Genetically engineered (GE) insects, such as the GE OX513A Aedes aegypti mosquitoes, have been designed to suppress their wild-type populations so as to reduce the transmission of vector-borne diseases in humans. Apart from the ecological and epidemiological uncertainties associated with this approach, such biotechnological approaches may be used by individual governments or the global community of nations to avoid addressing the underlying structural, systemic causes of those infections... We discuss here key ethical questions raised by the use (...) of GE mosquitoes, with the aim of fostering discussion between the public, researchers, policy makers, healthcare organizations, and regulatory agencies at the local, national, and international levels. We affect that goal by outlining a procedural approach to decision-making about the use of the “biotechnology” that goes beyond “community engagement.” The protocol we advocate for entails informed deliberations and decision-making at the community level. It is designed to ensure that the voices of the marginalized and vulnerable groups that would be disproportionately affected by the decision are heard during the community-wide discussions. Moreover, we make the case that the values embedded in the risk assessment should be identified so that the community can make an informed decision about the use of GE insects. In addition, we advocate for the involvement of a variety of actors whose responsibility would be to ensure that the community has the opportunity to make an informed decision based on deliberations about the use of the “biotechnology.”. (shrink)

For the purposes of conservation or suppression of species, gene drive technology has significant potential. Theoretically speaking, with the release of even relatively few animals with gene drive systems in an ecosystem, beneficial or harmful genes could be introduced into the entire wild-type population of that species. Given the profound impact that gene drives could have on species and ecosystems, their use is a highly contentious issue. Communities and groups have differing beliefs about nature and its conservation or preservation, as (...) well as concerns about the ecological safety of the eradication, replacement or enhancement of particular species of animals by means of genetic engineering. For all those reasons, the rigorous regulation of insects and other animals with gene drive systems is crucial. In this paper, we consider the question of whether the United States Food and Drug Administration is prepared to effectively regulate insects and other animals with gene drives. (shrink)

This chapter analyzes the ‘hard sell’ of genetically engineered (GE) mosquitoes with gene drives as the solution to mosquito-borne diseases. A defining characteristic of the aggressive sell of the bio-technology is the ‘biologization’ of the significant prevalence of mosquito-borne diseases in certain socio-economically marginalized regions of the global South. Specifically, hard sell narratives either minimize or ignore the structural, systemic factors that are partially responsible for the public health problem that the GE mosquitoes are intended to (...) bio-solve. The biologization of a public health problem that disproportionately affects low-income, marginalized populations in certain global South regions has epistemic, epidemiological, and gendered ethico-political costs. The primary focus of this chapter is two scientific papers by researchers with ties to Target Malaria, a research organization developing GE mosquitoes with gene drives as the solution to malaria in the global South. In the interest of a contextualized analysis of the hard sell of GE mosquitoes with gene drives in those scientific papers, this chapter examines the normative commitments of Target Malaria’s key backer, the Bill and Melinda Gates Foundation, a powerful private organization that currently dominates the global health governance stage. (shrink)

In recent years, genetically engineered (GE) mosquitoes have been proposed as a public health measure against the high incidence of mosquito-borne diseases among the poor in regions of the global South. While uncertainties as well as risks for humans and ecosystems are entailed by the open-release of GE mosquitoes, a powerful global health governance non-state organization is funding the development of and advocating the use of those bio-technologies as public health tools. In August 2016, the US (...) Food and Drug Agency (FDA) approved the uncaged field trial of a GE Aedes aegypti mosquito in Key Haven, Florida. The FDA’s decision was based on its assessment of the risks of the proposed experimental public health research project. The FDA is considered a global regulatory standard setter. So, its approval of the uncaged field trial could be used by proponents of GE mosquitoes to urge countries in the global South to permit the use of those bio-technologies. -/- From a public health ethics perspective, this paper evaluates the FDA’s 2016 risk assessment of the proposed uncaged field trial of the GE mosquito to determine whether it qualified as a realistic risk evaluation. -/- The FDA’s risk assessment of the proposed uncaged field trial did not proximate the conditions under which the GE mosquitoes would be used in regions of the global South where there is a high prevalence of mosquito-borne diseases. -/- Given that health and disease have political-economic determinants, whether a risk assessment of a product is realistic or not particularly matters with respect to interventions meant for public health problems that disproportionately impact socio-economically marginalized populations. If ineffective public health interventions are adopted based on risk evaluations that do not closely mirror the conditions under which those products would actually be used, there could be public health and ethical costs for those populations. (shrink)

