Effects of alternative outcome scenarios and structured outcome evaluation on case-based ethics instruction

Case-based instruction has been regarded by many as a viable alternative to traditional lecture-based education and training. However, little is known about how case-based training techniques impact training effectiveness. This study examined the effects of two such techniques: (a) presentation of alternative outcome scenarios to a case, and (b) conducting a structured outcome evaluation. Consistent with the hypotheses, results indicate that presentation of alternative outcome scenarios reduced knowledge acquisition, reduced sensemaking and ethical decision-making strategy use, and reduced decision ethicality. Conducting a structured outcome evaluation had no impact on these outcomes. Results indicate that those who use case-based instruction should take care to use clear, less complex cases with only a singular outcome if they are seeking these types of outcomes.

Engineering ethics: looking back, looking forward

The eight pieces constituting this Meeting Report are summaries of presentations made during a panel session at the 2011 Association for Practical and Professional Ethics (APPE) annual meeting held between March 3rd and 6th in Cincinnati. Lisa Newton organized the session and served as chair. The panel of eight consisted both of pioneers in the field and more recent arrivals. It covered a range of topics from how the field has developed to where it should be going, from identification of issues needing further study to problems of training the next generation of engineers and engineering-ethics scholars.

An experiential, game-theoretic pedagogy for sustainability ethics

The wicked problems that constitute sustainability require students to learn a different set of ethical skills than is ordinarily required by professional ethics. The focus for sustainability ethics must be redirected towards: (1) reasoning rather than rules, and (2) groups rather than individuals. This need for a different skill set presents several pedagogical challenges to traditional programs of ethics education that emphasize abstraction and reflection at the expense of experimentation and experience. This paper describes a novel pedagogy of sustainability ethics that is based on noncooperative, game-theoretic problems that cause students to confront two salient questions: "What are my obligations to others?" and "What am I willing to risk in my own well-being to meet those obligations?" In comparison to traditional professional ethics education, the game-based pedagogy moves the learning experience from: passive to active, apathetic to emotionally invested, narratively closed to experimentally open, and from predictable to surprising. In the context of game play, where players must make decisions that can adversely impact classmates, students typically discover a significant gap between their moral aspirations and their moral actions. When the games are delivered sequentially as part of a full course in Sustainability Ethics, students may experience a moral identity crisis as they reflect upon the incongruity of their self-understanding and their behavior. Repeated play allows students to reconcile this discrepancy through group deliberation that coordinates individual decisions to achieve collective outcomes. It is our experience that students gradually progress through increased levels of group tacit knowledge as they encounter increasingly complex game situations.

Socio-ethical education in nanotechnology engineering programmes: a case study in Malaysia

The unique properties of nanotechnology have made nanotechnology education and its related subjects increasingly important not only for students but for mankind at large. This particular technology brings educators to work together to prepare and produce competent engineers and scientists for this field. One of the key challenges in nanotechnology engineering is to produce graduate students who are not only competent in technical knowledge but possess the necessary attitude and awareness toward the social and ethical issues related to nanotechnology. In this paper, a research model has been developed to assess Malaysian nanotechnology engineering students' attitudes and whether their perspectives have attained the necessary objectives of ethical education throughout their programme of study. The findings from this investigation show that socio ethical education has a strong influence on the students' knowledge, skills and attitudes pertaining to socio ethical issues related to nanotechnology.

Cultivating professional responsibility in a dental hygiene curriculum

To prepare dental hygienists for future roles in the health care system, dental hygiene education must prepare graduates with skills, ethics, and values that align with professional responsibility. The objective of this study was to determine the effectiveness of curricular changes designed to develop professional identity and responsibility over the entire span of the dental hygiene curriculum. Twenty-four dental hygiene students at the University of Minnesota were surveyed about their attitudes toward access to dental care, society's and health professionals' responsibility to care for the underserved, and their personal efficacy to provide care for the underserved. Surveys were conducted at three time points in the curriculum. The Attitudes Toward Health Care instrument adapted by Holtzman for dental use was used to survey the students. The findings indicate that this institution's curricular changes were effective in cultivating professional responsibility among these students. Their attitude scores increased across the six-semester curriculum, and students in their last semester of the program believed that all individuals have a right to dental care and that society has an obligation to provide dental care. These students' sense of obligation to care for the needy became stronger and their perceptions of their own ability to impact the community and act as an agent of change also increased.

