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This simple guide to neurogenetics demystifies the overwhelming amount of information on the subject so you can identify key clinical features and understand your management options. Reach relevant differential diagnoses and provide appropriate counseling to your patients using the symptom-based approach. By integrating genetic and neurological approaches to diagnoses, this book ensures that the neurological consequences of a genetic diagnosis and the genetic consequences of a neurological diagnosis are clear and explicit. Concise and portable, this book is ideal for easy reference in clinical use. Details the underlying basic science and clinical features of genetic disorders by taking a symptom-based approach to provide you with a comprehensive understanding of the field. Focuses on the clinical application of neurogenetics to be of practical use to you in the clinic. Clarifies the neurological consequences of a genetic diagnosis and the genetic consequences of a neurological diagnosis by integrating genetic and neurological approaches to diagnoses. Discusses and evaluates necessary investigations so you know when to use them and when to refer. Highlights diagnostic and therapeutic tips so you can learn new concepts or refine your skills in practice. Refers to online sources, such as Online Mendelian Inheritance in Man (OMIM) and others, to help you supplement your knowledge.
Genetic methodologies are having a significant impact on the study of neurological and psychiatric disorders. Using genetic science, researchers have identified over 200 genes that cause or contribute to neurological disorders. Still an evolving field of study, defining the relationship between genes and neurological and psychiatric disorders is evolving rapidly and expected to grow in scope as more disorders are linked to specific genetic markers. Part I covers basic genetic concepts and recurring biological themes, and begins the discussion of movement disorders and neurodevelopmental disorders, leading the way for Part II to cover a combination of neurological, neuromuscular, cerebrovascular, and psychiatric disorders. This volume in the Handbook of Clinical Neurology will provide a comprehensive introduction and reference on neurogenetics for the clinical practitioner and the research neurologist. - Presents a comprehensive coverage of neurogenetics - Details the latest science and impact on our understanding of neurological psychiatric disorders - Provides a focused reference for clinical practitioners and the neuroscience/neurogenetics research community
A coherent, up-to-date overview of the rapidly advancing field of neurogenetics for neurologists of any level.
Neurogenetics, Part II, Volume 148, the latest release in the Handbook of Clinical Neurology, provides the latest information on the genetic methodologies that are having a significant impact on the study of neurological and psychiatric disorders. Using genetic science, researchers have identified over 200 genes that cause or contribute to neurological disorders. Still an evolving field of study, defining the relationship between genes and neurological and psychiatric disorders is expected to dramatically grow in scope. Part II builds on the foundation of Part I, expanding the coverage to dementias, paroxysmal disorders, neuromuscular disorders, white matter and demyelination diseases, cerebrovascular diseases, adult psychiatric disorders and cancer and phacomatoses. - Contains comprehensive coverage of neurogenetics - Details the latest science and its impact on our understanding of neurological, psychiatric disorders - Presents a focused reference for clinical practitioners and the neuroscience/neurogenetics research community
Aims To some, the field of neurogenetics appears perplexing and indecipherable. In this volume, we will address this issue by providing clinicians with a framework for dealing with these disorders. This book is not intended to be an in-depth, comprehensive review of all neurogenetic conditions from 'A to Z'. Instead, we will provide a concise discussion using case studies to illustrate the most important and topical neurogenetic disorders. This case-based approach will make the book easy to reference, clinically relevant, approachable, and, we feel, more interesting. Scope The contribution of genetics to many neurological diseases is becoming increasingly apparent, and so it is imperative to stay up-to-date with these conditions. The 31 chapters in this volume cover a wide range of inherited conditions including forms of dystonia, Parkinson disease, spastic paraplegias, mitochondrial diseases, myopathies, neuropathies, and much more. Particular attention is paid to practical issues regarding how to make a genetic diagnosis and how to counsel the family. We will also address some contemporary issues in neurogenetics, such as the impact of direct-to-consumer genetic testing. General Approach In keeping with the WDIDN series, each chapter commences with a brief case study, which will be used as an example of an important condition in neurogenetics. The discussion will then be centered on the case, with a focus on crucial issues regarding the clinical assessment, investigations and management of these conditions. Key clinical points will be listed at the end of the chapter, along with a list of suggested further reading. All case studies in this book are based on real patients seen by the authors or their colleagues.