In 2011, the Florida Keys Mosquito Control District’s proposed to release a genetically engineered Aedes aegypti mosquito to fight the spread of dengue fever and chikungunya. This would be the first release of a genetically engineered insect into the open environment in the US, and the proposal has sparked heated opposition in Key West. We address this controversy through Beck’s concept of reflexive modernity, tracing the way the FKMCD and Oxitec interpret the risk involved in the (...) situation and how citizens opposing the release construct their very different interpretation. We use theories of space and place and Rickert’s theory of ambient rhetoric to argue that the contrasting interpretations of risk in this case stem, at least in part, from the different construction of space and place embraced by the FKMCD and Oxitec and by many in the community. The authority of nature invoked by FKMCD and Oxitec’s scientific discourse frames the public forum in ways that exclude full deliberation and affective argumentative grounds that emerge from the materiality of place. While the public forum privileges what Latour calls matters of fact, the controversy emerges from different understanding of what Latour calls matters of concern. (shrink)

Dengue fever is a debilitating and infectious disease that could be life-threatening. It is caused by the dengue virus which affects millions of people in the tropical area. Currently, there is no cure for the disease as there is no vaccine available. Thus, prevention of the vector population using conventional methods is by far the main strategy but has been found ineffective. A genetically modified mosquito is among the favoured alternatives to curb dengue fever in Malaysia. Past studies have (...) shown that development and diffusion of gene technology products depends heavily upon public acceptance. The purpose of this study is to identify the relevant factors influencing stakeholders’ attitudes toward the GM Aedes mosquito and to analyse the relationships between all the factors using the structural equation model. A survey was carried out on 509 respondents from various stakeholder groups in the Klang Valley region of Malaysia. Results of the survey have confirmed that public perception towards complex issues such as gene technology should be seen as a multi-faceted process. The perceived benefit-perceived risk balance is very important in determining the most predominant predictor of attitudes toward a GM mosquito. In this study the stakeholders perceived the benefit of the GM mosquito as outweighing its risk, translating perceived benefit as the most important direct predictor of attitudes toward the GM mosquito. Trust in key players has a direct influence on attitudes toward the GM mosquito while moral concern exhibited an indirect influence through perceived benefits. Other factors such as attitudes toward technology and nature were also indirect predictors of attitudes toward the GM mosquito while religiosity and engagement did not exhibited any significant roles. The research findings serve as a useful database to understand public acceptance and the social construct of public attitudes towards the GM mosquito to combat dengue. (shrink)

New techniques for the genetic modification of organisms are creating new strategies for addressing persistent public health challenges. For example, the company Oxitec has conducted field trials internationally—and has attempted to conduct field trials in the United States—of a genetically modified mosquito that can be used to control dengue, Zika, and some other mosquito-borne diseases. In 2016, a report commissioned by the National Academies of Sciences, Engineering, and Medicine discussed the potential benefits and risks of another strategy, using gene (...) drives. Driving a desired genotype through a population of wild animals or insects could lead to irreversible genetic modification of an entire species. The NASEM report recommends community, stakeholder, and public engagement about potential uses of the technology, and it argues that the engagement should occur as research advances, well before gene drives are deployed. Yet what “engagement” means in practice is unclear. This article seeks clarity on this problem by offering a justification for community engagement and drawing out implications of this argument for the implementation and desired outcomes of community engagement. Community engagement is essential when it comes to research that would release genetically modified insects or animals into the environment. By contrast, obtaining informed consent from people who live near such a proposed field trial is neither necessary nor sufficient. Drawing on the epistemic and moral arguments for deliberative democracy, I propose two discrete mechanisms of community engagement: community advisory boards and deliberative forums, neither of which has been systematically incorporated into research governance. The proposed mechanisms would engender respect for persons who live near field trials, even when the results of deliberation override some individuals’ preferences. Community engagement foregrounds the community in our thinking about humans’ relationship to nature, and it implies that deciding to release genetically modified insects or animals into the wild ought to be a collective decision, not one made by product developers, policy-makers, private companies, research funders, or scientists alone. (shrink)

Cas9/guide RNA (gRNA)‐based gene drive systems are expected to play a transformative role in malaria elimination efforts., whether through population modification, in which the drive system contains parasite‐refractory genes, or population suppression, in which the drive system induces a severe fitness load resulting in population decline or extinction. DNA sequence polymorphisms representing alternate alleles at gRNA target sites may confer a drive‐resistant phenotype in individuals carrying them. Modeling predicts that, for observed levels of SGV at potential target sites and observed (...) rates of de novo DRA formation, population modification strategies are uniquely resilient to DRAs. We conclude that gene drives can succeed when fitness costs incurred by drive‐carrying mosquitoes are low enough to prevent strong positive selection for DRAs produced de novo or as part of the SGV and that population modification strategies are less prone to failure due to drive resistance. (shrink)

