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It has been recognized for almost 200 years that certain families seem to inherit cancer. It is only in the past decade, however, that molecular genetics and epidemiology have combined to define the role of inheritance in cancer more clearly, and to identify some of the genes involved. The causative genes can be tracked through cancer-prone families via genetic linkage and positional cloning. Several of the genes discovered have subsequently been proved to play critical roles in normal growth and development. There are also implications for the families themselves in terms of genetic testing with its attendant dilemmas, if it is not clear that useful action will result. The chapters in The Genetics of Cancer illustrate what has already been achieved and take a critical look at the future directions of this research and its potential clinical applications.
An extraordinary father-son biography of the scandalous life of movie star Errol Flynn and of his son's equally glamorous yet doomed career as a war photographer in Vietnam.
Raising hopes for disease treatment and prevention, but also the specter of discrimination and "designer genes," genetic testing is potentially one of the most socially explosive developments of our time. This book presents a current assessment of this rapidly evolving field, offering principles for actions and research and recommendations on key issues in genetic testing and screening. Advantages of early genetic knowledge are balanced with issues associated with such knowledge: availability of treatment, privacy and discrimination, personal decision-making, public health objectives, cost, and more. Among the important issues covered: Quality control in genetic testing. Appropriate roles for public agencies, private health practitioners, and laboratories. Value-neutral education and counseling for persons considering testing. Use of test results in insurance, employment, and other settings.
With recent studies using genetic, epigenetic, and other molecular and neurochemical approaches, a new era has begun in understanding pathophysiology of suicide. Emerging evidence suggests that neurobiological factors are not only critical in providing potential risk factors but also provide a promising approach to develop more effective treatment and prevention strategies. The Neurobiological Basis of Suicide discusses the most recent findings in suicide neurobiology. Psychological, psychosocial, and cultural factors are important in determining the risk factors for suicide; however, they offer weak prediction and can be of little clinical use. Interestingly, cognitive characteristics are different among depressed suicidal and depressed nonsuicidal subjects, and could be involved in the development of suicidal behavior. The characterization of the neurobiological basis of suicide is in delineating the risk factors associated with suicide. The Neurobiological Basis of Suicide focuses on how and why these neurobiological factors are crucial in the pathogenic mechanisms of suicidal behavior and how these findings can be transformed into potential therapeutic applications.
"Collecting a family medical history is a regular component of the nursing assessment process that often includes information on familial cancer diagnoses, and patients may fear that they or their loved ones might be at increased risk for developing cancer because of hereditary factors. Although true inherited risk for developing cancer is much less common than acquired risk for developing cancer, approximately 10% of cancer diagnoses can be attributed to inherited risk. The identification of families exhibiting hereditary cancer syndromes enables individuals at risk to engage in increased surveillance and, in some cases, risk-reducing surgery and other preventive measures, which ultimately lead to decreasing the morbidity and mortality associated with a cancer diagnosis. The role of the nurse in helping patients to understand and manage hereditary cancer risk requires specialized knowledge of genetics and genomics concepts. Understanding Genomic and Hereditary Cancer Risk: A Handbook for Oncology Nurses provides background on basic genetic and genomic concepts, particularly those related to hereditary risk for developing cancer, to aid nurses in knowing when and why to refer patients. It also provides reliable information about how and why genetic and genomic testing can both aid in treatment decisions and also guide recommendations for cancer prevention and early detection. The nurse's role in genetic testing and counseling are discussed, as are questions and answers about types of testing, including direct-to-consumer genetic testing. Following genetic testing, most genetics professionals provide detailed information about recommendations for care, including recommendations for ongoing prevention and early detection. For patients who are found to have a harmful mutation, these recommendations can be extensive and are based on the personal and family medical history, as well as the specific variant. This book provides quick overviews of many of the more common hereditary variants as well as resources for more information. This handbook provides nurses with the essentials to understand genomic and hereditary cancer risk, to assist in facilitating interprofessional care with genetics and other oncology professionals, and to provide their patients with accurate and reassuring information"--
Over the past century, we have made great strides in reducing rates of disease and enhancing people's general health. Public health measures such as sanitation, improved hygiene, and vaccines; reduced hazards in the workplace; new drugs and clinical procedures; and, more recently, a growing understanding of the human genome have each played a role in extending the duration and raising the quality of human life. But research conducted over the past few decades shows us that this progress, much of which was based on investigating one causative factor at a time—often, through a single discipline or by a narrow range of practitioners—can only go so far. Genes, Behavior, and the Social Environment examines a number of well-described gene-environment interactions, reviews the state of the science in researching such interactions, and recommends priorities not only for research itself but also for its workforce, resource, and infrastructural needs.
Wexler tells the story of a family at risk for Huntington's disease, a hereditary, incurable, fatal disorder from which her own mother died. This graceful and eloquent account goes beyond the specifics of the disease to explore the dynamics of family secrets, of living at risk, and the drama and limits of biomedical research. Photos.
Juxtaposing contributions from geneticists and anthropologists, this volume provides a contemporary overview of cousin marriage and what is happening at the interface of public policy, the management of genetic risk and changing cultural practices in the Middle East and in multi-ethnic Europe. It offers a cross-cultural exploration of practices of cousin marriage in the light of new genetic understanding of consanguineous marriage and its possible health risks. Overall, the volume presents a reflective, interdisciplinary analysis of the social and ethical issues raised by both the discourse of risk in cousin marriage, as well as existing and potential interventions to promote “healthy consanguinity” via new genetic technologies.
Genetic susceptibility refers to how variations in a person’s genes increase or decrease his or her susceptibility to environmental factors, such as chemicals, radiation and lifestyle (diet and smoking). This volume will explore the latest findings in the area of genetic susceptibility to gastrointestinal cancers, focusing on molecular epidemiology, DNA repair, and gene-environment interactions to identify factors that affect the incidence of GI cancers. Topics will include germline susceptibility, including Mendelian patterns of inheritance and gene-environment interactions that lead to cancer etiology.
Stroke is a major cause of death and the major cause of adult neurological disability in most of the world. Despite its importance on a population basis, research into the genetics of stroke has lagged behind that of many other disorders. However, the situation is now changing. An increasing number of single gene disorders causing stroke are being described, and there is growing evidence that polygenic factors are important in the risk of apparently "sporadic" stroke. Stroke Genetics provides an up-to-date review of the area, suitable for clinicians treating stroke patients, and both clinical and non-clinical researchers in the field of cerebrovascular disease. The full range of monogenic stroke disorders causing cerebrovascular disease, including ischaemic stroke, intracerebral haemorrhage, aneurysms and arteriovenous malformations, are covered. For each, clinical features, diagnosis, and genetics are described. Increasing evidence suggest that genetic factors are also important for the much more common multifactorial stroke; this evidence is reviewed along with the results of genetic studies in this area. Optimal and novel strategies for investigating multifactorial stroke, including the use of intermediate phenotypes such as intima-media thickness and MRI detected small vessel disease are reviewed. The book concludes by describing a practical approach to investigating patients with stroke for underlying genetic disorders. Also included is a list of useful websites.