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@text:Biomedical Research and Beyond investigates the ethics of biomedical and scientific inquiry, including embryonic research, animal research, genetic enhancement, and fairness in research in the developing world. Core concerns of biomedical and scientific research ethics are then shown also to be key in humanistic areas of inquiry.
What is the relationship between scientific research and ethics? Some think that science should be free from ethical and political considerations. Biomedical Research and Beyond argues that ethical guidance is essential for all forms of inquiry, including biomedical and scientific research. By addressing some of the most controversial questions of biomedical research, such as embryonic research, animal research, and genetic enhancement research, the author argues for a rich moral framework for the ethics of inquiry, based on the ideal of human flourishing. He then looks at other areas of inquiry, such as journalistic ethics, and military investigation, to see how similar they are to the ethics of scientific research. Finally, he looks at the virtues that must play a role in any life that is devoted to research and inquiry as a vocational commitment.
An analysis of current biomedical research misconduct policy that proposes a new approach emphasizing the context of misconduct and improved oversight. Federal regulations that govern research misconduct in biomedicine have not been able to prevent an ongoing series of high-profile cases of fabricating, falsifying, or plagiarizing scientific research. In this book, Barbara Redman looks critically at current research misconduct policy and proposes a new approach that emphasizes institutional context and improved oversight. Current policy attempts to control risk at the individual level. But Redman argues that a fair and effective policy must reflect the context in which the behavior in question is embedded. As journalists who covered many research misconduct cases observed, the roots of fraud “lie in the barrel, not in the bad apples that occasionally roll into view.” Drawing on literature in related fields—including moral psychology, the policy sciences, the organizational sciences, and law—as well as analyses of misconduct cases, Redman considers research misconduct from various perspectives. She also examines in detail a series of clinical research cases in which repeated misconduct went undetected and finds laxity of oversight, little attention to harm done, and inadequate correction of the scientific record. Study questions enhance the book's value for graduate and professional courses in research ethics. Redman argues that the goals of any research misconduct policy should be to protect scientific capital (knowledge, scientists, institutions, norms of science), support fair competition, contain harms to end users and to the public trust, and enable science to meet its societal obligations.
The biomedical industry, which includes biopharmaceuticals, genomics and stem cell therapies, and medical devices, is among the fastest growing worldwide. While it has been an economic development target of many national governments, Asia is currently on track to reach the epicenter of this growth. What accounts for the rapid and sustained economic growth of biomedicals in Asia? To answer this question, Kathryn Ibata-Arens integrates global and national data with original fieldwork to present a conceptual framework that considers how national governments have managed key factors, like innovative capacity, government policy, and firm-level strategies. Taking China, India, Japan, and Singapore in turn, she compares each country's underlying competitive advantages. What emerges is an argument that countries pursuing networked technonationalism (NTN) effectively upgrade their capacity for innovation and encourage entrepreneurial activity in targeted industries. In contrast to countries that engage in classic technonationalism—like Japan's developmental state approach—networked technonationalists are global minded to outside markets, while remaining nationalistic within the domestic economy. By bringing together aggregate data at the global and national level with original fieldwork and drawing on rich cases, Ibata-Arens telegraphs implications for innovation policy and entrepreneurship strategy in Asia—and beyond.
In times of global economic and political crises, the notion of solidarity is gaining new currency. This book argues that a solidarity-based perspective can help us to find new ways to address pressing problems. Exemplified by three case studies from the field of biomedicine: databases for health and disease research, personalised healthcare, and organ donation, it explores how solidarity can make a difference in how we frame problems, and in the policy solutions that we can offer.
Across a broad range of disciplines_in medicine, social science, and the humanities_researchers, scholars, teachers, and administrators increasingly are looking for new ways to approach ethical issues in research with human subjects. Questions about how r
The nature of biomedical research has been evolving in recent years. Technological advances that make it easier to study the vast complexity of biological systems have led to the initiation of projects with a larger scale and scope. In many cases, these large-scale analyses may be the most efficient and effective way to extract functional information from complex biological systems. Large-Scale Biomedical Science: Exploring Strategies for Research looks at the role of these new large-scale projects in the biomedical sciences. Though written by the National Academies' Cancer Policy Board, this book addresses implications of large-scale science extending far beyond cancer research. It also identifies obstacles to the implementation of these projects, and makes recommendations to improve the process. The ultimate goal of biomedical research is to advance knowledge and provide useful innovations to society. Determining the best and most efficient method for accomplishing that goal, however, is a continuing and evolving challenge. The recommendations presented in Large-Scale Biomedical Science are intended to facilitate a more open, inclusive, and accountable approach to large-scale biomedical research, which in turn will maximize progress in understanding and controlling human disease.
Biotechnologies already on the horizon will enable us to be smarter, have better memories, be stronger and quicker, have more stamina, live longer, be more resistant to diseases, and enjoy richer emotional lives. To some of us, these prospects are heartening; to others, they are dreadful. In Beyond Humanity a leading philosopher offers a powerful and controversial exploration of urgent ethical issues concerning human enhancement. These raise enduring questions about what it is to be human, about individuality, about our relationship to nature, and about what sort of society we should strive to have. Allen E. Buchanan urges that the debate about enhancement needs to be informed by a proper understanding of evolutionary biology, which has discredited the simplistic conceptions of human nature used by many opponents of enhancement. He argues that there are powerful reasons for us to embark on the enhancement enterprise, and no objections to enhancement that are sufficient to outweigh them.
In the realm of health care, privacy protections are needed to preserve patients' dignity and prevent possible harms. Ten years ago, to address these concerns as well as set guidelines for ethical health research, Congress called for a set of federal standards now known as the HIPAA Privacy Rule. In its 2009 report, Beyond the HIPAA Privacy Rule: Enhancing Privacy, Improving Health Through Research, the Institute of Medicine's Committee on Health Research and the Privacy of Health Information concludes that the HIPAA Privacy Rule does not protect privacy as well as it should, and that it impedes important health research.
On February 26, 2020, the Board on Health Sciences Policy of the National Academies of Sciences, Engineering, and Medicine hosted a 1-day public workshop in Washington, DC, to examine current and emerging bioethical issues that might arise in the context of biomedical research and to consider research topics in bioethics that could benefit from further attention. The scope of bioethical issues in research is broad, but this workshop focused on issues related to the development and use of digital technologies, artificial intelligence, and machine learning in research and clinical practice; issues emerging as nontraditional approaches to health research become more widespread; the role of bioethics in addressing racial and structural inequalities in health; and enhancing the capacity and diversity of the bioethics workforce. This publication summarizes the presentations and discussions from the workshop.