Genetic engineering evokes a number of objections that are not directed at the negative effects the technique might have on the health and welfare of the modified animals. The concept of animal integrity is often invoked to articulate these kind of objections. Moreover, in reaction to the advent of genetic engineering, the concept has been extended from the level of the individual animal to the level of the genome and of the species. However, the concept of animal integrity was not (...) developed in the context of genetic engineering. Given this external origin, the aim of this paper is to critically examine the assumption that the concept of integrity, including its extensions to the level of the genome and the species, is suitable to articulate and justify moral objections more specifically directed at the genetic engineering of animals. (shrink)

In recent years, CRISPR-Cas9 has become one of the simplest and most cost-effective genetic engineering techniques among scientists and researchers aiming to alter genes in organisms. As Zika came to the fore as a global health crisis, many suggested the use of CRISPR-Cas9 gene drives in mosquitoes as a possible means to prevent the transmission of the virus without the need to subject humans to risky experimental treatments. This paper suggests that using gene drives or other forms of genome (...) editing in nonhumans (like mosquitos) for the purposes of disease prevention raises important issues about informed consent. Additionally, it examines the consequences this line of inquiry could have for the use of gene drives as a tool in public health and suggests that the guidance offered by informed consent protocols could help the scientific community deploy gene drives in a way that ensures that ongoing research is consistent with our ethical priorities. (shrink)

Genetic engineering evokes a number of objections that are not directed at the negative effects the technique might have on the health and welfare of the modified animals. The concept of animal integrity is often invoked to articulate these kind of objections. Moreover, in reaction to the advent of genetic engineering, the concept has been extended from the level of the individual animal to the level of the genome and of the species. However, the concept of animal integrity was not (...) developed in the context of genetic engineering. Given this external origin, the aim of this paper is to critically examine the assumption that the concept of integrity, including its extensions to the level of the genome and the species, is suitable to articulate and justify moral objections more specifically directed at the genetic engineering of animals. (shrink)

Human genetic engineering may soon be possible. The gathering debate about this prospect already threatens to become mired in irresolvable disagreement. After surveying the scientific and technological developments that have brought us to this pass, _The Ethics of Genetic Engineering_ focuses on the ethical and policy debate, noting the deep divide that separates proponents and opponents. The book locates the source of this divide in differing framing assumptions: reductionist pluralist on one side, holist communitarian on the other. The book argues (...) that we must bridge this divide, drawing on the resources from both encampments, if we are to understand and cope with the distinctive problems posed by genetic engineering. These problems, termed "fractious problems," are novel, complex, ethically fraught, unavoidably of public concern, and unavoidably divisive. Berry examines three prominent ethical and political theories – utilitarianism, Kantianism, and virtue ethics – to consider their competency in bridging the divide and addressing these fractious problems. The book concludes that virtue ethics can best guide parental decision making and that a new policymaking approach sketched here, a "navigational approach," can best guide policymaking. These approaches enable us to gain a rich understanding of the problems posed and to craft resolutions adequate to their challenges. (shrink)

There are many ways that biological theory can inform ethical discussions of genetic engineering and biomedical enhancement. In this essay, we highlight some of these potential contributions, and along the way provide a synthetic overview of the papers that comprise this special issue. We begin by comparing and contrasting genetic engineering with programs of selective breeding that led to the domestication of plants and animals, and we consider how genetic engineering differs from other contemporary biotechnologies such as embryo selection. We (...) go on to consider the implications of genetic engineering for human nature, human evolution, and persistence of the human species. Finally, we question whether genetic interventions warrant the extraordinary ethical scrutiny they are often given, and we show how the misleading “genetic blueprint” metaphor has imposed a faulty structure on the enhancement debate. We conclude by considering the nature of biological development and the sobering limits it places on what genetic engineering can reasonably hope to achieve. (shrink)

Genetic engineering of life forms could well have a profound effect upon our sense of the sacred. Integrating the experience of the sacred as George Bataille does, we can characterize it as a phenomenological encounter with prelinguistic, noncategoreal experience. This view of the sacred is similar to Friedrich Nietzsche's Dionysian experience or Rudolf Otto's mysterium tremendum and diminishes one's sense of self. It seems similar to the eighteenth‐century aesthetic categorization of “the sublime.” Despite the dominant rational approach to religiosity in (...) the United States, intimations of this experience persist in popular culture. What possible relationship does genetic engineering have to this allegedly inevitable and profound experience? If certain modifications of life occur, they are likely to create such an experience of the sacred in us. In principle, we can now resurrect the mammoth or even create beings designed to directly potentiate our experience of the numinous such as satyrs or centaurs. The creation of such beings could become an art form associated with awaking the sacred, in turn appropriated by religion, as art has always been. Such experimentation, though morally questionable, is probably inevitable. (shrink)

(2008). Genetic Engineering and the Speciation of Superions from Humans. World Futures: Vol. 64, Postformal Thought and Hierarchical Complexity, pp. 436-443.

