Bones and Cartilage


Book Description

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




Cartilage Molecular Aspects


Book Description

Cartilage plays diverse roles as a definitive supporting tissue in some organs, the basis of low friction surfaces in joints, and a transient morphogenetic template during embryogenesis and repair of the skeleton. The versatility of cartilage is derived from the remarkable material properties of its extracellular matrix, the wide spectrum of regulatory systems that influence the synthesis and degradation of the unique molecular constituents of this matrix, and the development and growth of the cells that produce it. This book touches on each of these areas and provides the first comprehensive reviews of the molecular biology of the genes specifying the collagenous and noncollagenous proteins of the cartilage matrix, as well as the biophysical-chemical properties of the matrix that suits it to the various functions it performs. Up-to-date critical reviews of the mineralization and degradation of cartilage matrix, the roles of polypeptide growth and inducing factors, of ions, in the regulation of cartilage growth and development, and the unique requirements of the energy metabolism of cartilage as a nonvascular tissue, make this volume a useful source for concepts and results for the multiple disciplines that play a part in modern cartilage research.




The Growth Plate


Book Description

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.




Connective Tissue and Its Heritable Disorders


Book Description

The Second Edition of Connective Tissue and Its Heritable Disorders: Molecular, Genetic, and Medical Aspects is the definitive reference text in its field, with over 40% more pages on the nature, diagnosis, and treatment of disease than its predecessor. Collecting new research on disorders detailed in the first edition as well as on those previously excluded, editors Peter Royce and Beat Steinmann provide the most up-to-date clinical and scientific information for medical specialists treating affected individuals. Features of this revised and updated volume include detailed reviews of the clinical diagnosis, mode of inheritance, risk of recurrence, and prenatal diagnosis of each inherited connective tissue disorder; a thorough description of the morphology of connective tissues; a completely updated and revised section on the biology of the extracellular matrix; and the addition of syndromes such as craniosyntosis, and disorders of sulfate metabolism.







Genetics of Bone Biology and Skeletal Disease


Book Description

Genetics of Bone Biology and Skeletal Disease, Second Edition, is aimed at students of bone biology and genetics and includes general introductory chapters on bone biology and genetics. More specific disease orientated chapters comprehensively summarize the clinical, genetic, molecular, animal model, molecular pathology, diagnostic, counseling, and treatment aspects of each disorder. The book is organized into five sections that each emphasize a particular theme, general background to bone biology, general background to genetics and epigenetics, disorders of bone and joint, parathyroid and related disorders, and vitamin D and renal disorders. The first section is specifically devoted to providing an overview of bone biology and structure, joint and cartilage biology, principles of endocrine regulation of bone, and the role of neuronal regulation and energy homeostasis. The second section reviews the principles and progress of medical genetics and epigenetics related to bone disease, including genome-wide association studies (GWAS), genomic profiling, copy number variation, prospects of gene therapy, pharmacogenomics, genetic testing and counseling, as well as the generation and utilizing of mouse models. The third section details advances in the genetics and molecular biology of bone and joint diseases, both monogenic and polygenic, as well as skeletal dysplasias, and rarer bone disorders. The fourth section highlights the central role of the parathyroids in calcium and skeletal homeostasis by reviewing the molecular genetics of: hyperparathyroidism, hypoparathyrodism, endocrine neoplasias, and disorders of the PTH and calcium-sensing receptors. The fifth section details molecular and cellular advances across associated renal disorders such as vitamin D and rickets. - Identifies and analyzes the genetic basis of bone disorders in humans and demonstrates the utility of mouse models in furthering the knowledge of mechanisms and evaluation of treatments - Demonstrates how the interactions between bone and joint biology, physiology, and genetics have greatly enhanced the understanding of normal bone function as well as the molecular pathogenesis of metabolic bone disorders - Summarizes the clinical, genetic, molecular, animal model, molecular pathology, diagnostic, counseling, and treatment aspects of each disorder




