Switch to: References

Citations of:

The Ethics of Genetic Engineering

Routledge (2007)

Add citations

You must login to add citations.
  1. How to Play the “Playing God” Card.Moti Mizrahi - 2020 - Science and Engineering Ethics 26 (3):1445-1461.
    When the phrase “playing God” is used in debates concerning the use of new technologies, such as cloning or genetic engineering, it is usually interpreted as a warning not to interfere with God’s creation or nature. I think that this interpretation of “playing God” arguments as a call to non-interference with nature is too narrow. In this paper, I propose an alternative interpretation of “playing God” arguments. Taking an argumentation theory approach, I provide an argumentation scheme and accompanying critical questions (...)
    Download  
     
    Export citation  
     
    Bookmark   1 citation  
  • Reflexive Principlism as an Effective Approach for Developing Ethical Reasoning in Engineering.Jonathan Beever & Andrew O. Brightman - 2016 - Science and Engineering Ethics 22 (1):275-291.
    An important goal of teaching ethics to engineering students is to enhance their ability to make well-reasoned ethical decisions in their engineering practice: a goal in line with the stated ethical codes of professional engineering organizations. While engineering educators have explored a wide range of methodologies for teaching ethics, a satisfying model for developing ethical reasoning skills has not been adopted broadly. In this paper we argue that a principlist-based approach to ethical reasoning is uniquely suited to engineering ethics education. (...)
    Download  
     
    Export citation  
     
    Bookmark   8 citations  
  • Contentious Problems in Bioscience and Biotechnology: A Pilot Study of an Approach to Ethics Education.Roberta M. Berry, Jason Borenstein & Robert J. Butera - 2013 - Science and Engineering Ethics 19 (2):653-668.
    This manuscript describes a pilot study in ethics education employing a problem-based learning approach to the study of novel, complex, ethically fraught, unavoidably public, and unavoidably divisive policy problems, called “fractious problems,” in bioscience and biotechnology. Diverse graduate and professional students from four US institutions and disciplines spanning science, engineering, humanities, social science, law, and medicine analyzed fractious problems employing “navigational skills” tailored to the distinctive features of these problems. The students presented their results to policymakers, stakeholders, experts, and members (...)
    Download  
     
    Export citation  
     
    Bookmark   10 citations  
  • A Small Bioethical World?Roberta M. Berry - 2011 - HEC Forum 23 (1):1-14.
    This essay discusses four challenges posed to a global bioethics by articles on: divergent national policies on compensation of egg donors for IVF, efforts to advance the development of international guidelines for the management of neonates on the edge of viability, bioethics training workshops in Uganda, a bioethicist’s reflection on a visit to Pakistan. The article then discusses several approaches to developing a global bioethics and how these approaches might meet the four challenges. The essay concludes with discussion of the (...)
    Download  
     
    Export citation  
     
    Bookmark   2 citations  
  • Reflective Consensus Building on Wicked Problems with the Reflect! Platform.Michael H. G. Hoffmann - 2020 - Science and Engineering Ethics 26 (2):793-819.
    Wicked problems—that is, problems that can be framed in a number of different ways, depending on who is looking at them—pose ethical challenges for professionals that have scarcely been recognized as such. Even though wicked problems are all around us, they are rarely addressed in education. A reason for this failure might be that wicked problems pose almost insurmountable challenges in educational settings. This contribution shows how students can learn to cope with wicked problems in problem-based learning projects that are (...)
    Download  
     
    Export citation  
     
    Bookmark   2 citations  
  • Navigating Bioethical Waters: Two Pilot Projects in Problem-Based Learning for Future Bioscience and Biotechnology Professionals.Roberta M. Berry, Aaron D. Levine, Robert Kirkman, Laura Palucki Blake & Matthew Drake - 2016 - Science and Engineering Ethics 22 (6):1649-1667.
    We believe that the professional responsibility of bioscience and biotechnology professionals includes a social responsibility to contribute to the resolution of ethically fraught policy problems generated by their work. It follows that educators have a professional responsibility to prepare future professionals to discharge this responsibility. This essay discusses two pilot projects in ethics pedagogy focused on particularly challenging policy problems, which we call “fractious problems”. The projects aimed to advance future professionals’ acquisition of “fractious problem navigational” skills, a set of (...)
    Download  
     
    Export citation  
     
    Bookmark   1 citation