Genetic engineering in general, and human genetic editing in particular, is revolutionizing humankind’s self-understanding: an evolved organism taking ever greater control of its own evolution. This Anthropocenic phenomenon is deeply equivocal (Gregg B. Human genetic engineering: biotic justice in the anthropocene? In: DellaSala D, Goldstein M (eds) Encyclopedia of the Anthropocene, vol 4. Elsevier, Oxford, pp 351–359, 2018). While delivering humans from some risks, it renders them vulnerable to unintended consequences as well. Even in the face of seemingly intractable differences (...) of opinion about how best to understand genetic manipulation culturally, and how to evaluate it ethically, political communities and international organizations alike must address its possible future legal regulation. Governments and other elite institutions would do well to include the general public, to the extent possible, in deliberations about regulation, even as genetic engineering is based on highly specialized knowledge. (shrink)

Genetically engineered animals that are meant for release in the wild could significantly impact ecosystems given the interwoven or entangled existence of species. Therefore, among other things, it is all too important that regulatory agencies conduct entity appropriate, rigorous risk assessments that can be used for informed decision-making at the local, national and global levels about the release of those animals in the wild. In the United States, certain GE animals that are intended for release in the wild (...) may be regulated as new animal drugs by the Food and Drug Administration. This paper argues that the decision to treat them as new animal drugs is attributable to the influence of neoliberalism on the US biotechnology regulatory policy framework. The case is made that there should be public democratic deliberations and decision-making about the values and concerns that should guide the nation’s biotechnology regulatory policy paradigm, including the risk assessment process for GE animals meant for release in the wild. -/- . (shrink)

This book describes specific, well-know controversies in the genetic modification debate and connects them to deeper philosophical issues in philosophy of technology. It contributes to the current, far-reaching deliberations about the future of food, agriculture and society. Controversies over so-called Genetically Modified Organisms regularly appear in the press. The biotechnology debate has settled into a long-term philosophical dispute. The discussion goes much deeper than the initial empirical questions about whether or not GM food and crops are safe for human (...) consumption or pose environmental harms that dominated news reports. In fact, the implications of this debate extend beyond the sphere of food and agriculture to encompass the general role of science and technology in society. The GM controversy provides an occasion to explore important issues in philosophy of technology. Researchers, teachers and students interested in agricultural biotechnology, philosophy of technology and the future of food and agriculture will find this exploration timely and thought provoking. (shrink)

Genetic engineering is a rapidly evolving field of research with potentially powerful therapeutic applications. The technology CRISPR-Cas9 not only has improved the accuracy and overall feasbility of genome editing but also has increased access to users by lowering cost and increasing usability and speed. The potential benefits of genetic engineering may come with an increased risk of off-target events or carcinogenic growth. Germ-line cell therapy may also pose risks to potential progeny and thus have an additional burden of proof for (...) safety. Persons responsible for evaluating the ethics of genetic-engineering research programs or clinical trials should do so in light of the nature, integrity, and totality of the human person. Recent news of the implantation and birth of genetically engineered human embryos is just one example of increased rogue science. Health care institutions should consider what steps can be taken to prevent or slow this trend. (shrink)

Genetic modification leads to several important moral issues. Up until now they have mainly been discussed from the viewpoint that only individual living beings, above all animals, are morally considerable. The standpoint that also collective entities such as species belong to the moral sphere have seldom been taken into account in a more thorough way, although it is advocated by several important environmental ethicists. The main purpose of this article is to analyze in more detail than often has been done (...) what the practical consequences of this ethical position would be for the use of genetic engineering on animals and plants. The practical consequences of the holistic standpoint (focused on collective entities) of Holmes Rolston, III, is compared with the practical consequences of the individualistic standpoints (focused on individual living beings) of Bernard E. Rollin and Philipp Balzer, Klaus Peter Rippe, and Peter Schaber, respectively. The article also discusses whether the claim that species are morally considerable is tenable as a foundation for policy decisions on genetic engineering. (shrink)

In the past few decades, increased awareness of environmental pollution has led to the exploitation of microbial metabolic potential in the construction of several genetically engineered microorganisms (GEMs) for bioremediation purposes. At the same time, environmental concerns and regulatory constraints have limited the in situ application of GEMs, the ultimate objective behind their development. In order to address the anticipated risks due to the uncontrolled survival/dispersal of GEMs or recombinant plasmids into the environment, some attempts have been made (...) to construct systems that would contain the released organisms. This article discusses the designing of safer genetically engineered organisms for environmental release with specific emphasis on the use of bacterial plasmid addiction systems to limit their survival thus minimizing the anticipated risk. We also conceptualize a novel strategy to construct “Suicidal Genetically Engineered Microorganisms (SGEMs)” by exploring/combining the knowledge of different plasmid addiction systems (such as antisense RNA‐regulated plasmid addiction, proteic plasmid addiction etc.) and inducible degradative operons of bacteria. BioEssays 27:563–573, 2005. © 2005 Wiley Periodicals, Inc. (shrink)