Medical students' decisions about authorship in disputable situations: intervention study

In medicine, professional behavior and ethics are often rule-based. We assessed whether instruction on formal criteria of authorship affected the decision of students about authorship dilemmas and whether they perceive authorship as a conventional or moral concept. A prospective non-randomized intervention study involved 203s year medical students who did (n = 107) or did not (n = 96) received a lecture on International Committee of Medical Journal editors (ICMJE) authorship criteria. Both groups had to read 3 vignettes and answer 4 questions related to the distinction between conventional and moral domains. Written justification of student' choices whether the authorship in a vignette was right or wrong was rated by 4 independent raters as based on justice or a rule. Formal instruction had no effect on students' decisions on authorship in the vignettes (44, 34 and 39% ICMJE-consistent answers for 3 vignettes, respectively, by students receiving instruction vs. 38, 42 and 30% for those without instruction; P > 0.161 for all vignettes). For all dilemmas, more students decided contrary to ICMJE criteria and considered their decisions to be a matter of obligation and not a choice and to be general across situations and sciences. They were willing to change their decision if a rule was different only for peer situations but not for mentor-mentee situations. The number of students who used rule-based justification of their ICMJE criteria-consistent decisions was significantly higher in the instructed than in the uninstructed group. Instruction about formal authorship criteria had no effect on student's decisions about authorship dilemmas and their decisions were related to the moral rather than a conventional domain. Teaching about authorship and other professionalism and integrity issues may benefit from interventions that bring intuitive processes into awareness instead of those fostering rule-based reasoning.

Comparison of engagement with ethics between an engineering and a business program

Increasing university students' engagement with ethics is becoming a prominent call to action for higher education institutions, particularly professional schools like business and engineering. This paper provides an examination of student attitudes regarding ethics and their perceptions of ethics coverage in the curriculum at one institution. A particular focus is the comparison between results in the business college, which has incorporated ethics in the curriculum and has been involved in ethics education for a longer period, with the engineering college, which is in the nascent stages of developing ethics education in its courses. Results show that student attitudes and perceptions are related to the curriculum. In addition, results indicate that it might be useful for engineering faculty to use business faculty as resources in the development of their ethics curricula.

The effectiveness of ethics education: a quasi-experimental field study

Ethical conduct is the hallmark of excellence in engineering and scientific research, design, and practice. While undergraduate and graduate programs in these areas routinely emphasize ethical conduct, few receive formal ethics training as part of their curricula. The first purpose of this research study was to assess the relative effectiveness of ethics education in enhancing individuals' general knowledge of the responsible conduct of research practices and their level of moral reasoning. Secondly, we examined the effects of ethics education on the positive psychological outcomes of perspective-taking, moral efficacy, moral courage, and moral meaningfulness. To examine our research hypotheses, we utilized a pretest-posttest quasi-experimental design consisting of three ethics education groups (control, embedded modules, and stand-alone courses). Findings revealed that both embedded and stand alone courses were effective in enhancing participants' perspective-taking, moral efficacy, and moral courage. Moral meaningfulness was marginally enhanced for the embedded module condition. Moral judgment and knowledge of responsible conduct of research practices were not influenced by either ethics education condition. Contrary to expectations, stand alone courses were not superior to embedded modules in influencing the positive psychological outcomes investigated. Implications of these findings for future research and practice are discussed.

Contentious problems in bioscience and biotechnology: a pilot study of an approach to ethics education

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 of the public. This approach may provide a model for educating future bioscientists and bioengineers so that they can meaningfully contribute to the social understanding and resolution of challenging policy problems generated by their work.