Connective Tissue


Book Description

Connective tissue is a multicomponent, polyfunctional complex of cells and extracellular matrix that serves as a framework for all organs, combining to form a unified organism. It is a structure responsible for numerous vital functions such as tissue-organ integration, morphogenesis, homeostasis maintenance, biomechanical support, and more. The reg




The Soft–Hard Tissue Junction


Book Description

Richly illustrated throughout with actual tissue images, this innovative book shows that the soft-hard tissue junction is best understood in a biomechanical context. The authors describe their pioneering experimental methods, providing an essential structure-function framework for computational modelling, and thereby encouraging the development of more realistic, predictive models of this important tissue junction. Covering the three main musculoskeletal junctions of cartilage-bone, disc-vertebra, and ligament/tendon-bone, the relevant soft tissues are examined with respect to both their own inherent structure and their mode of integration with the hard tissue. The soft-hard tissue interface is explored with a focus on structural damage resulting from overloading, and its associated pathologies. Adopting a multiscale approach, ranging in structural resolution from the macro to fibril levels, this is a must-have guide to the field and an ideal resource for researchers seeking new and creative approaches for studying the joint and spine tissues.




Osteoarthritis


Book Description

Musculoskeletal diseases are rapidly becoming a major health concern. The incidence of osteoarthritis, the most common arthritic disorder, is increasing steadily due to the graying of the world population. This disease is responsible of human life, a time in for significant morbidity, particularly in the second half which the quality of life is of primary importance. The aim of this publication is to bring to physicians and scientists a comprehensive overview of the field, from molecules to men. The direct costs related to osteoarthritis have been increasing steadily over the years and will soon be comparable to those of other major illnesses, such as cardiovascular diseases. This, of course, does not take into account all of the other costs related to the disease which often cannot be simply calculated in dollars and cents. There has been a great deal of renewed interest in osteoarthritis in the last few decades. This has been brought on by the need to improve our knowledge of all aspects of the disease, especially with regard to its etiopathogenesis and treatment. The most recent findings and developments on the structural, bio chemical, biomechanical and molecular changes observed in clinical and ex perimental osteoarthritis are presented in this book.




Articular Cartilage


Book Description

Well-known for their inability to heal, articular cartilage injuries often degenerate inexorably to disastrous impairment. Multitudes of treatments have been devised for this problem, but no satisfactory long-term solutions have been established. Written by world-class experts, Articular Cartilage covers the latest research and advancements related to biology, development, pathology, clinical applications, and tissue engineering. This book is useful for rheumatologists, orthopaedic surgeons, cartilage biologists, and cartilage engineers as well as for professionals working in the orthopaedic and other musculoskeletal industries. This book also belongs in the library of primary care physicians, gerontologists, physical therapists, kinesiologists, and chiropractors. Written at a level that allows accessibility to a wide audience, it provides an interdisciplinary approach that encompasses the breadth and depth of basic science, bioengineering, translational science, and detailed methodologic approaches. The authors examine the major events and signaling molecules that lead to development of articular cartilage from precursor cells, and the changes in cartilage as it matures and ages. They focus on the epidemiology, etiopathogenesis, and therapeutic approaches for cartilage injury and the major arthritides that affect cartilage and the synovial joints such as osteoarthritis, rheumatoid arthritis, and gout. They supply an up-to-date overview of the field of tissue engineering as applied to articular cartilage repair. They examine a number of methods used to assess structure, composition, biology, and biomechanical function. Each chapter contains extensive references to enhance additional study. The book’s comprehensive focus on multiple aspects of articular cartilage sets it apart from other tissue engineering or developmental biology-based books available. It includes important discussions and perspectives on many of the remaining challenges and opportunities in the development and translation of new approaches for treating diseases of articular cartilage. It also provides detailed working protocols for many of the methods used to study articular cartilage, coverage of current treatment options, and business and regulatory aspects of the development of cartilage products. It provides a deeper understanding that will help with the development of new products and clinical applications.