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This textbook provides a comprehensive introduction to the interdisciplinary field of the Social Studies of Science and Technology (SSST). Over the past two decades, the biomedical sciences have transformed our understanding of the relationship between the social and natural worlds, while its ‘promissory visions’ are seen to offer extraordinary opportunities for economic and social development. But alongside these scientific innovations have emerged new, and frequently unanticipated social, political, bioethical, and legal dilemmas and challenges. This cutting-edge text explores ‘post-genomic’ developments in the field of pharmacogenomics and the prospects for a new ‘precision’ or personalised medicine; the potential of environmental epigenetics to reconfigure the boundaries of the social and natural worlds; the emergence of an array of ‘neuro-disciplines’, seeking to identify the neural basis of a whole range of social and economic behaviours; and the challenges of constructing a coherent and robust governance framework for the conduct of biomedical science research and innovation, responsive to the social and health needs of the whole population.
Most people who do a PhD and postdoctoral work in the biomedical sciences do not end up as principal investigators in a research lab. Despite this, graduate courses and postdoctoral fellowships tend to focus almost exclusively on training for bench science rather than other career paths. This book plugs the gap by providing information about a wide variety of different careers that individuals with a PhD in the life sciences can pursue. Covering everything from science writing and grant administration to patent law and management consultancy, the book includes firsthand accounts of what the jobs are like, the skills required, and advice on how to get a foot in the door. It will be a valuable resource for all life scientists considering their career options and laboratory heads who want to give career advice to their students and postdocs.
In this successor to his pioneering Science, Truth, and Democracy, the author revisits the topic explored in his previous work—namely, the challenges of integrating science, the most successful knowledge-generating system of all time, with the problems of democracy. But in this new work, the author goes far beyond that earlier book in studying places at which the practice of science fails to answer social needs. He considers a variety of examples of pressing concern, ranging from climate change to religiously inspired constraints on biomedical research to the neglect of diseases that kill millions of children annually, analyzing the sources of trouble. He shows the fallacies of thinking that democracy always requires public debate of issues most people cannot comprehend, and argues that properly constituted expertise is essential to genuine democracy. No previous book has treated the place of science in democratic society so comprehensively and systematically, with attention to different aspects of science and to pressing problems of our times.
This report is the twelfth assessment of the National Institutes of Health National Research Service Awards program. The research training needs of the country in basic biomedical, clinical, and behavioral and social sciences are considered. Also included are the training needs of oral health, nursing, and health services research. The report has been broadly constructed to take into account the rapidly evolving national and international health care needs. The past and present are analyzed, and predictions with regard to future needs are presented.
- Anthologie mit Beiträgen aus dem Grenzgebiet zwischen Naturwissenschaft und Philosophie - diskutiert werden folgende Bereiche: - Reduktionismus im Rahmen der traditionellen Philosophie (Hull, Rosenberg, Griesemer und Sarkar) - Vor- und Nachteile des Reduktionismus in bestimmten Gebieten der Naturwissenschaften (Williams, Debru, Morange, Van Reganmortal) - Reduktionismus in der medizinischen Praxis (Lloyd, Tauber, Schaffner)
The nobel prize winning scientist and former director of the National Institue of Health recalls the events of his life and career in science, in an autobiography that also incorporates scientific information about cancer biology and issues in public health.
Complex Systems Science in Biomedicine Thomas S. Deisboeck and J. Yasha Kresh Complex Systems Science in Biomedicine covers the emerging field of systems science involving the application of physics, mathematics, engineering and computational methods and techniques to the study of biomedicine including nonlinear dynamics at the molecular, cellular, multi-cellular tissue, and organismic level. With all chapters helmed by leading scientists in the field, Complex Systems Science in Biomedicine's goal is to offer its audience a timely compendium of the ongoing research directed to the understanding of biological processes as whole systems instead of as isolated component parts. In Parts I & II, Complex Systems Science in Biomedicine provides a general systems thinking perspective and presents some of the fundamental theoretical underpinnings of this rapidly emerging field. Part III then follows with a multi-scaled approach, spanning from the molecular to macroscopic level, exemplified by studying such diverse areas as molecular networks and developmental processes, the immune and nervous systems, the heart, cancer and multi-organ failure. The volume concludes with Part IV that addresses methods and techniques driven in design and development by this new understanding of biomedical science. Key Topics Include: • Historic Perspectives of General Systems Thinking • Fundamental Methods and Techniques for Studying Complex Dynamical Systems • Applications from Molecular Networks to Disease Processes • Enabling Technologies for Exploration of Systems in the Life Sciences Complex Systems Science in Biomedicine is essential reading for experimental, theoretical, and interdisciplinary scientists working in the biomedical research field interested in a comprehensive overview of this rapidly emerging field. About the Editors: Thomas S. Deisboeck is currently Assistant Professor of Radiology at Massachusetts General Hospital and Harvard Medical School in Boston. An expert in interdisciplinary cancer modeling, Dr. Deisboeck is Director of the Complex Biosystems Modeling Laboratory which is part of the Harvard-MIT Martinos Center for Biomedical Imaging. J. Yasha Kresh is currently Professor of Cardiothoracic Surgery and Research Director, Professor of Medicine and Director of Cardiovascular Biophysics at the Drexel University College of Medicine. An expert in dynamical systems, he holds appointments in the School of Biomedical Engineering and Health Systems, Dept. of Mechanical Engineering and Molecular Pathobiology Program. Prof. Kresh is Fellow of the American College of Cardiology, American Heart Association, Biomedical Engineering Society, American Institute for Medical and Biological Engineering.
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.