Introducing survival ethics into engineering education and practice

Given the possibilities of synthetic biology, weapons of mass destruction and global climate change, humans may achieve the capacity globally to alter life. This crisis calls for an ethics that furnishes effective motives to take global action necessary for survival. We propose a research program for understanding why ethical principles change across time and culture. We also propose provisional motives and methods for reaching global consensus on engineering field ethics. Current interdisciplinary research in ethics, psychology, neuroscience and evolutionary theory grounds these proposals. Experimental ethics, the application of scientific principles to ethical studies, provides a model for developing policies to advance solutions. A growing literature proposes evolutionary explanations for moral development. Connecting these approaches necessitates an experimental or scientific ethics that deliberately examines theories of morality for reliability. To illustrate how such an approach works, we cover three areas. The first section analyzes cross-cultural ethical systems in light of evolutionary theory. While such research is in its early stages, its assumptions entail consequences for engineering education. The second section discusses Howard University and University of Puerto Rico/Mayagüez (UPRM) courses that bring ethicists together with scientists and engineers to unite ethical theory and practice. We include a syllabus for engineering and STEM (Science, Technology, Engineering and Mathematics) ethics courses and a checklist model for translating educational theory and practice into community action. The model is based on aviation, medicine and engineering practice. The third and concluding section illustrates Howard University and UPRM efforts to translate engineering educational theory into community action. Multidisciplinary teams of engineering students and instructors take their expertise from the classroom to global communities to examine further the ethicality of prospective technologies and the decision-making processes that lead to them.

Getting started: helping a new profession develop an ethics program

Both of us have been involved with helping professions, especially new scientific or technological professions, develop ethics programs-for undergraduates, graduates, and practitioners. By "ethics program", we mean any strategy for teaching ethics, including developing materials. Our purpose here is to generalize from that experience to identify the chief elements needed to get an ethics program started in a new profession. We are focusing on new professions for two reasons. First, all the older professions, both in the US and in most other countries, now have ethics programs of some sort. They do not need our advice to get started. Second, new professions face special problems just because they are new-everything from deciding who belongs to the profession to formalizing ethical standards so that they can be taught. Our purpose in this paper is to generalize from our experience and to identify some of the fundamentals for getting an ethics program started in a new profession. We present our recommendations in the form of response to 6 questions anyone designing an ethics program for a new profession should ask. We realize that our brief discussion does not provide a complete treatment of the subject. Our purpose has been to point in the right direction those considering an ethics program for new profession.

Incorporating global components into ethics education

Ethics is central to science and engineering. Young engineers need to be grounded in how corporate social responsibility principles can be applied to engineering organizations to better serve the broader community. This is crucial in times of climate change and ecological challenges where the vulnerable can be impacted by engineering activities. Taking a global perspective in ethics education will help ensure that scientists and engineers can make a more substantial contribution to development throughout the world. This paper presents the importance of incorporating the global and cross culture components in the ethic education. The authors bring up a question to educators on ethics education in science and engineering in the globalized world, and its importance, necessity, and impendency. The paper presents several methods for discussion that can be used to identify the differences in ethics standards and practices in different countries; enhance the student's knowledge of ethics in a global arena.

Design, development, and evaluation of a second generation interactive Simulator for Engineering Ethics Education (SEEE2)

This paper describes a second generation Simulator for Engineering Ethics Education. Details describing the first generation activities of this overall effort are published in Chung and Alfred (Sci Eng Ethics 15:189-199, 2009). The second generation research effort represents a major development in the interactive simulator educational approach. As with the first generation effort, the simulator places students in first person perspective scenarios involving different types of ethical situations. Students must still gather data, assess the situation, and make decisions. The approach still requires students to develop their own ability to identify and respond to ethical engineering situations. However, were as, the generation one effort involved the use of a dogmatic model based on National Society of Professional Engineers' Code of Ethics, the new generation two model is based on a mathematical model of the actual experiences of engineers involved in ethical situations. This approach also allows the use of feedback in the form of decision effectiveness and professional career impact. Statistical comparisons indicate a 59 percent increase in overall knowledge and a 19 percent improvement in teaching effectiveness over an Internet Engineering Ethics resource based approach.

Interprofessional education in U.S. and Canadian dental schools: an ADEA Team Study Group report

The state of interprofessional education (IPE) in U.S. and Canadian dental schools was studied by the American Dental Education Association (ADEA) Team Study Group on Interprofessional Education. The study group reviewed the pertinent IPE literature, examined IPE competencies for dental students, surveyed U.S. and Canadian dental schools to determine the current and planned status of IPE activities, and identified best practices. Members of the study group prepared case studies of the exemplary IPE programs of six dental schools, based on information provided by those schools; representatives from each school then reviewed and approved its case study. Six reviewers critiqued a draft of the study group's report, and study group members and reviewers met together to prepare recommendations for schools. This report identifies four domains of competence for student achievement in IPE and summarizes responses to the survey (which had an 86 percent response rate). It also includes the case descriptions of six schools' IPE programs and the study group's recommendations for dental schools. The report concludes that there is general recognition of the goals of IPE across U.S. and Canadian dental schools, but a wide range of progress in IPE on the various campuses. Challenges to the further development of IPE are discussed.