Genetic engineering often generates fear of out of control scientists creating Frankenstein creatures that will terrorize the general populace, especially in the cases of human-animal chimeras. While sometimes an accurate characterization of some researchers, this belief is often the result of repugnance for new technology rather than being rationally justified. To facilitate thoughtful discussion the moral issues raised by human-animal chimeras, ethicists and other stakeholders must develop a rational ethical framework before raw emotion has a chance of becoming the dominating (...) justification for public opinion and policy. Derek Parfit’s work on lives worth living for human beings can provide valuable insight into the morality of creating chimeras. As long as their lives are overall good, then bringing them into existence does not harm them even if they are used for medical research or procedures, or they are created to carry on the homo sapiens’ “family” line. (shrink)

The struggle over genetically-engineered (GE) maize in Mexico reveals a deep conflict over the criteria used in the governance of agri-food systems. Policy debate on the topic of GE maize has become “scientized,” granting experts a high level of political authority, and narrowing the regulatory domain to matters that can be adjudicated on the basis of scientific information or “managed” by environmental experts. While scientization would seem to narrow opportunities for public participation, this study finds that Mexican activists (...) acting “in defense of maize” engage science in multiple ways, using and producing scientific knowledge as well as treating scientific discussions as a stage for launching complex social critiques. Drawing from research in science and technology studies, this article assesses the impacts and pitfalls of three tactics used by maize activists that respond to the scientization of biotechnology politics: (1) using scientific information as a resource; (2) participating in scientific research; and (3) reframing policy problems as broadly social, rather than as solely scientific or technical. The obstacles that maize activists have faced in carrying out each of these efforts indicate that despite diverse and sophisticated engagements between social movements and the scientific field, scientization remains a significant institutional barrier to democratizing agricultural governance. (shrink)

Genetically engineered organisms have been at the center of ethical debates among the public and regulators over their potential risks and benefits to the environment and society. Unlike the currently commercial GE crops that express resistance or tolerance to pesticides or herbicides, a new GE crop produces two bioactive nutrients and docosahexaenoic acid ) that heretofore have largely been produced only in aquatic environments. This represents a novel category of risk to ecosystem functioning. The present paper describes why (...) growing oilseed crops engineered to produce EPA and DHA means introducing into a terrestrial ecosystem a pair of highly bioactive nutrients that are novel to terrestrial ecosystems and why that may have ecological and physiological consequences. More importantly perhaps, this paper argues that discussion of this novel risk represents an opportunity to examine the way the debate over genetically modified crops is being conducted. (shrink)

Genetic engineering technologies are a subclass of the biotechnology family, and are concerned with the use of laboratory-based technologies to intervene with a given organism at the genetic level, i.e., the level of its DNA. This class of technologies could feasibly be used to treat diseases and disabilities, create disease-resistant crops, or even be used to enhance humans to make them more resistant to certain environmental conditions. However, both therapeutic and enhancement applications of genetic engineering raise serious ethical concerns. This (...) paper examines various objections to genetic engineering (as applied to humans) which have been raised in the literature, and presents a new way to frame these issues, and to look for solutions. Specifically, this paper frames genetic engineering technologies within the ‘design turn in applied ethics’ lens and thus situates these technologies as covarying with societal forces. The value sensitive design (VSD) approach to technology design is then appropriated as the conceptual framework in which genetic engineering technologies can be considered so that they can be designed for important human values. By doing so, this paper brings further nuance to the scholarship on genetic engineering technologies by discussing the sociotechnicity of genetic engineering systems rather than framing them as value-neutral tools that either support or constrain values based on how they are used. (shrink)

At the 1983 Summer Conference on the Institute on Religion in an Age of Science, working groups chaired by the coauthors outlined some of the prospects for the use of somatic and germ line genetic engineering and related biological technologies to alleviate disease and to modify human behavior. They then offered a series of recommendations concerning the application of genetic engineering to persons and the monitoring of medical research and therapy.

