptors to capture and process cholesterol. If disease prevention is a proper goal of medicine, these critics argue, and the use of gene transfer techniques to enhance human health maintenance capacities will help achieve that goal, then the “treatment/enhancement‘ distinction cannot define the limits of legitimate gene therapy. In this paper, I argue that a line can be drawn between prevention and enhancement for gene therapy (and thus between properly medical and nonmedical uses of gene therapy), but only if one is willing to accept two rather old-fashioned claims: 1) Some health problems are best understood as if they were entities in their own right, reifiable as processes or parts in a biological system, with at least as much ontological objectivity and theoretical significance as the functions that they inhibit. 2) Legitimate preventive genetic health care should be limited to efforts to defend people from attack by these more robust pathological entities, rather than changing their bodies to evade social injustices. (shrink)

In 2015, a flourish of “alarums and excursions” by the scientific community propelled CRISPR/Cas9 and other new gene-editing techniques into public attention. At issue were two kinds of potential gene-editing experiments in humans: those making inheritable germ-line modifications and those designed to enhance human traits beyond what is necessary for health and healing. The scientific consensus seemed to be that while research to develop safe and effective human gene editing should continue, society's moral uncertainties about these two kinds of experiments (...) needed to be better resolved before clinical trials of either type should be attempted. In the United States, the National Academies of Science, Engineering and Medicine convened the Committee on Human Gene Editing: Scientific, Medical and Ethical Considerations to pursue that resolution. The committee's 2017 consensus report has been widely interpreted as “opening the door” to inheritable human genetic modification and holding a line against enhancement interventions. But on a close reading it does neither. There are two reasons for this eccentric conclusion, both of which depend upon the strength of the committee's commitment to engaging diverse public voices in the gene-editing policy-making process. (shrink)

We examine a set of debates in Practical Ethics commonly labeled “the ethics of human enhancement.” Our essay focuses on (1) conceptual concerns about the limits of legitimate health care—the treatment vs. enhancement distinction, (2) moral considerations about fairness, authenticity, and human nature that are common in discussing the use of medical technologies in competitive institutions like sports and academia, and (3) broader issues that pertain to science policy and the distribution and regulation of medical technologies.

: Some argue that human groups have a stake in the outcome of population-genomics research and that the decision to participate in such research should therefore be subject to group permission. It is not possible, however, to obtain prior group permission, because the actual human groups under study, human demes, are unidentifiable before research begins. Moreover, they lack moral standing. If identifiable social groups with moral standing are used as proxies for demes, group approval could be sought, but at the (...) expense of unfairly exposing these surrogates to risks from which prior group approval is powerless to protect them. Unless population genomics can proceed without targeting socially defined groups, or can find other ways of protecting them, it may fall to individuals to protect the interests of the groups they care about, and to scientists to warn their subjects of the need to do so. (shrink)

Expectations are high around the world that more research on human genomic variation will improve the utility of “precision medicine” and help address population health disparities through “precision public health”. In large measure, these expectations rest on the premise that researchers will be able to share human DNA samples and genomic data freely and widely across the international scientific community. The human genomics community pioneered polices of early deposit of genomic research data into open databases to facilitate the exchange and (...) use of data during the mapping and sequencing of the human genome in the 1990s, and the success of those policies has made a... (shrink)

Over the last decade, more U.S. taxpayers money has been spent trying to anticipate and address the bioethical issues raised by advances in human genetics than any other set of issues in the field. Does this make sense? Not everyone in bioethics thinks so. Some think there are more important topics, like issues of health care justice, that will be neglected if the field continues to follow the money to dwell on the moral challenges of a relatively small community of (...) research scientists. Others decry genetic exceptionalism as inappropriately singling out this scientific enterprise for criticism and regulation, when the same issues are faced even more acutely in other parts of the biomedical world. Human genetics is not accelerating as fast as pharmacology, for example, or as easy to abuse as virology, or as philosophically challenging as neurology. (shrink)

Over the last decade, more U.S. taxpayers money has been spent trying to anticipate and address the bioethical issues raised by advances in human genetics than any other set of issues in the field. Does this make sense? Not everyone in bioethics thinks so. Some think there are more important topics, like issues of health care justice, that will be neglected if the field continues to follow the money to dwell on the moral challenges of a relatively small community of (...) research scientists. Others decry genetic exceptionalism as inappropriately singling out this scientific enterprise for criticism and regulation, when the same issues are faced even more acutely in other parts of the biomedical world. Human genetics is not accelerating as fast as pharmacology, for example, or as easy to abuse as virology, or as philosophically challenging as neurology. (shrink)