A systematic approach to engineering ethics education

Engineering ethics education is a complex field characterized by dynamic topics and diverse students, which results in significant challenges for engineering ethics educators. The purpose of this paper is to introduce a systematic approach to determine what to teach and how to teach in an ethics curriculum. This is a topic that has not been adequately addressed in the engineering ethics literature. This systematic approach provides a method to: (1) develop a context-specific engineering ethics curriculum using the Delphi technique, a process-driven research method; and (2) identify appropriate delivery strategies and instructional strategies using an instructional design model. This approach considers the context-specific needs of different engineering disciplines in ethics education and leverages the collaboration of engineering professors, practicing engineers, engineering graduate students, ethics scholars, and instructional design experts. The proposed approach is most suitable for a department, a discipline/field or a professional society. The approach helps to enhance learning outcomes and to facilitate ethics education curriculum development as part of the regular engineering curriculum.

ABET Criterion 3.f: how much curriculum content is enough?

Even after multiple cycles of ABET accreditation, many engineering programs are unsure of how much curriculum content is needed to meet the requirements of ABET's Criterion 3.f (an understanding of professional and ethical responsibility). This study represents the first scholarly attempt to assess the impact of curriculum reform following the introduction of ABET Criterion 3.f. This study sought to determine how much professional and ethical responsibility curriculum content was used between 1995 and 2005, as well as how, when, why, and to what effect changes in the amount of content occurred. Subsequently, the study sought to evaluate if different amounts of curriculum content generated differing student outcomes. The amount of curriculum content used by each of the participating programs was identified during semi-structured interviews with program administrators and a review of ABET Self-Study documents. Quantitative methods were applied to determine if a relationship existed between the curriculum content and performance on a nationally administered, engineering-specific standardized examination. The findings indicate a statistical relationship, but a lack of structure between the amount of required content in the curriculum and performance on the examination. Additional findings were also generated regarding the way that programs interpret the Criterion 3.f feedback generated during accreditation visits. The primary impact of this study is that it dispels the myth that more courses or course time on professionalism and ethics will necessarily lead to positive engineering education outcomes. Much of the impetus to add more curriculum content results from a lack of conclusive feedback during ABET accreditation visits.

Assessing graduate student progress in engineering ethics

Under a grant from the National Science Foundation, the authors (and others) undertook to integrate ethics into graduate engineering classes at three universities-and to assess success in a way allowing comparison across classes (and institutions). This paper describes the attempt to carry out that assessment. Standard methods of assessment turned out to demand too much class time. Under pressure from instructors, the authors developed an alternative method that is both specific in content to individual classes and allows comparison across classes. Results are statistically significant for ethical sensitivity and knowledge. They show measurable improvement in a single semester.

Teaching ethics to engineers: ethical decision making parallels the engineering design process

In order to fulfill ABET requirements, Northern Arizona University's Civil and Environmental engineering programs incorporate professional ethics in several of its engineering courses. This paper discusses an ethics module in a 3rd year engineering design course that focuses on the design process and technical writing. Engineering students early in their student careers generally possess good black/white critical thinking skills on technical issues. Engineering design is the first time students are exposed to "grey" or multiple possible solution technical problems. To identify and solve these problems, the engineering design process is used. Ethical problems are also "grey" problems and present similar challenges to students. Students need a practical tool for solving these ethical problems. The step-wise engineering design process was used as a model to demonstrate a similar process for ethical situations. The ethical decision making process of Martin and Schinzinger was adapted for parallelism to the design process and presented to students as a step-wise technique for identification of the pertinent ethical issues, relevant moral theories, possible outcomes and a final decision. Students had greatest difficulty identifying the broader, global issues presented in an ethical situation, but by the end of the module, were better able to not only identify the broader issues, but also to more comprehensively assess specific issues, generate solutions and a desired response to the issue.

Should engineering ethics be taught?

Should engineering ethics be taught? Despite the obvious truism that we all want our students to be moral engineers who practice virtuous professional behavior, I argue, in this article that the question itself obscures several ambiguities that prompt preliminary resolution. Upon clarification of these ambiguities, and an attempt to delineate key issues that make the question a philosophically interesting one, I conclude that engineering ethics not only should not, but cannot, be taught if we understand "teaching engineering ethics" to mean training engineers to be moral individuals (as some advocates seem to have proposed). However, I also conclude that there is a justification to teaching engineering ethics, insofar as we are able to clearly identify the most desirable and efficacious pedagogical approach to the subject area, which I propose to be a case study-based format that utilizes the principle of human cognitive pattern recognition.

