Biomedical ethics for engineers : ethics and decision making in biomedical and biosystem engineering /

Biomedical ethics for engineers : ethics and decision making in biomedical and biosystem engineering /

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Bibliographic Details
Author / Creator:Vallero, Daniel A.
Imprint:Amsterdam ; Boston : Elsevier/Academic Press, c2007.
Description:xxiii, 408 p. : ill. ; 25 cm.
Language:English
Series:The biomedical engineering series
Biomedical engineering series (Amsterdam, Netherlands)
Subject:Biomedical engineering -- Moral and ethical aspects.
Medical ethics.
Bioethics.
Bioethics.
Medical ethics.
Format: Print Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/6368730
Hidden Bibliographic Details
ISBN:0750682272
9780750682275
Notes:Includes bibliographical references (p. 348-362) and indexes.
Table of Contents:
  • Preface
  • Driver's Education Analogy
  • Christopher Stone
  • Gaylord Nelson
  • Notes and Commentary
  • Chapter 5. Bioethical Research and Technological Development
  • Beyond Regulation
  • Integrity
  • Teachable Moment: The Therapeutic Misconception
  • The Experiment
  • The Hypothetico-Deductive Method
  • Research Conflict of Interest
  • Example Case: Priming the Pump
  • Teachable Moment: Truth and Turtles
  • Professionalism
  • Technology: Friend and Foe
  • Teachable Moment: Medical Device Risk
  • Risk Homeostasis and the Theory of Offsetting Behavior
  • Artifacts
  • Automation and Mechanization of Medicine
  • Professional Consideration: Do Engineers Have Patients?
  • Technological Reliability
  • Low Tech Engineering
  • Case Analysis
  • Information Technology
  • The Ethics of Nanotechnology
  • Notes and Commentary
  • Chapter 6. Bioethical Success and Failure
  • Teachable Moment: Engineering Measurement
  • Measurements of Success and Failure
  • Technological Success and Failure
  • Risk as a Bioethical Concept
  • Safety, Risk, and Reliability in Design
  • Probability: The Mathematics of Risk and Reliability
  • Notes and Commentary
  • Discussion Box: Choose Your Risk
  • Reliability: An Ethics Metric
  • Reducing Risks
  • Risk as an Ethical Concept
  • Risk-Based Ethics: The Syllogism Revisited
  • Causation
  • Biographical Box: Sir Bradford Hill
  • Notes and Commentary
  • Chapter 7. Analyzing Bioethical Success and Failure
  • Medical Device Failure: Human Factors Engineering
  • Chapter 1. Bioethics: A Creative Approach
  • Teachable Moment: How to Analyse a Medical Device
  • Utility as a Measure of Success
  • Failure Type 1. Mistakes and Miscalculations
  • Failure Type 2. Extraordinary Natural Circumstances
  • Failure Type 3. Critical Path
  • Failure Type 4. Negligence
  • Failure Type 5. Lack of Imagination
  • Bioterrorism: The Engineer's Response
  • Dual Use and Primacy of Science
  • Social Response of Engineering to Terrorism
  • Thought Experiments
  • Success Paradigms
  • Characterizing Success and Failure
  • Accountability
  • Value
  • Case Analysis
  • Notes and Commentary
  • Chapter 8. Justice and Fairness as Biomedical and Biosystem Engineering Concepts
  • Fairness and Distributive Justice
  • Discussion Box: Harm and the Hippocratic Oath
  • Teachable Moment: Disposal of a Slightly Hazardous Waste
  • Teachable Moment: Trust
  • Solution and Discussion
  • Though Experiment: Who Is More Ethical?
  • Professional Virtue and Empathy
  • Teachable Moment: Albert Schweitzer and the Reverence for Life
  • Reason
  • Teachable Moment: Abortion, Fairness, and Justice
  • Utility
  • Teachable Moment: Utility and Futility
  • Precaution as a Bioethical Concept
  • Discussion Box: The Tragedy of the Commons
  • The Principle of Double Effect
  • Notes and Commentary
  • Chapter 9. Sustainable Bioethics
  • Green Is Good
  • Sustainability
  • Teachable Moment: Rational Ethics and Thermodynamics
  • Life Cycles and Concurrent Engineering
  • Case Study Box: SIDS, A Concurrent Engineering Failure
  • Discussion Box: The Coffee Cup Debate
  • The Bioethics of Combustion
  • Systematic Bioethics
  • Teachable Moment: The Engineer as Agent versus Judge
  • Seveso Plant Disaster
  • Poverty and Pollution
  • Interdependence
  • Notes and Commentary
  • Chapter 10. Engineering Wisdom
  • Ethics and Chaos
  • Macroethics and Microethics
  • Future Directions
  • The Humble Engineer
  • Notes and Commentary
  • Amy the Engineer
  • Epilogue: Practical Bioethics
  • Shutting Down the Pump
  • Objectivity and Finding Truth
  • Moral Courage
  • Bioethics Resources for the Engineer
  • Suggested Readings
  • Ethics of Emerging Technologies
  • Ethical Analysis, Reasoning, and Decision Making
  • Macroethics and Societal Risk
  • Teaching Engineering Macroethics
  • Done Is Good
  • Teachable Moment: Who Was Van Rensselaer Potter?
