Abstract
The potential to genetically modify human germlines has reached a critical tipping point with recent applications of CRISPR-Cas9. Even as researchers, clinicians, and ethicists weigh the scientific and ethical repercussions of these advances, we know virtually nothing about public attitudes on the topic. Understanding such attitudes will be critical to determining the degree of broad support there might be for any public policy or regulation developed for genetic modification research. To fill this gap, we gave an online survey to a large (2,493 subjects) and diverse sample of Americans. Respondents supported genetic modification research, although demographic variables influenced these attitudes—conservatives, women, African-Americans, and older respondents, while supportive, were more cautious than liberals, men, other ethnicities, and younger respondents. Support was also was slightly muted when the risks (unanticipated mutations and possibility of eugenics) were made explicit. The information about genetic modification was also presented as contrasting vignettes, using one of five frames: genetic editing, engineering, hacking, modification, or surgery. Despite the fact that the media and academic use of frames describing the technology varies, these frames did not influence people’s attitudes. These data contribute a current snapshot of public attitudes to inform policy with regard to human genetic modification.
Highlights
We are in the midst of a scientific revolution that will transform biological research and have profound effects on medicine [1,2,3,4]
Our objective was to learn what level of support there is for this research among laypersons and to understand the variables that influence opinions regarding the ethics of genetic modification
Public Attitudes and Demographics Analyses In Study 1, participants were supportive of research into genetic modification
Summary
We are in the midst of a scientific revolution that will transform biological research and have profound effects on medicine [1,2,3,4]. Genetic modification using CRISPR-Cas (clustered regularly interspaced short palindromic repeat–CRISPR-associated protein), a system of adaptive immunity discovered in bacteria, has become widely feasible and cheap. By some estimates, it is 150 times cheaper than other genetic modification techniques such as the use of Zinc fingers, costing as little as $30 [5]. We might be able to eliminate single-gene disorders such as cystic fibrosis, hemophilia, and Huntington’s disease. Conscious selection of genes for specific physical and mental traits might reify social inequities and revive the possibility of eugenics
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