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Principles of Bone Biology
Principles of Bone Biology provides the most comprehensive, authoritative reference on the study of bone biology and related diseases. It is the essential resource for anyone involved in the study of bone biology. Bone research in recent years has generated enormous attention, mainly because of the broad public health implications of osteoporosis and related bone disorders. - Provides a "one-stop" shop. There is no need to search through many research journals or books to glean the information one wants...it is all in one source written by the experts in the field - The essential resource for anyone involved in the study of bones and bone diseases - Takes the reader from the basic elements of fundamental research to the most sophisticated concepts in therapeutics - Readers can easily search and locate information quickly as it will be online with this new edition
Cellular and Molecular Biology of Bone
Written by well-known experts in their respective fields, this book synthesizes recent work on the biology of bone cells at the molecular level. Cellular and Molecular Biology of Bone covers the differentiation of these cells, the regulation of their growth and metabolism, and their death resorption. The authors' special comprehensive treatment of the cellular and molecular mechanisms of bone metabolism makes this book a unique and valuable tool. Cellular and Molecular Biology of Bone provides interested readers-with concise state-of-the-art reviews in bone biology that will enlarge their scope and increase their appreciation of the field. Research in this area has intensified recently due to the increasing incidence of osteoporosis. The editor hopes an understanding of the basic biology of this disease will prove relevant to its prevention and treatment.
Primer on the Metabolic Bone Diseases and Disorders of Mineral Metabolism
EDITOR-IN-CHIEF: Clifford J. Rosen, M.D., Maine Medical Center Research Institute, Scarborough, Maine SENIOR ASSOCIATE EDITORS: Juliet E. Compston, M.D., FRCP, University of Cambridge School of Clinical Medicine, Cambridge, United Kingdom Jane B. Lian, Ph.D., University of Massachusetts Medical School, Worcester, Massachusetts This comprehensive yet concise handbook is an indispensable reference for the many clinicians who see patients with disorders of bone formation, metabolic bone diseases, or disorders of stone formation. It is also a crucial tool for researchers, students, and all other professionals working in the bone field. In a format designed for quick reference, it provides comple...
Vertebrate Skeletal Development
Vertebrate Skeletal Development, Volume 133, the latest release in the Current Topics in Developmental Biology series, presents interesting chapters on a variety of topics, with this edition focusing on Craniofacial skeletal development, Regulatory mechanism of jawbone and tooth development, Development of the axial skeleton and intervertebral discs, Stem and progenitor cells in skeletal development, Origin, functioning and morphogenetic activity of limb synovial joint, ECM signaling in cartilage development and endochondral ossification, Sox genes in skeletal development, Wnt-Signaling in Skeletal Development, Gas signaling in skeletal development and diseases, FGF signaling in skeletal development, Bone morphogenetic growth factors in bone development, and more. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in the Current Topics in Developmental Biology series - Includes the latest information on Vertebrate Skeletal Development
Skeletal stem/progenitor cells and their environment in bone regeneration
The skeleton plays essential physiological functions throughout life from structural support and movement for the entire body, to storage of minerals and hematopoiesis, as well as endocrine functions. Skeletal integrity is maintained by the efficient remodeling and repair abilities of bone tissue that involves multiple skeletal stem/progenitor cell (SSPC) populations within bone compartments. These populations change their properties during development, growth and aging and can be affected by disease and trauma. SSPCs also interact with bone marrow, blood vessels, nerves, and adjacent soft tissues. The close communication between various skeletal and extra-skeletal cell populations is required for bone maintenance and function, and during bone regeneration following injury or trauma. Tremendous advances have been made in the past decade on the characterization of SSPCs that support skeletal regeneration. Yet, we still do not fully understand the basic cellular and molecular mechanisms underlying the high regenerative potential of bone and how disease or trauma can reduce SSPC functions and lead to impaired healing.
Orthobiologics
Developed in partnership with the American Academy of Orthopaedic Surgeons (AAOS) and edited by internationally renowned experts Drs. Scott P. Bruder and Roy K. Aaron, Orthobiologics: Scientific and Clinical Solutions for Orthopaedic Surgeons provides authoritative, comprehensive coverage of this fast-growing field. This one-stop reference is an ideal resource, covering technology and basic science through specific clinical applications.
Skeletal Development and Remodeling in Health, Disease and Aging, Volume 1068
Our understanding of how the skeleton is remodeled and repaired has been enormously expanded in the past decade. Using advanced molecular technologies including transgenesis, gene knockout, and gene array, we are gaining a better understanding of both the precise pathways through which osteoblasts lay down new bone and how osteoclasts remove old bone. These studies have not only helped us understand the basic biological properties of the skeleton and how it responds to hormonal, cytokine, and mechanical stimulation, but also, in some instances, clarified the source of pathophysiology. The eventual goal of such discoveries is to lay down a firm scientific foundation for the identification of ...
