Polygenic embryo screening: four clinical considerations warrant further attention.

Recent advances in developing polygenic scores have made it possible to screen embryos for common, complex conditions and traits. Polygenic embryo screening (PES) is currently offered commercially, and though there has been much recent media and academic coverage, reproductive specialists' points of view have not yet been prominent in these discussions. We convened a roundtable of multidisciplinary experts, including reproductive specialists to discuss PES and its implications. In this Opinion, we describe four clinically relevant issues associated with the use of PES that have not yet been discussed in the literature and warrant consideration.

Whole-genome sequencing for TB source investigations: principles of ethical precision public health.

BACKGROUND: Whole-genome sequencing (WGS) of Mycobacterium tuberculosis allows rapid, accurate inferences about the sources, location and timing of transmission. However, in an era of heightened concern for personal privacy and science distrust, such inferences could result in unintended harm and undermine the public´s trust.METHODS: We held interdisciplinary stakeholder discussions and performed ethical analyses of real-world illustrative cases to identify principles that optimise benefit and mitigate harm of M. tuberculosis WGS-driven TB source investigations.RESULTS: The speed and precision with which real-time WGS can be used to associate M. tuberculosis strains with sensitive information has raised important concerns. While detailed understanding of transmission events could mitigate harm to vulnerable patients and communities when otherwise unfairly blamed for TB outbreaks, the precision of WGS can also identify transmission events resulting in social blame, fear, discrimination, individual or location stigma, and the use of defaming language by the public, politicians and scientists. Public health programmes should balance the need to safeguard privacy with public health goals, transparency and individual rights, including the right to know who infects whom or where.CONCLUSIONS: Ethical challenges raised by real-time WGS-driven TB source investigation requires public health authorities to move beyond their current legal mandate and embrace transparency, privacy and community engagement.

Commentary: what "community review" can and cannot do.

The author praises Sharp and Foster's differentiation of the forms of "community review," and agrees that the discussion is far from settled. He argues that rather than attempting to define "community" by various criteria, it might be more helpful to both researchers and research subjects to enable persons to create their own communities: a process of community construction, rather than reaction.

Enhancing cognition in the intellectually intact.

As science learns more about how the brain works, and fails to work, the possibility for developing "cognition enhancers" becomes more plausible. And the demand for drugs that can help us think faster, remember more, and focus more keenly has already been demonstrated by the market success of drugs like Ritalin, which tames the attention span, and Prozac, which ups the competitive edge. The new drug Aricept, which improves memory, most likely will join them. Whether such drugs are good for individuals, or for society, is an open question, one that demands far more public discussion.

Can enhancement be distinguished from prevention in genetic medicine?

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.

The clinical introduction of genetic testing for Alzheimer disease. An ethical perspective.

OBJECTIVE: Primary caregivers should be aware of recent progress in the genetics of Alzheimer disease (AD) and of the clinical and ethical considerations raised regarding the introduction of genetic testing for purposes of disease prediction and susceptibility (risk) analysis in asymptomatic individuals and diagnosis in patients who present clinically with dementia. This statement addresses arguments for and against clinical genetic testing. PARTICIPANTS: The 20 participants were selected by the investigators (S.G.P., T.H.M., A.B.Z., and P.J.W.) to achieve balance in the areas of genetics, counseling, ethics, and public policy, and to include leadership from related consensus projects. The consensus group met twice in closed meetings and carried on extensive correspondence over 2 years (1995-1997). The project was supported by the National Human Genome Research Institute of the National Institutes of Health. EVIDENCE: All 4 involved chromosomes were discussed in group meetings against a background of information from several focus group sessions with AD-affected families. The focus groups comprised volunteers identified by the Cleveland Area Chapter of the Alzheimer's Disease and Related Disorders Association and represented a variety of ethnic populations. CONSENSUS PROCESS: The first draft was written in April 1996 by the principal investigator (S.G.P.) after the consensus group had met twice. The draft was mailed to all consensus group members 3 times over 6 months for extensive response and redrafting by the principal investigator until all members were satisfied. CONCLUSIONS: Except for autosomal dominant early-onset families, genetic testing in asymptomatic individuals is unwarranted. Use of APOE genetic testing as a diagnostic adjunct in patients already presenting with dementia may prove useful but it remains under investigation. The premature introduction of genetic testing and possible adverse consequences are to be avoided.

