"This book traces the development of genetics in medicine from the first descriptions of inherited diseases more than 300 years ago to the new applications resulting from mapping and sequencing the human genome. It follows both the scientific and the medical advances, focusing especially on those of the past 50 years, which have seen the field of medical genetics emerge as one of the foremost and most rapidly changing medical specialties, now influencing the whole of medicine. It also examines the ethical challenges faced by those working in the field, and describes some of the past disasters that have resulted from these being ignored, notably the abuses of eugenics and the catastrophic destruction of genetics in Soviet Russia. This is the first book of its kind; it is clearly and simply written, and will be valuable to all those who have an interest or concern in the development of medical genetics, as well as those actually working in the field. Historians and social scientists will likewise find this book an important foundation for future detailed studies, which are urgently needed."--BOOK JACKET.
This informative new book presents an accessible account of the development of medical genetics over the past 70 years, one of the most important areas of 20th, and now 21st, century science and medicine. Based largely on the author’s personal involvement and career as a leader in the field over the last half century, both in the UK and internationally, it draws on his interest and involvement in documenting the history of medical genetics. Underpinning the content is a unique series of 100 recorded interviews undertaken by the author with key older workers in the field, the majority British, providing invaluable information going back to the very beginnings of human and medical genetics. Focusing principally on medically relevant areas of genetics rather than the underlying basic science and technological aspects, the book offers a fascinating insight for those working and training in the field of clinical or laboratory aspects of medical genetics, genomics and allied areas; it will also be of interest to historians of science and medicine and to workers in the social sciences who are increasingly attracted by the social and ethical challenges posed by modern medical genetics and genomics.
A complete introductory text on how to integrate basic genetic principles into the practice of clinical medicine Medical Genetics is the first text to focus on the everyday application of genetic assessment and its diagnostic, therapeutic, and preventive implications in clinical practice. It is intended to be a text that you can use throughout medical school and refer back to when questions arise during residency and, eventually, practice. Medical Genetics is written as a narrative where each chapter builds upon the foundation laid by previous ones. Chapters can also be used as stand-alone learning aids for specific topics. Taken as a whole, this timely book delivers a complete overview of genetics in medicine. You will find in-depth, expert coverage of such key topics as: The structure and function of genes Cytogenetics Mendelian inheritance Mutations Genetic testing and screening Genetic therapies Disorders of organelles Key genetic diseases, disorders, and syndromes Each chapter of Medical Genetics is logically organized into three sections: Background and Systems – Includes the basic genetic principles needed to understand the medical application Medical Genetics – Contains all the pertinent information necessary to build a strong knowledge base for being successful on every step of the USMLE Case Study Application – Incorporates case study examples to illustrate how basic principles apply to real-world patent care Today, with every component of health care delivery requiring a working knowledge of core genetic principles, Medical Genetics is a true must-read for every clinician.
Human Evolutionary Genetics is a groundbreaking text which for the first time brings together molecular genetics and genomics to the study of the origins and movements of human populations. Starting with an overview of molecular genomics for the non-specialist (which can be a useful review for those with a more genetic background), the book shows h
In the small “Fly Room†at Columbia University, T.H. Morgan and his students, A.H. Sturtevant, C.B. Bridges, and H.J. Muller, carried out the work that laid the foundations of modern, chromosomal genetics. The excitement of those times, when the whole field of genetics was being created, is captured in this book, written in 1965 by one of those present at the beginning. His account is one of the few authoritative, analytic works on the early history of genetics. This attractive reprint is accompanied by a website, http://www.esp.org/books/sturt/history/ offering full-text versions of the key papers discussed in the book, including the world's first genetic map.
This is one of the few medical genetics texts on a 2-year revision cycle. It provides up-to-date information that can be read, retained, and applied with ease! The 3rd Edition covers pharmacogenomics, the societal implications of technologies, the Human Genome Project, cloning, genetic enhancement, and embryonic stem cell research, new tumor suppressor genes and oncogenes, and more. Mini-summaries, study questions, suggested readings, and a detailed glossary facilitate review of the material. Clinical relevance is demonstrated in over 230 photographs, illustrations, and tables as well as boxes containing patient/family vignettes. Its coverage includes ethical, legal, and social issues and clinical commentary on important genetic diseases. A companion web site offers continuing updates and a wealth of additional features. The smart way to study! Elsevier titles with STUDENT CONSULT will help you master difficult concepts and study more efficiently in print and online! Perform rapid searches. Integrate bonus content from other disciplines. Download text to your handheld device. And a lot more. Each STUDENT CONSULT title comes with full text online, a unique image library, case studies, USMLE style questions, and online note-taking to enhance your learning experience. Your purchase of this book entitles you to access www.studentconsult.com at no extra charge. This innovative web site offers you... Access to the complete text and illustrations of this book. Integration links to bonus content in other STUDENT CONSULT titles. Content clipping for your handheld. An interactive community center with a wealth of additional resources. The more STUDENT CONSULT titles you buy, the more resources you can access online! Look for the STUDENT CONSULT logo on your favorite Elsevier textbooks! Features mini-summaries that appear in bold throughout each chapter. Supplies study questions and suggested readings at the end of each chapter. Contains a detailed glossary at the end of the book. Offers Clinical Commentary boxes that present detailed coverage of the most important genetic diseases and provide examples of modern clinical management. Demonstrates clinical relevance with boxed patient/family vignettes and coverage of ethical, legal, and social issues. Provides visual reinforcement and easy access to key information with over 230 photographs, illustrations, and tables. Includes a companion website with continuing content updates, additional clinical images, and more!
