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This, the sixth volume in a series of reviews centered on a single major topic in osteopathy, examines pediatric bone development. It covers problematic aspects from basic skeletal growth to tooth mineralization, and synthesizes theory and practice.
Bones and Cartilage provides the most in-depth review and synthesis assembled on the topic, across all vertebrates. It examines the function, development and evolution of bone and cartilage as tissues, organs and skeletal systems. It describes how bone and cartilage develop in embryos and are maintained in adults, how bone is repaired when we break a leg, or regenerates when a newt grows a new limb, or a lizard a new tail. The second edition of Bones and Cartilage includes the most recent knowledge of molecular, cellular, developmental and evolutionary processes, which are integrated to outline a unified discipline of developmental and evolutionary skeletal biology. Additionally, coverage includes how the molecular and cellular aspects of bones and cartilage differ in different skeletal systems and across species, along with the latest studies and hypotheses of relationships between skeletal cells and the most recent information on coupling between osteocytes and osteoclasts All chapters have been revised and updated to include the latest research. - Offers complete coverage of every aspect of bone and cartilage, with updated references and extensive illustrations - Integrates development and evolution of the skeleton, as well a synthesis of differentiation, growth and patterning - Treats all levels from molecular to clinical, embryos to evolution, and covers all vertebrates as well as invertebrate cartilages - Includes new chapters on evolutionary skeletal biology that highlight normal variation and variability, and variation outside the norm (neomorphs, atavisms) - Updates hypotheses on the origination of cartilage using new phylogenetic, cellular and genetic data - Covers stem cells in embryos and adults, including mesenchymal stem cells and their use in genetic engineering of cartilage, and the concept of the stem cell niche
This first-ever Surgeon General's Report on bone health and osteoporosis illustrates the large burden that bone disease places on our Nation and its citizens. Like other chronic diseases that disproportionately affect the elderly, the prevalence of bone disease and fractures is projected to increase markedly as the population ages. If these predictions come true, bone disease and fractures will have a tremendous negative impact on the future well-being of Americans. But as this report makes clear, they need not come true: by working together we can change the picture of aging in America. Osteoporosis, fractures, and other chronic diseases no longer should be thought of as an inevitable part of growing old. By focusing on prevention and lifestyle changes, including physical activity and nutrition, as well as early diagnosis and appropriate treatment, Americans can avoid much of the damaging impact of bone disease and other chronic diseases. This Surgeon General's Report brings together for the first time the scientific evidence related to the prevention, assessment, diagnosis, and treatment of bone disease. More importantly, it provides a framework for moving forward. The report will be another effective tool in educating Americans about how they can promote bone health throughout their lives. This first-ever Surgeon General's Report on bone health and osteoporosis provides much needed information on bone health, an often overlooked aspect of physical health. This report follows in the tradition of previous Surgeon Generals' reports by identifying the relevant scientific data, rigorously evaluating and summarizing the evidence, and determining conclusions.
Evidence generated by a number of genetic studies indicates that growth is regulated by a number of genes and that interference with their expression can have catastrophic effects on the well being of the whole organism. This work covers skeletal development and growth.
Pediatric osteology, a medical specialty that has come of age, has contributed to the understanding of adult bone diseases as well. This second edition reference updates the 2003 edition with more emphasis on management as well as new and revised contributions. Thirty chapters present basic information regarding bone development, tools and techniques for evaluation (including a new chapter on radiographic imaging), and the specifics of various diseases. The three editors are affiliated as follows: Francis H. Glorieux (McGill U., Canada), John M. Pettifor (Chir Hani Baragwanath Hospital, South Africa), and Harald Juppner (Harvard Medical School, US). Academic Press is an imprint of Elsevier. Annotation ©2012 Book News, Inc., Portland, OR (booknews.com).
Developmental Juvenile Osteology was created as a core reference text to document the development of the entire human skeleton from early embryonic life to adulthood. In the period since its first publication there has been a resurgence of interest in the developing skeleton, and the second edition of Developmental Juvenile Osteology incorporates much of the key literature that has been published in the intervening time. The main core of the text persists by describing each individual component of the human skeleton from its embryological origin through to its final adult form. This systematic approach has been shown to assist the processes of both identification and age estimation and acts as a core source for the basic understanding of normal human skeletal development. In addition to this core, new sections have been added where there have been significant advances in the field. - Identifies every component of the juvenile skeleton, by providing a detailed analysis of development and ageing and a detailed description of each bone in four ways: adult bone, early development, ossification and practical notes - New chapters and updated sections covering the dentition, age estimation in the living and bone histology - An updated bibliography documenting the research literature that has contributed to the field over the past15 years since the publication of the first edition - Heavily illustrated, including new additions
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For the past century the medical community has addressed osteoporosis as an inevitable part of the aging process. Technology developed over the past six years may mandate the medical community reevaluate their position on this disease state. This new modality for therapy and exercise is osteogenic loading, which means the growth of new bone mass through axial loading of the musculoskeletal system. This simple and effective exercise intervention can be widely used and safely prescribed for almost all populations. In addition to improving strength and bone health, subjects using osteogenic loading have greatly increased force production, thereby building the ability to increase balance.
Covering recent advances in basic and clinical research In systemic childhood diseases, including cancer, gastrointestinal, pulmonary and cardiac disorders, childhood growth is severely impaired. In addition, almost 400 known genetic diseases inhibit the ability of the growth plate to form new bone, leaving affected children with growth failure and bony deformities which can severely impact their quality of life and may lead to morbidity and early mortality. This book provides a comprehensive review of bone and cartilage development, growth and disease. Focusing on novel treatment strategies, regulatory signals and molecular mechanisms are discussed in relation to the diseases affecting them. Furthermore, novel methodologies in bone and cartilage research based on recent advances in skeletal stem cell biology, cartilage tissue engineering and allele-specific gene silencing is covered. Providing insight into the basic mechanisms of bone growth, structure and metabolism, research methodology, as well as discussing the clinical management of related diseases, this book is of particular value to physicians with a special interest in bone and cartilage biology; in particular endocrinologists and pediatric endocrinologists that see patients with growth disorders, osteoporosis, osteogenesis imperfecta, and skeletal dysplasias.