Biomedical research using data from participants’ mobile devices borrows heavily from the ethos of the “citizen science” movement, by delegating data collection and transmission to its volunteer subjects. This engagement gives volunteers the opportunity to feel like partners in the research and retain a reassuring sense of control over their participation. These virtues, in turn, give both grass-roots citizen science initiatives and institutionally sponsored mHealth studies appealing features to flag in recruiting participants from the public. But while grass-roots citizen science (...) projects are often community-based, mHealth research ultimately depends on the individuals who own and use mobile devices. This inflects the ethos of mHealth research towards a celebration of individual autonomy and empowerment, at the expense of its implications for the communities or groups to which its individual participants belong. But the prospects of group harms — and benefits — from mHealth research are as vivid as they are in other forms of data-intensive “precision health” research, and will be important to consider in the design of any studies using this approach. (shrink)

In much the same way that genomic technologies are changing the complexion of biomedical research, the issues they generate are changing the agenda of IRBs and research ethics. Many of the biggest challenges facing traditional research ethics today — privacy and confidentiality of research subjects; ownership, control, and sharing of research data; return of results and incidental findings; the relevance of group interests and harms; the scope of informed consent; and the relative importance of the therapeutic misconception — have become (...) important policy issues over the last 20 years because of the ways they have been magnified by genomic research efforts. Research that examines the ethical, legal, and social implications of human genomics research has become a burgeoning international field of scholarship over the last 20 years, thanks in part to its support first by the genome research funding bodies in the U.S. and then by national science agencies in other countries. (shrink)

The United States, along with other nations and international organizations, has developed an elaborate system of ethical norms and legal rules to govern biomedical research using human subjects. These policies govern research that might provide direct health benefits to participants and research in which there is no prospect for participant health benefits. There has been little discussion, however, about how well these rules would apply to research designed to improve participants’ capabilities or characteristics beyond the goal of good health. When (...) mentioned at all in the literature, this so-called enhancement research, as opposed to research aimed at diagnosing, preventing, curing, or treating illnesses or medical conditions, is usually dismissed without explanation. (shrink)

As the international genomic research community moves from the tool-making efforts of the Human Genome Project into biomedical applications of those tools, new metaphors are being suggested as useful to understanding how our genes work – and for understanding who we are as biological organisms. In this essay we focus on the Human Microbiome Project as one such translational initiative. The HMP is a new ‘metagenomic’ research effort to sequence the genomes of human microbiological flora, in order to pursue the (...) interesting hypothesis that our ‘microbiome’ plays a vital and interactive role with our human genome in normal human physiology. Rather than describing the human genome as the ‘blueprint’ for human nature, the promoters of the HMP stress the ways in which our primate lineage DNA is interdependent with the genomes of our microbiological flora. They argue that the human body should be understood as an ecosystem with multiple ecological niches and habitats in which a variety of cellular species collaborate and compete, and that human beings should be understood as ‘superorganisms’ that incorporate multiple symbiotic cell species into a single individual with very blurry boundaries. These metaphors carry interesting philosophical messages, but their inspiration is not entirely ideological. Instead, part of their cachet within genome science stems from the ways in which they are rooted in genomic research techniques, in what philosophers of science have called a ‘tools-to-theory’ heuristic. Their emergence within genome science illustrates the complexity of conceptual change in translational research, by showing how it reflects both aspirational and methodological influences. (shrink)

Research uses of human bodies maintained by mechanical ventilation after being declared dead by neurological criteria, were first published in the early 1980s with a renewed interest in research on the newly or nearly dead occurring in about last decade. While this type of research may take many different forms, recent technologic advances in genomic sequencing along with high hopes for genomic medicine, have inspired interest in genomic research with the newly dead. For example, the Genotype-Tissue Expression program through the (...) National Institutes of Health aims to collect large numbers of diverse human tissues with the eventual goal of elucidating the genetic bases of common diseases through a better understanding of the relationship between genetic variation and gene expression. (shrink)

On October 1, 1988, thirty-five years after co-discovering the structure of the DNA molecule, Dr. James Watson launched an unprecedented experiment in American science policy. In response to a reporter's question at a press conference, he unilaterally set aside 3 to 5 percent of the budget of the newly launched Human Genome Project to support studies of the ethical, legal, and social implications of new advances in human genetics. The Human Genome Project, by providing geneticists with the molecular maps of (...) the human chromosomes that they use to identify specific human genes, will speed the proliferation of a class of DNA-based diagnostic and risk-assessment tests that already create professional ethical and health-policy challenges for clinicians. “The problems are with us now, independent of the genome program, but they will be associated with it,” Watson said. “We should devote real money to discussing these issues.” By 1994, the “ELSI program” had spent almost $20 million in pursuit of its mission, and gained both praise and criticism for its accomplishments. (shrink)