  • Teaching Engineering Microethics
  • Useful Websites
  • Notes and Commentary
  • Appendix 1.
  • Appendix 2.
  • Glossary of Terms Likely to Be Encountered in Bioethical Decision Making
  • Name Index
  • Subject Index
  • Credat Emptor
  • Teachable Moment: Capital Punishment, Abortion, and the Definition of Human Life
  • The Good Engineer
  • Feedback and Enhancement of Design
  • Teachable Moment: The Good Engineer
  • The Profession of Engineering
  • Engineering Bioethics and Morality
  • Discussion Box: Ethics and the Butterfly Effect
  • "Small" Error and Devastating Outcomes
  • Structure and Pedagogy
  • Technology, Engineering, and Economics
  • Teachable Moment: The Dismal Scientist versus the Technological Optimist
  • Engineering Competence
  • Engineering: Both Integrated and specialized
  • Who Is a Professional?
  • What Is Technical?
  • Systematics: Incorporating Ethics into the Design Process
  • Notes and Commentary
  • Chapter 2. Bioethics and the Engineer
  • Major Bioethical Areas
  • Notes and Commentary
  • Cloning and Stem Cell Research
  • Teachable Moment: Nanog
  • Human Enhancement
  • Patenting Life
  • Teachable Moment: Patenting Germplasm
  • Neuroethics
  • Organ Transplantation
  • Responsible Conduct of Human Research
  • Animal Testing
  • Is the Research Worth It?
  • Acknowledgments
  • Systematic Reality Check
  • Genetically Modified Organisms
  • Transgenic Species
  • Food
  • Environmental Health: The Ethics of Scale and the Scale of Ethics
  • Temporal Aspects of Bioethical Decisions: Environmental Case Studies
  • Agent Orange
  • Japanese Metal Industries
  • Minamata Mercury Case
  • Cadmium and Itai Itai Disease
  • Bioethics Questions Posed in Text
  • Scale Is More than Size
  • Love Canal
  • Times Beach
  • Teachable Moment: The Whole Is Greater than the Sum of Its Parts
  • Active Engineering
  • Ethical Theories: A Primer
  • Truth
  • Psychological Aspects of Ethics
  • Teachable Moment: The Physiome Project: The Macroethics of Engineering toward Health
  • Fairness
  • Prologue: Bioethics - Discovery through Design
  • Value as a Bioethical and Engineering Concept
  • Technical Optimism versus Dismal Science
  • Notes and Commentary
  • Chapter 3. An Engineered Future: Human Enhancement
  • Professional Zeitgeist: How Engineers Think
  • Improvement versus Enhancement
  • Engineering Intuition
  • Engineers versus Economists
  • Intuiting Value
  • Deductive and Inductive Reasoning: Precursors to Intuition
  • A Different Approach to Bioethics
  • Creativity
  • Moral Coherence
  • Creativity and Bioethics
  • The Ethical Quandary of Enhancement
  • Scientific Dissent
  • Notes and Commentary
  • Chapter 4. The Bioethical Engineer
  • Professional Trust
  • Codes of Ethics: Words to Live By
  • Discussion Box: The Code of Hammurabi
  • Arguments for and Against Case Analysis
  • Limitations of Codes of Ethics
  • Risk Shifting: Organochlorine Pesticides
  • Right of Professional Conscience
  • Groupthink and the Right of Conscience
  • Animals and Engineers
  • Teachable Moment: Confined Animal Feeding Operations and the Moral Standing of Animals
  • Making Ethical Decisions in Engineering
  • Discussion Box: Four Persons Who Changed the Way We Think about Nature
  • John Muir
  • Rachel Carson
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