Rosenberg’s Molecular and Genetic Basis of Neurologic and Psychiatric Disease, Fifth Edition provides a comprehensive introduction and reference to the foundations and key practical aspects relevant to the majority of neurologic and psychiatric disease. A favorite of over three generations of students, clinicians and scholars, this new edition retains and expands the informative, concise and critical tone of the first edition. This is an essential reference for general medical practitioners, neurologists, psychiatrists, geneticists, and related professionals, and for the neuroscience and neurology research community. The content covers all aspects essential to the practice of neurogenetics to inform clinical diagnosis, treatment and genetic counseling. Every chapter has been thoroughly revised or newly commissioned to reflect the latest scientific and medical advances by an international team of leading scientists and clinicians. The contents have been expanded to include disorders for which a genetic basis has been recently identified, together with abundant original illustrations that convey and clarify the key points of the text in an attractive, didactic format. Previous editions have established this book as the leading tutorial reference on neurogenetics. Researchers will find great value in the coverage of genomics, animal models and diagnostic methods along with a better understanding of the clinical implications. Clinicians will rely on the coverage of the basic science of neurogenetics and the methods for evaluating patients with biochemical abnormalities or gene mutations, including links to genetic testing for specific diseases. Comprehensive coverage of the neurogenetic foundation of neurological and psychiatric disease Detailed introduction to both clinical and basic research implications of molecular and genetic understanding of the brain Detailed coverage of genomics, animal models and diagnostic methods with new coverage of evaluating patients with biochemical abnormalities or gene mutations
This textbook provides students with knowledge of neurogenetics, neurogenesis, neuronal specification and function, neuronal networks, learning and memory formation, brain evolution, and neurodegenerative diseases. Students are introduced to topics of classical developmental genetics as well as modern molecular and neurogenetic methods. Using a wealth of examples from current research, the textbook takes a strong applied approach. Using animal models such as Drosophila melanogaster and Caenorhabditis elegans as well as mammalian systems, the interrelationships between genes, neurons, nervous systems, and behaviour under normal and pathological conditions are illustrated. The textbook aims encourage students to address biological questions in neurogenetics and to think about the design of their own experiments. It targets primarily master and graduate students in neurobiology, but is also a valuable teaching tool for instructors in these fields.
Neurogenetics is intended for any physician or scientist who manages patients with inherited diseases of the nervous system. It presents the clinical phenotypes of the most commonly inherited neurologic diseases, and their molecular pathogenesis, followed by a description of the appropriate tests to be used in diagnosis. Two introductory chapters familiarize the nongeneticist with medical genetic terminology and molecular genetic techniques useful in the analysis of genetic disease and genetic testing. Subsequent chapters examine major neurologic disorders caused by single defects, as well as disease phenotypes such as Alzheimer disease or amyotrophic lateral sclerosis which may be caused by defects in single genes, but may also be seen as sporadic diseases. The genetic components of other common neurologic disorders, such as epilepsy, multiple sclerosis, migraine, and stroke are all covered in detail. The final chapter discusses genetic counseling of symptomatic and pre-symptomatic individuals. Throughout, chapters discuss genotype/phenotype correlations and, where appropriate, animal models for inherited human neurologic diseases. Several chapters are devoted to recently discovered diseases caused by unstable DNA repeats. Special emphasis is placed on conveying how DNA testing can be applied to the daily practice of geneticists and neurologists.
Progress in genetic knowledge is profoundly affecting medical practice, and no clinical specialty has more diseases associated with genetic mutations than neurology. As a more complete picture of the genes which give rise to neurological disease is obtained, trainee and practising neurologists need a guide to basic principles and the more important clinical entities with a genetic component. It is against this background that Neurogenetics: A Guide for Clinicians has been written. The book opens with coverage of genetic testing and counselling. Subsequent chapters discuss genetic factors for all the major neurological diseases, including epilepsy, Alzheimer's disease, Parkinsonism and muscular dystrophies. No book in this field can hope to be fully up to date with the latest research; rather this work provides a framework on which to add new genetic discoveries. Neurogenetics: A Guide for Clinicians provides a synoptic overview for neurologists, medical geneticists and scientists working in the field.
Atlas of Early Zebrafish Brain Development: A Tool for Molecular Neurogenetics, Second Edition, remains the only neuroanatomical expression atlas of important genetic and immunohistochemical markers of this vertebrate model system. It represents a key reference and interpretation matrix for analyzing expression domains of genes involved in Zebrafish brain development and neurogenesis, and serves as a continuing milestone in this research area. This updated volume provides in-situ hybridized and immunostained preparations of complete series of brain sections, revealing markers of the fundamental stages in the life history of neuronal cells in very high quality preparations and photographic plates. Specific additions to this edition include documentation on the distribution of neurons expressing GABA, dopamine and serotonin, material on the basal ganglia, hypothalamus, and the caudal, segmented part of the diencephalon, new theories on the early organization of the telencephalon and thalamus, and integration of a comparative perspective on the mid- and hindbrain. - Documentation on the distribution of neurons expressing GABA, dopamine and serotonin - Material on the basal ganglia, hypothalamus, and the caudal, segmented part of the diencephalon - New theories about the early organization of the telencephalon and thalamus - Integration of a comparative perspective on the mid- and hindbrain