As the international genomic research community moves from the tool-making efforts of the Human Genome Project into biomedical applications of those tools, new metaphors are being suggested as useful to understanding how our genes work – and for understanding who we are as biological organisms. In this essay we focus on the Human Microbiome Project as one such translational initiative. The HMP is a new ‘metagenomic’ research effort to sequence the genomes of human microbiological flora, in order to pursue the (...) interesting hypothesis that our ‘microbiome’ plays a vital and interactive role with our human genome in normal human physiology. Rather than describing the human genome as the ‘blueprint’ for human nature, the promoters of the HMP stress the ways in which our primate lineage DNA is interdependent with the genomes of our microbiological flora. They argue that the human body should be understood as an ecosystem with multiple ecological niches and habitats in which a variety of cellular species collaborate and compete, and that human beings should be understood as ‘superorganisms’ that incorporate multiple symbiotic cell species into a single individual with very blurry boundaries. These metaphors carry interesting philosophical messages, but their inspiration is not entirely ideological. Instead, part of their cachet within genome science stems from the ways in which they are rooted in genomic research techniques, in what philosophers of science have called a ‘tools-to-theory’ heuristic. Their emergence within genome science illustrates the complexity of conceptual change in translational research, by showing how it reflects both aspirational and methodological influences. (shrink)

Recent advances in next generation sequencing along with high hopes for genomic medicine have inspired interest in genomic research with the newly dead. However, applicable law does not adequately determine ethical or policy responses to such research. In this paper we propose that such research stands at a crossroads between other more established biomedical clinical and research practices. In addressing the ethical and policy issues raised by a particular research project within our institution comparatively with these other practices, we illustrate (...) the moral significance of paying careful heed to where one looks for guidance in responding to ethical questions raised by a novel endeavor. (shrink)

Although the ability to perform gene therapy in human germ-line cells is still hypothetical, the rate of progress in molecular and cell biology suggests that it will only be a matter of time before reliable clinical techniques will be within reach. Three sets of arguments are commonly advanced against developing those techniques, respectively pointing to the clinical risks, social dangers and better alternatives. In this paper we analyze those arguments from the perspective of the client-centered ethos that traditionally governs practice (...) in medical genetics. This perspective clarifies the merits of these arguments for geneticists, and suggests useful new directions for the professional discussion of germ-line gene therapy. It suggests, for example, that the much discussed prospect of germ-line therapy in human pre-embryos may always be more problematic for medical genetics than adult germ-line interventions, even though the latter faces greater technical difficulties. (shrink)

Like all community-based public health campaigns, proposals to use genetic information to improve the health and welfare of communities, whether the old eugenic sterilization campaigns or the routinized population screening programs of today's ‘public health genetics’, can involve asking affected individuals to make special sacrifices or assume special responsibilities on behalf of the community's welfare. Moreover, unlike public health interventions that restrict individual liberties in order to prevent health problems which all community members risk more or less equally, genetic prevention (...) strategies always require sacrifices on the part of the community who face the genetic risks in question on behalf of those who do not. The irony of ‘community genetics’ is that most human communities are much too heterogeneous to face universal gene pool disasters. (shrink)

Since the birth of bioethics, a persistent refrain has been that advances in science, technology, and health are occurring so quickly that they threaten to outpace society’s ability to understand and react to them. Genomics, big data, and synthetic biology preoccupy current scholarly and policy debates, just as organ transplantation, in vitro fertilization, human subjects research, and gene therapy did over the past forty years. But the history of bioethics is more than the topics it has addressed. It is also (...) the story of the people whose voices shaped its debates and built society’s capacity to manage the escalating pace of technological change.LeRoy Walters is one of those contributors who made a difference. He... (shrink)

Web scraping involves using computer programs for automated extraction and organization of data from the Web for the purpose of further data analysis and use. It is frequently used by commercial companies, but also has become a valuable tool in epidemiological research and public health planning. In this paper, we explore ethical issues in a project that “scrapes” public websites of U.S. county jails as part of an effort to develop a comprehensive database to enhance HIV surveillance and improve continuity (...) of care for incarcerated populations. We argue that the well-known framework of Emanuel et al. provides only partial ethical guidance for the activities we describe, which lie at a complex intersection of public health research and public health practice. We suggest some ethical considerations from the ethics of public health practice to help fill gaps in this relatively unexplored area. (shrink)