Caught in the middle again: professional ethical considerations in genetic testing for health risks.

Genotyping tests for molecular mutations associated with clinical syndromes increasingly allow clinicians to identify health risks before clinical problems occur, sometimes making prevention possible. The clinical use of these tests, however, can create moral problems for families and serious health policy challenges for communities. Those issues, in turn, complicate the professional ethics of genetic testing and counseling. Investigators working with families in gene-identification studies have already encountered these complications in the research setting and their experiences may help in the development of a clinical ethic for genetic testing. In addition to questions about the predictive significance of particular genotypes, three other sets of ethical considerations are becoming important to professional decision-making about genetic testing: the psycho-social impact of testing, the patient's privileges with respect to testing, and the potential for effective prevention following testing. Underlying all these considerations are basic lessons from the research setting on how clinicians should interpret genetic testing for patients, given the heavily deterministic meanings that they have been taught thus far.

"Prevention" and the goals of genetic medicine.

Authors participating in the renewed discussion of germ-line gene therapy have begun conflating two senses of the term "prevention," which I distinguish as "phenotypic prevention" and "genotypic prevention." Phenotypic prevention describes medical efforts to forestall the clinical manifestation of a genetic disease in an at-risk patient, like newborn screening and dietary prophylaxis for phenylketonuria. Genotypic prevention, by contrast, describes efforts to avoid the transmission of particular genotypes to the next generation, like selective termination following intrauterine diagnosis. Genotypic prevention is either performed on behalf of a prospective parent (or two) as a reproductive risk reduction strategy, or as a public health intervention to reduce the incidence of a disease in the larger population. Conflating phenotypic and genotypic prevention in discussions of germ-line gene therapy is dangerous, because it blurs the line (well-established in clinical genetics) between medical interventions appropriate to prescribe to individuals and families, and reproductive choices that should be theirs alone to make. As the new genetic medicine emerges, its pioneers should be careful to articulate their professional goals in ways that respect that important moral boundary, by explicitly excluding genotypic prevention from among them.

Human genome research and the public interest: progress notes from an American science policy experiment.

This essay reviews the efforts of the U.S. Human Genome Project to anticipate and address the ethical, legal, and social implications of new advances in human genetics. Since 1990, approximately $10 million has been awarded by the National Institutes of Health and the Department of Energy, in support of 65 research, education, and public discussion projects. These projects address four major areas of need: (1) the need for both client-centered assessments of new genetic services and for improved knowledge of the psychosocial and ethnocultural factors that shape clients' clinical genetic experiences; (2) the need for clear professional policies regarding human-subject research, clinical practice standards, and public health goals in human genetics; (3) the need for social policy protection against unfair access to and use of personal genetic information; and (4) the need for improved public and professional understanding and discussion of these issues. The Human Genome Project's goal is to have defined, by 1995, policy options and programs capable of addressing these needs.

Developing and delivering new medical technologies: issues beyond access.

The articles in this issue illuminate psychosocial issues raised by the development and delivery of new medical technologies. Five kinds of questions surface repeatedly: questions about a technology's purpose(s), the value judgments it presumes, the locus of its control, the external forces that drive it, and its long-term social risks. These questions take the discussion of new technologies beyond the challenge of improving access to their benefits. They also raise issues that will become increasingly important as the capabilities of medical technology expand. For example, they suggest research questions for three other emerging medical technologies: use of biosynthetic growth hormone to treat short stature in hormonally normal children, genetic tests on fetal cells from the circulating maternal blood, and development of clinically reliable biomarkers of the aging process. Part Three of this issue provides a theoretical basis for encouraging psychosocial perspectives in this area, by illustrating the central role that "robust," multifaceted analysis has come to play within the methods of bioethics.