The Nazi engineers: reflections on technological ethics in hell

Engineers, architects, and other technological professionals designed the genocidal death machines of the Third Reich. The death camp operations were highly efficient, so these technological professionals knew what they were doing: they were, so to speak, good engineers. As an educator at a technological university, I need to explain to my students-future engineers and architects-the motivations and ethical reasoning of the technological professionals of the Third Reich. I need to educate my students in the ethical practices of this hellish regime so that they can avoid the kind of ethical justifications used by the Nazi engineers. In their own professional lives, my former students should not only be good engineers in a technical sense, but good engineers in a moral sense. In this essay, I examine several arguments about the ethical judgments of professionals in Nazi Germany, and attempt a synthesis that can provide a lesson for contemporary engineers and other technological professionals. How does an engineer avoid the error of the Nazi engineers in their embrace of an evil ideology underlying their technological creations? How does an engineer know that the values he embodies through his technological products are good values that will lead to a better world? This last question, I believe, is the fundamental issue for the understanding of engineering ethics.

The journey beyond silos. Teaching and learning interprofessional ethics at UTHealth

Interprofessional education and ethics education are two educational programs that blend together well, and, moreover, they are a natural fit for teaching in an academic health science center. The purpose of this paper is to describe our recent journey of developing and implementing an interprofessional ethics curriculum across the six schools of UTHealth. We provide an overview of the goals of the Campus-wide Ethics Program, which is housed in the McGovern Center for Humanities and Ethics, and we highlight certain innovative developments that are the result of the collaborative work of faculty and administrators from all six schools of UTHealth. In addition, a brief synopsis of the specific didactic and clinical courses in which ethics is a significant component is outlined for both the dental and the dental hygiene curricula. Lastly, we describe some of the recent scholarly activities that are a product of this new program. We are excited about our evolving efforts and the potential benefits of weaving interprofessional ethics within our school and across our campus. This article tells the story of our journey beyond "the silos" that are common among academic health science centers.

Ethics education in undergraduate pre-health programs. The contribution of undergraduate colleges and universities to the ethical and moral development of future doctors in the medical and dental professions

There are many barriers to ethics education of students attending medical and dental schools. The question is asked, "Should more attention be given to addressing students' ethics education during their undergraduate years of preparation for professional healthcare programs?" This qualitative study utilizes digitally recorded personal interviews with two undergraduate pre-healthcare students, one medical student, one recently matriculated dental student, one undergraduate pre-healthcare faculty member, three dental school faculty members, and three medical school faculty members. Interview participants discuss areas of personal knowledge and experience concerning: the admissions process and screening of potential medical/dental students for ethical traits and behaviors, influences on student ethical development, undergraduate pre-healthcare ethics training, and preferred college major for pre-healthcare students. The study concludes that undergraduate pre-healthcare programs should take the initiative to be proactive and deliberate in strengthening the positive influences on students. Strategies include: 1) humanities curricula to broaden perspectives and increase non-prejudice; 2) mentoring and modeling by older students, faculty, and community and professional volunteers; 3) ethical case study discussions in class or extracurricular activities; and 4) volunteer/service learning activities. Additionally, curriculum learning is enhanced by the use of reflection and writing, discussions, and media.

Broadening ethics teaching in engineering: beyond the individualistic approach

There is a widespread approach to the teaching of ethics to engineering students in which the exclusive focus is on engineers as individual agents and the broader context in which they do their work is ignored. Although this approach has frequently been criticised in the literature, it persists on a wide scale, as can be inferred from accounts in the educational literature and from the contents of widely used textbooks in engineering ethics. In this contribution we intend to: (1) Restate why the individualistic approach to the teaching of ethics to engineering students is inadequate in view of preparing them for ethical, professional and social responsibility; (2) Examine the existing literature regarding the possible contribution of Science, Technology and Society (STS) scholarship in addressing the inadequacies of the individualistic approach; and (3) Assess this possible contribution of STS in order to realise desired learning outcomes regarding the preparation of students for ethical and social responsibility.