The Swiss expert report suggests thatthe inherent dignity of a living being be identifiedwith its inherent value. But the phrase ``inherentvalue of a living being'' seems to connote two conceptsof inherent value. One has a morally obligatingcharacter but is counterintuitive because of itsegalitarianism. The other is one of non-moral value.It is more compatible with considered intuitions butinsufficient for substantiating the expert report'sclaim that human beings have moral duties towardsanimals and plants. The paper discusses theseconcepts. Consideration is then given to the (...) problemof how discursive support can be generated for theexpert report's claim that human beings have the moralduty to abstain from impairing those functions andabilities of a nonuman being that members of itsspecies as a rule can practice. (shrink)

The use of genetic engineering is increasingly discussed for nature conservation. At the same time, recent animal ethics approaches debate whether humans should genetically engineer wild animals to improve their welfare. This paper examines if obligations towards wild sentient animals require humans to genetically engineering wild animals, while arguing that there is no moral need to do so. The focus is on arguments from animal ethics, but they are linked to conservation ethics, highlighting the often neglected overlap between (...) the two fields. The paper emphasizes that a) the benefits of genetic engineering are overestimated and at the same time harms from its development and use underestimated, b) the assumption that genetic engineering is an appropriate ‘last resort’ tool is wrong, c) many arguments in favor of genetic engineering are based on an inadequate understanding of ecology and biotechnological processes, and d) the debate downplays the importance of self-determination for wild animals. (shrink)

abstract In this paper I argue that the genetic manipulation of sexual orientation at the embryo stage could have a detrimental effect on the subsequent person's later capacity for autonomous agency. By focussing on an example of sexist oppression I show that the norms and expectations expressed with this type of genetic manipulation can threaten the development of autonomous agency and the kind of social environment that makes its exercise likely.

In this paper I critique two popular, non-scientific attitudes toward genetically engineered foods. In doing so, I will be employing the concepts of ambiguity, purity/impurity, control/resistance, and unity/diversity as developed by Latina feminist metaphysicians. I begin by casting a critical eye toward a specific anti-biotech account of transgenic food crops, an account that I will argue relies on an anti-feminist metaphysics. I then cast that same critical eye toward a specific pro-biotech account, arguing that it also relies on (...) such an anti-feminist metaphysics. I will argue further that this metaphysics yields a less accurate account of genetics. I end by arguing that if we adopt a Latina feminist metaphysics we can more accurately understand plants, genetics, and genetic engineering. (shrink)

Intrinsic value and animal integrity are two key concepts in the debate on the ethics of the genetic engineering of laboratory animals. These concepts have, on the one hand, a theoretical origin and are, on the other hand, based on the moral beliefs of people not directly involved in the genetic modification of animals. This ‘external’ origin raises the question whether these concepts need to be adjusted or extended when confronted with the moral experiences and opinions of people directly involved (...) in the creation or use of transgenic laboratory animals. To answer this question, 35 persons from the practice of biomedical research who are directly involved in genetic engineering (scientists, biotechnicians, animal caretakers and laboratory animal scientists) were interviewed. They were asked to give their moral opinion on different aspects of the genetic engineering of animals and to react to statements about the concepts of intrinsic value and animal integrity. Analysis of the interviews showed that, contrary to what is often assumed, the respondents embraced these concepts, even those senses that (more) specifically apply to genetic engineering. And although the respondents raised some objections that go beyond issues of animal welfare, these objections could quite well be expressed in terms of the concepts of intrinsic value and animal integrity. In short, the results of the present study strongly suggest that these concepts do not have to be adjusted or extended in the light of the moral experiences and opinions from practice. (shrink)

There is an ongoing debate about genetic engineering (GE) in food production. Supporters argue that it makes crops more resilient to stresses, such as drought or pests, and should be considered by researchers as a technology to address issues of global food security, whereas opponents put forward that GE crops serve only the economic interests of transnational agrifood-firms and have not yet delivered on their promises to address food shortage and nutrient supply. To address discourse failure regarding the GE debate, (...) research needs to understand better what drives the divergent positions and which moral attitudes fuel the mental models of GE supporters and opponents. Hence, this study investigates moral attitudes regarding GE opposition and support in Germany. Results show that GE opponents are significantly more absolutist than supporters and significantly less likely to hold outcome-based views. Furthermore, GE opponents are more willing to donate for preventing GE admission than supporters are willing to donate for promoting GE admission. Our results shed light on why the divide between opponents and supporters in the German GE debate could remain stark and stable for so long. (shrink)

The ability of medical science to clone and perhaps even predetermine characteristics of certain species conflicts dramatically with many claims of the religious establishment. Opening with a description of various developments in plant, animal, and human genetics, Made in Whose Image? highlights the progress genetic research has achieved, its future promise, and its social impact. The developments are analyzed from the perspective of Christian ethics, as expounded by Roman Catholic and Protestant theorists, to give an overview of crucial ethical issues. (...) In reviewing the advances of genetic research, noted religion and ethics professor Thomas A. Shannon covers general ethical themes, such as the value of life, materialism, freedom, individuality, the concept of nature, and health and disease. In addition, he discusses problems in genetic engineering and misconceptions of the church. Shannon explores prenatal diagnosis, gene therapy, genes and behavior, freedom and responsibility, and the Human Genome Project. The book concludes with a powerful and groundbreaking methodological discussion of how to approach ethical problems in genetic engineering. (shrink)

