Discussing the laws in the current research funding decision process, the author suggests ways to improve future funding of health research systems. Chapters recount ways of raising funds, the tragic way authorities improperly introduced diptheria immunization, consideration of how the peer review system evolved in response to massive infusion of funds in the nineteen forties, and the status quo generating a climate conducive to ethics violations, among others. This fascinating work will be an invaluable tool to researchers, health care workers, members of government agencies and those in charitable organizations that support health research, as well as to anyone interested in current trends in this area, including patients.
Basic curiosity-driven biomedical science has delivered many of today’s most significant medical advances. This book provides clearly explained examples from recent biomedical history and includes convincing arguments for sustaining a robust portfolio of basic research. Intended as an engaging read, which will delight undergraduate and graduate students, as well as scientific researchers, it is full-throated advocacy of basic science. Illustrations and examples include the discoveries of penicillin and insulin, and the breakthrough elucidation of the genetic code. Providing both compelling rationale in support of basic science, and a fascinating look through the history of modern biomedical research, this book highlights with stirring examples why basic biomedical research is so important, and how so many key advances in medicine are derived from basic research. The book also offers a rationale for scientific inquiry and a broader understanding of the history of modern biomedical research missing from today’s classrooms. Key Features 1) Provides clear explanations of great scientific discoveries 2) Illustrates connections between basic research findings and modern medicine 3) Includes compelling graphics/diagrams/illustrations 4) Accessible to the general public 5) Offers background for more specialized readers, including researchers as well as those with advanced degrees. Related Titles Staddon, J. Scientific Method: How Science Works, Fails to Work, and Pretends to Work (ISBN 978-1-1382-9536-0) Helliwell, J. R. Skills for Scientific Life (ISBN 978-1-4987-6875-7) MacRitchie, F. Scientific Research as a Career (ISBN 978-1-4398-6965-9)
ContentsPreface and Acknowledgments PART I1 The History of the School 2 The Curriculum 3 The Graduate School of Biological Sciences PART II4 The Basic Sciences 5 The Centers and Institutes 6 The Department of Community and Preventive Medicine 7 The Department of Human Genetics 8 The Department of Health Policy 9 Graduate and Postgraduate Education Part III10 The Faculty Practice Plan 11 The Mount Sinai Alumni 12 Student Voices: In Their Own WordsAppendixes A. Saul Horowitz, Jr. Memorial Award Recipients B. Honorary Degree Recipients C. The Mount Sinai Leadership D. The Mount Sinai Boards of Trustees, 2003 Notes Index About the Authors
A scathing critique of the chemotherapy culture as well as unscientific "alternative" therapies, the book endorses state-of-the-art molecularly based technologies, making it an illuminating and necessary read for anyone interested in cancer research, especially patients and their families and physicians.
* The thoughts of nanotechnology and its use for military, human health, and food applications, are no longer the futuristic notions of dreamers. Learn how computers no smaller than your own blood cells will be your hope for a new tomorrow. * Can't have a child or you would like a child free of disease, with a certain color hair and eyes. Or, would you like to choose your child's potential IQ? Read inside to find out more. * Have you ever dreamed that someday there would truly exist a fountain of youth? Well your wait is over. * The end of world hunger, the creation of super humans, and the ability to travel from home to any where in the world in 2 seconds on a beam of light, may yet exist within our lifetime. Learn more.. * Learn how DNA computers will replace today's silicon micro processor in the years to come... * A cure for Alzheimer's, Parkinson disease, Sickle cell anemia, and even Cancer may already exist. Learn more today!!! * Will computers with the capability of using artificial intelligence take over mankind or will we remain in control? These are but a few of the exciting discoveries that you will find inside this book. Don't wait, take a glimps of the future as it exist today, and journey with me as we go in search of a world beyond the 21st century.
"The most practical, down to earth, thoughtful, and sensitive book written on women's childhood sexual abuse."—Samuel C. Klagsbrun, MD From the psychotherapist who offered groundbreaking work on self-mutilation (Cutting) comes a landmark examination of the psychology of sexual abuse. Stolen Tomorrows encourages the 20 percent of women who have been abused to think about, talk about, and seek help for what has been their secret shame. In addition to giving therapists and other helpers an empathic insight, Stolen Tomorrows will enable the survivor to recognize herself in both her personal history and her current struggle to overcome the legacy of abuse.
One hundred years ago, most of the medical treatments and technologies that we take for granted hadn't even been imagined or were found in the pages of science fiction novels rather than medical journals. Today, on the other hand, medical research often sounds like science fiction. This eBook, Tomorrow's Medicine, looks at some of the more fascinating areas where technology that could transform health is being developed, including cybernetics, regenerative medicine, nanotechnology and genetically tailored treatments. Although many of these advances may not be ready to treat humans for many years, some of them may someday profoundly change—and extend—our lives. In "Bionic Connections," for example, D. Kacy Cullen and Douglas Smith discuss synthetic limbs that function as well (or better) than our own. Echoes of the 1966 film Fantastic Voyage abound in "Nanomedicine Targets Cancer" by James Heath, Mark Davis and Leroy Hood, who examine how miniaturized tools can both measure the molecular interactions of disease and deliver targeted therapies. Several articles discuss different approaches for regeneration, including "Grow Your Own Eye," in which author Yoshiki Sasai illustrates how his lab successfully grew a retina from stem cells to "A Sweet Solution for Replacing Organs," in which Katherine Harmon describes how a speaker at a recent TED talk used a 3-D printer to create a kidney. A century from now, will the sight of an amputee be a rarity, with cybernetic limbs controlled by thought and nearly indistinguishable from the biological ones? Perhaps most people will have their genomes read for indications of future disease and take steps to prevent it – or even to cure inherited disorders. Will we replace some drugs with tiny machines, fanning out inside the body to repair damage? As exciting as these possibilities are to extend both the length and quality of life, immortality – or at least agelessness – may be forever out of our reach. As Thomas Kirkwood notes in his piece, "Why Can't We Live Forever?" death might be the price we pay for our complex biology. Even so, the doctors of a century past would surely be impressed by what medical science has accomplished in the past hundred years: antibiotics, organ transplants and the elimination of smallpox, to name but a few. The next century should be equally impressive, and with the various types of new technologies on the horizon, many of us have a good chance of seeing it happen.
Don't settle for incremental change: invent tomorrow today! bull; Discover your 'ideal' solution: then, work backwards to make it happen! bull; The definitive guide to idealized design, authored by its legendary creator, and leading practitioner. bull; Start-to-finish techniques and examples drawn from hundreds of companies, nonprofits, and government organizations. [Source : 4e de couv.].