Alzheimer’s Disease is the most common form of dementia. The disease is characterised by the loss of synapses and neurons in the cerebral cortex and certain subcortical regions. In the last three years, the genetics of Alzheimer’s Disease has made significant advances; in fact, one could argue more than in the previous two decades. This has resulted in the identification of nine new genes and perhaps more importantly the realization that new pathways could be involved in the pathogenesis of Alzheimer’s. These new pathways are now legitimate targets for therapeutic intervention, which can possibly lead to treatment or a possible cure. The aim of this book is to put all of the recent genetic data on these new genes into context. Different genetic variants will be discussed, as well as biomarkers and future possibilities.
There is now considerable genetic evidence that the type 4 allele of the apolipoprotein E gene is a major susceptibility factor associated with late-onset Alzheimer's disease, the common form of the disease defined as starting after sixty years of age. The role of apolipoprotein E in normal brain metabolism and in the pathogenesis of Alzheimer's disease are new and exciting avenues of research. This book, written by the most outstanding scientists in this new filed, is the first presentation of results concerning the implications of apolipoprotein E on the genetics, cell biology, neuropathology, biochemistry, and therapeutic management of Alzheimer's disease.
Alzheimer's Disease is a progressive neurodegenerative disorder of late life with devastating consequences for the afflicted and their carers and poses one of the major challenges to medical research. Until recently, little hope of effective therapies capable of slowing the disease process or preventing its occurrence was apparent. With recent advances in the genetics and molecular biology of the disease processes and the demonstration of the involvement of multiple aetiological factors, however, real chances are now appearing for the identification of preventive drugs. In this discussion, experts from disciplines ranging from molecular genetics to the clinic provide review and novel data concerning the aetiology of AD and the establishment of drugfinding screening methods.
The Neurobiology of Aging and Alzheimer Disease in Down Syndrome provides a multidisciplinary approach to the understanding of aging and Alzheimer disease in Down syndrome that is synergistic and focused on efforts to understand the neurobiology as it pertains to interventions that will slow or prevent disease. The book provides detailed knowledge of key molecular aspects of aging and neurodegeneration in Down Syndrome by bringing together different models of the diseases and highlighting multiple techniques. Additionally, it includes case studies and coverage of neuroimaging, neuropathological and biomarker changes associated with these cohorts. This is a must-have resource for researchers who work with or study aging and Alzheimer disease either in the general population or in people with Down syndrome, for academic and general physicians who interact with sporadic dementia patients and need more information about Down syndrome, and for new investigators to the aging and Alzheimer/Down syndrome arena. - Discusses the complexities involved with aging and Alzheimer's disease in Down syndrome - Summarizes the neurobiology of aging that requires management in adults with DS and leads to healthier aging and better quality of life into old age - Serves as learning tool to orient researchers to the key challenges and offers insights to help establish critical areas of need for further research
This book reviews key recent advances and new frontiers within psychiatric research and clinical practice. These advances either represent or are enabling paradigm shifts in the discipline and are influencing how we observe, derive and test hypotheses, and intervene. Progress in information technology is allowing the collection of scattered, fragmented data and the discovery of hidden meanings from stored data, and the impacts on psychiatry are fully explored. Detailed attention is also paid to the applications of artificial intelligence, machine learning, and data science technology in psychiatry and to their role in the development of new hypotheses, which in turn promise to lead to new discoveries and treatments. Emerging research methods for precision medicine are discussed, as are a variety of novel theoretical frameworks for research, such as theoretical psychiatry, the developmental approach to the definition of psychopathology, and the theory of constructed emotion. The concluding section considers novel interventions and treatment avenues, including psychobiotics, the use of neuromodulation to augment cognitive control of emotion, and the role of the telomere-telomerase system in psychopharmacological interventions.
Annotation This 13-volume set from the Mayo Clinic gives detailed information on various health conditions, for example, high blood pressure, depression, and prostate health. Each book contains a wealth of information including charts and graphs.