When God gave humankind dominion over the earth he may not have known exactly what we would be able to do with it. The technical capacities to which the production and reproduction of our everyday life have given rise have grown at an astonishing and, it seems, ever-increasing rate. The instruments that we use to do work on the world have become sharper and more refined, and the implications of human interventions in the nonhuman environment are much more far-reaching than (...) could have been imagined even forty years ago. It has become something of a cliche to say that our technical abilities have outstripped the wisdom to know when, where, and how we should appropriately use them, but techniques such as genetic engineering invite the dusting-off of the cliche and the asking of the question implicit in it: We know we can splice genes, but should we splice them? We might of course come to the conclusion that we should only splice some of them some of the time, but even arriving at that conclusion presupposes that the ethical question has been asked and answered. (shrink)

I consider the contribution that a biocentric perspective might make to the ethical debate concerning the practice of genetic engineering. I claim that genetic engineering itself raises novel ethical questions, and particularly so when confronted with biocentric sensibilities. I outline the nature of these questions and describe the biocentric basis for them. I suggest that fundamentalist opposition to projects of genetic engineering is unhelpful, but that biocentric claims should now be a feature of ethical consideration. I conclude, though, that while (...) environmental ethicists can contribute powerfully to debates concerning the future of genetic engineering, the ultimate direction it takes is likely to be beyond their control. (shrink)

The debate over whether germ-line genetic engineering is justified on the basis of the consent or presumed consent of future generations is mired in philosophical confusion. Because of this, the principle of informed consent fails to provide a reason to restrict germ-line genetic engineering. Most recent bioethicists ground the consent requirement on individual autonomy. While conceptually coherent, the notion of individual autonomy also fails to provide a reason for prohibiting germ-line genetic engineering. Moreover, it offers little in the way of (...) useful guidance for regulating genetic engineering. I argue, however, that respect for autonomy in the sense of moral agency – the ability to reflect on moral considerations and conform one’s behavior to those reflections – provides a principle that can be used for a nuanced evaluation of proposals for genetic engineering. (shrink)

The aim of this paper is to expose the unique muddle in which moral philosophy finds itself with regard to genetic engineering. The latter can be essentially defined as the correcting of nature's mistakes at their source, the DNA acid molecule of the gene. I shall discuss the moral nature of genetic engineering with respect to a single issue: the potential harm it may inflict upon the autonomous individual. I shall also consider the distinctions between genetic engineering and other activities (...) affecting human existence, in order to establish that the moral issues presented by genetic engineering are unique to it. (shrink)

This paper describes some likely semiotic consequences of genetic engineering on what Gregory Bateson has called “the mental ecology” of future humans, consequences that are less often raised in discussions surrounding the safety of GMOs. The effects are as follows: an increased 1) habituation to the presence of GMOs in the environment, 2) normalization of empirically false assumptions grounding genetic reductionism, 3) acceptance that humans are capable and entitled to decide what constitutes an evolutionary improvement for a species, 4) perception (...) that the main source of creativity and problem solving in the biosphere is anthropogenic. Though there are some tensions between them, these effects tend to produce self-validating webs of ideas, actions, and environments, which may reinforce destructive habits of thought. Humans are unlikely to safely develop genetic technologies without confronting these escalating processes directly. Intervening in this mental ecology presents distinct challenges for educators, as will be discussed. (shrink)

This chapter contains sections titled: The Various Uses of Genetic Engineering The Disability Rights Challenge to the Prevention of Disabilities The Goal of a World without Disabilities Use of Genetic Engineering to Enhance Normal Function Environmental versus Genetic Changes When are Enhancements Benefits? The Magnitude of Enhancement The Means Used for Enhancement Who is Using Genetic Engineering? Impact of Genetic Engineering on Fairness and Inequality Acknowledgments.

Intrinsic value and animal integrity are two key concepts in the debate on the ethics of the genetic engineering of laboratory animals. These concepts have, on the one hand, a theoretical origin and are, on the other hand, based on the moral beliefs of people not directly involved in the genetic modification of animals. This ‘external’ origin raises the question whether these concepts need to be adjusted or extended when confronted with the moral experiences and opinions of people directly involved (...) in the creation or use of transgenic laboratory animals. To answer this question, 35 persons from the practice of biomedical research who are directly involved in genetic engineering (scientists, biotechnicians, animal caretakers and laboratory animal scientists) were interviewed. They were asked to give their moral opinion on different aspects of the genetic engineering of animals and to react to statements about the concepts of intrinsic value and animal integrity. Analysis of the interviews showed that, contrary to what is often assumed, the respondents embraced these concepts, even those senses that (more) specifically apply to genetic engineering. And although the respondents raised some objections that go beyond issues of animal welfare, these objections could quite well be expressed in terms of the concepts of intrinsic value and animal integrity. In short, the results of the present study strongly suggest that these concepts do not have to be adjusted or extended in the light of the moral experiences and opinions from practice. (shrink)