Medical and Health Genomics provides concise and evidence-based technical and practical information on the applied and translational aspects of genome sciences and the technologies related to non-clinical medicine and public health. Coverage is based on evolving paradigms of genomic medicine—in particular, the relation to public and population health genomics now being rapidly incorporated in health management and administration, with further implications for clinical population and disease management. - Provides extensive coverage of the emergent field of health genomics and its huge relevance to healthcare management - Presents user-friendly language accompanied by explanatory diagrams, figures, and many references for further study - Covers the applied, but non-clinical, sciences across disease discovery, genetic analysis, genetic screening, and prevention and management - Details the impact of clinical genomics across a diverse array of public and community health issues, and within a variety of global healthcare systems
A richly detailed history that “uncovers the challenges and limitations of our increasing reliance on genetic data in medical decision making” (Shobita Parthasarathy, author of Building Genetic Medicine). Medical geneticists began mapping the chromosomal infrastructure piece by piece in the 1970s by focusing on what was known about individual genetic disorders. Five decades later, their infrastructure had become an edifice for prevention, allowing expectant parents to test prenatally for hundreds of disease-specific mutations using powerful genetic testing platforms. In this book, Andrew J. Hogan explores how various diseases were “made genetic” after 1960, with the long-term aim of treating and curing them using gene therapy. In the process, he explains, these disorders were located in the human genome and became targets for prenatal prevention, while the ongoing promise of gene therapy remained on the distant horizon. In narrating the history of research that contributed to diagnostic genetic medicine, Hogan describes the expanding scope of prenatal diagnosis and prevention. He draws on case studies of Prader-Willi, fragile X, DiGeorge, and velo-cardio-facial syndromes to illustrate that almost all testing in medical genetics is inseparable from the larger—and increasingly “big data”–oriented—aims of biomedical research. Hogan also reveals how contemporary genetic testing infrastructure reflects an intense collaboration among cytogeneticists, molecular biologists, and doctors specializing in human malformation. Hogan critiques the modern ideology of genetic prevention, which suggests all pregnancies are at risk for genetic disease and should be subject to extensive genomic screening. He examines the dilemmas and ethics of the use of prenatal diagnostic information in an era when medical geneticists and biotechnology companies offer whole genome prenatal screening—essentially searching for any disease-causing mutation. Hogan’s analysis is animated by ongoing scientific and scholarly debates about the extent to which the preventive focus in contemporary medical genetics resembles the aims of earlier eugenicists. Written for historians, sociologists, and anthropologists of science and medicine, as well as bioethics scholars, physicians, geneticists, and families affected by genetic conditions, Life Histories of Genetic Disease is a profound exploration of the scientific culture surrounding malformation and mutation.
Almost daily we hear news stories, advertisements, and scientific reports that promise genetic medicine will make us live longer, enable doctors to identify and treat diseases before they start, and individualize our medical care. But surprisingly, a century ago eugenicists were making the same promises. The Science of Human Perfection traces the history of the promises of medical genetics and of the medical dimension of eugenics. The book also considers social and ethical issues that cast troublesome shadows over these fields./divDIV DIVKeeping his focus on America, science historian Nathaniel Comfort introduces the community of scientists, physicians, and public health workers who have contributed to the development of medical genetics from the nineteenth century to today. He argues that medical genetics is closely related to eugenics, and indeed the two cannot be fully understood separately. He also carefully examines how the desire to relieve suffering and to improve ourselves genetically, though noble, may be subverted. History makes clear that as patients and consumers we must take ownership of genetic medicine, using it intelligently, knowledgeably, and skeptically, lest pernicious interests trump our own./div
Written by 30 authors from all over the world, this book provides a unique overview of exciting discoveries and surprising developments in human genetics over the last 50 years. The individual contributions, based on seven international workshops on the history of human genetics, cover a diverse range of topics, including the early years of the discipline, gene mapping and diagnostics. Further, they discuss the status quo of human genetics in different countries and highlight the value of genetic counseling as an important subfield of medical genetics.