Understanding the impact of diet, exercise, genetics, and hormones on the risk and development of Alzheimer’s and other neurogenerative diseases Diet is widely known to impact on neurological function. Nevertheless, academic texts discussing this relationship are relatively few in number. This book therefore fills an important gap in the current literature. Opening with an overview of neurodegenerative diseases, particularly Alzheimer’s disease, the text then focuses on explaining the means by which glycemic control and lipid metabolism – and associated nutritional and lifestyle variables – may factor into such disorders’ prevention and treatment. An international group of experts in the fields of food science and neurodegeneration have contributed chapters that examine Alzheimer’s disease within a broad range of contexts. Offering dietary, genetic, and hormonal perspectives, the authors explore topics ranging from sugar consumption to digestive fermentation, and Alzheimer’s disease animal models to the cognition-enhancing effects of physical exercise. Also included are overviews of the latest research into current and developing methods of treatment and diagnosis, as well as differential diagnostics. This groundbreaking book: Explores how glucose metabolism, insulin resistance, lipid metabolism, and high intake of refined carbohydrates are linked to Alzheimer's disease Discusses how genetic makeup can impact risk of Alzheimer’s and Parkinson’s disease Examines cognitive changes in neurodegeneration, lists current tests for determining cognitive impairment, and provides information concerning differential diagnosis Discusses potential advantages of increasing antioxidant and micronutrient intake Reviews hormonal influences on neurodegeneration Examines the links between protein intake and Alzheimer’s disease. Neurodegeneration and Alzheimer's Disease is an essential resource for researchers, medical practitioners, dietitians, and students with an interest in neurological diseases and their diagnosis and risk factors, as well as diet-related conditions such as diabetes and obesity. Lifestyle and diet influence neurodegeneration risk, and a better understanding of this evidence amongst health professionals will hopefully lead to greater public awareness of how to reduce the likelihood of these widespread conditions.
Predictive medicine is the most exciting—and potentially groundbreaking—medical development in decades. Written by Brandon Colby, MD, a leader in the fields of predictive medicine and genetic testing, Outsmart Your Genes will empower you, the reader, with a clear understanding of exactly what predictive medicine entails and how it can be used today to protect your health as well as the health of those you love. Written in straightforward, nontechnical language, Outsmart Your Genes enables everyone, even those without any background in genetics or medicine, to understand the benefits of predictive medicine. Separating myth from fact and answering all the tough questions, Outsmart Your Genes clearly explains: How the revolutionary new medical specialty called predictive medicine analyzes your genes and provides you with clear solutions to protect your health and wellbeing. What the process will entail and how simple it is. For example, the process doesn’t even require blood or use needles – instead, all that’s needed in order to run the analysis is a small amount of your saliva. What your genes can reveal about your overall health and how we can use that information to provide you with a genetically tailored plan for preventing cancer, Alzheimer's, heart disease, obesity, and many other conditions. As opposed to just generalities, specific examples are given so that you’ll know exactly how medicine will improve your life. The many ways in-which learning about your genes can help you formulate a genetically tailored nutrition and athletic plan that may help you shed those extra pounds and stay trim and fit. How predictive medicine can help both prospective and current parents protect their children against SIDS and also help minimize the impact of and most effectively treat many other childhood diseases such as autism, asthma, dyslexia, obesity, and diabetes. Why analyzing your children’s genes may provide the best chance they have to fight against diseases that may not affect them until later in life, including Alzheimer’s, many forms of cancer (such as breast cancer and skin cancer), multiple sclerosis, and even hearing loss. How groundbreaking advancements in the fields of genetic analysis, including predictive medicine panels and disease matrix technology, allow you and your physician to avoid information overload and focus only on the information most relevant to you. The important concepts you need to understand before speaking with a doctor. The top five questions you need to ask in order to assess: The credibility of the laboratory doing the testing. The types of diseases included in the test. How thoroughly the test actually evaluates your risk for each of the diseases. Whether the information is provided in a way that makes it actionable. Whether the results will be delivered in a format that is straightforward and easy to understand.
Working from the intriguing hypothesis that Alzheimer's dementia is the result of a renegade protein-beta amyloid-Tanzi and others set out to find the gene responsible for its production. Decoding Darkness takes us deep into the minds and far-flung labs of many a prominent researcher, offering an intimate view of the high stakes of molecular genetics, the revolution that propels it, the obstacles that threaten to derail it, and the families whose lives are so dependent upon it. Tanzi and Parson ultimately reveal that Alzheimer's, like heart disease, may be effectively treated-even prevented.
Most textbooks on neurodegenerative disorders have used a classification scheme based upon either clinical syndromes or anatomical distribution of the pathology. In contrast, this book looks to the future and uses a classification based upon molecular mechanisms, rather than clinical or anatomical boundaries. Major advances in molecular genetics and the application of biochemical and immunocytochemical techniques to neurodegenerative disorders have generated this new approach. Throughout most of the current volume, diseases are clustered according to the proteins that accumulate within cells (e.g. tau, α-synuclein and TDP-43) and in the extracellular compartments (e.g. β-amyloid and prion proteins) or according to a shared pathogenetic mechanism, such as trinucleotide repeats, that are a feature of specific genetic disorders. Chapters throughout the book conform to a standard lay-out for ease of access by the reader and are written by a panel of International Experts Since the first edition of this book, major advances have been made in the discovery of common molecular mechanisms between many neurodegenerative diseases most notably in the frontotemporal lobar degenerations (FTLD) and motor neuron disease or amyotrophic lateral sclerosis. This book will be essential reading for clinicians, neuropathologists and basic neuroscientists who require the firm up-to-date knowledge of mechanisms, diagnostic pathology and genetics of Neurodegenerative diseases that is required for progress in therapy and management.