Effective community engagement is an important legal, ethical, and practical prerequisite for conducting field trials of genetically modified mosquitoes, because these studies can substantially impact communities and it is usually not possible to obtain informed consent from each community member. Researchers who are planning to conduct field trials should develop a robust community engagement strategy that meets widely recognized standards for seeking approval from the affected population, such as timeliness, consent, information sharing, transparency, understanding, responsiveness, mutual understanding, inclusiveness, (...) and respectfulness. Additional research is needed on the effectiveness of different methods of engaging communities in field trials of genetically modified mosquitoes and how to respond to public opposition to genetically modified organisms. For research programs involving the genetic modification of disease vectors to move forward, they must have public acceptance and support, which cannot be achieved without effective community engagement. (shrink)

This essay describes possible futures that may result from accelerating technological advances and the challenges these futures present to psychotherapists. In the next 100 years, human beings will be likely to increasingly use computers and artificial intelligence and become extremely dependent on this relationship. Chip and stem cell implants may provide people with greater memory capacity, computational capacity, and skill sets. Genetic engineering, cryonics, and cloning may allow dramatic increases in the human life span these developments occur, they will challenge (...) what it means to be a human being and have a soul. Although psychotherapists will acquire new tools for assessment and intervention, they will face the daunting task of addressing these changes and challenges to personhood with their clients. (shrink)

Recent experiments have been used to “edit” genomes of various plant, animal and other species, including humans, with unprecedented precision. Furthermore, editing the Cas9 endonuclease gene with a gene encoding the desired guide RNA into an organism, adjacent to an altered gene, could create a “gene drive” that could spread a trait through an entire population of organisms. These experiments represent advances along a spectrum of technological abilities that genetic engineers have been working on since the advent of recombinant DNA (...) techniques. The scientific and bioethics communities have built substantial literatures about the ethical and policy implications of genetic engineering, especially in the age of bioterrorism. However, recent CRISPr/Cas experiments have triggered a rehashing of previous policy discussions, suggesting that the scientific community requires guidance on how to think about social responsibility. We propose a framework to enable analysis of social responsibility, using two example.. (shrink)

It is widely acknowledged among science˗and˗theology thinkers – or at least desired – that we have left behind the era of conflict between science and religion. An approach which avoids conflict by pointing out that science and religion employ two different methodologies and therefore occupy two separate magisteria, is, however, unsatisfactory for both – the advocates of a fruitful dialogue between these two realms of human activity as well as the most vigorous opponents of possible conciliation, and the latter still (...) speak of unavoidable conflict. One of the most widely known examples of a conflict between science and religion is the Galileo's case. It can be shown that in the clash between Galileo and the theologians of the time, the latter were right from the point of view of scientific methodology while they were wrong as far as their theological views are concerned. Does this lesson from the history imply any solutions in contemporary disputes over certain scientific achievements? Is it – for instance – a theological fault to impose some constraints on scientific research in genetic engineering? The ‘typology’ of errors committed in the Galileo’s case, offered in the paper, serve as a basis for answering these questions. In the paper it is suggested that a meta-theoretical approach to the interdisciplinary research, which shows the difference between the merits of given disciplines (in this case: science and theology) and the worldview they contribute to together, allows the acknowledgement that contemporary reservations with regard to genetic engineering and techniques are not in danger of committing a 'Galileo case type' error. It is suggested, that such reservations may stem from other than purely ethical opinions, which opens up an interesting field for discussion between those who do not share the same ethics, by leaving ethical arguments aside in discussions about biotechnology. (shrink)

Currently our assessment of whether someone is a good parent depends on the environmental inputs (or lack of such inputs) they give their children. But new genetic intervention technologies, to which we may soon have access, mean that how good a parent is will depend also on the genetic inputs they give their children. Each new piece of available technology threatens to open up another way that we can neglect our children. Our obligations to our children and our susceptibilities to (...) corresponding legal and moral sanctions may be about to explosively increase. In this paper I argue that we should treat conventional neglect and 'genetic neglect'– failing to use genetic intervention technologies to prevent serious diseases and disabilities – morally consistently. I conclude that in a range of cases parents will have a moral obligation to use genetic treatments to prevent serious disabilities in their children. My particular focus is on prenatal interventions and their impact of the bodily integrity of expectant mothers. I conclude that although bodily integrity constrains moral obligations, it is outweighed in a range of cases. (shrink)