The proceedings of the Third International Conference (on title) held in Chatham, Mass., October, 1988. Presents coverage of many areas of the skeletal system, including new experimental techniques, research areas, ideas, and hypotheses. Discusses at length the chemical nature and structure of organic matrix components and their influence with respect to regulation of cell function. Annotation copyrighted by Book News, Inc., Portland, OR
This text is a compilation of presentations by world-wide experts that were given during the Sixth International Conference on the Chemistry and Biology of Mineralized Tissues, which was held in Vittel, France in November 1998. These proceedings represent advances in this specialized area and should be useful for both clinicians and researchers in bone biology and chemistry.
Calcium in Human Biology provides an authoritative review of current knowledge and points the way to further progress in the understanding of this essential nutrient. In addition to considering the established importance of an adequate dietary source of available calcium for the formation of sound bones and teeth, there is detailed discussion of the part calcium plays in a variety of aspects of human metabolism. The book is written primarily for those working in the nutritional sciences and related fields. It will also be of interest to clinicians, nutritionists, and to those interested more generally in the biological sciences, as well as to those in the important sectors of the food industry which utilise or produce dairy products and other foods significant to the supply of dietary calcium.
Biomineralization is a natural process by which living organisms form minerals in association with organic biostructures to form hybrid biological materials such as bone, enamel, dentine and nacre among others. Scientists have researched the fundamentals of these processes and the unique structures and properties of the resulting mineralized tissues. Inspired by them, new biomaterials for tissue engineering and regenerative medicine have been developed in recent years. Biomineralization and biomaterials: fundamentals and applications looks at the characteristics of these essential processes and natural materials and describes strategies and technologies to biomimetically design and produce biomaterials with improved biological performance. - Provides a thorough overview of the biomineralization process - Presents the most recent information on the natural process by which crystals in tissues form into inorganic structures such as bone, teeth, and other natural mineralized tissues - Investigates methods for improving mineralization - Explores new techniques that will help improve the biomimetic process
:Written by a broad spectrum of dental, medical and basic science researchers from around the world, this book presents state-of-the-art knowledge concerning the biology of connective tissues and their response to exogenous mechanical stimulation at the cell biology level. The text goes well beyond the traditional morphologic descriptions of tooth movement, covering the cell biology of the connective tissues involved, the various in vitro and in vivo research models, possible pharmacological means of influencing tissue responses, and biophysical considerations. Many cellular events that occur during tooth movement are discussed, as well as the exciting challenges, unanswered questions and possibilities in the future. This publication is extremely relevant to the work of dental specialists in orthodontics, pediatric dentistry, and periodontics plus orthopeadists and basic scientists working in connective tissue research.
The calcified tissues have fundamental functions in the biology of organisms, not only because their strength, solidity, and elasticity permit movement and mechanical activities, and protect soft tissues against traumatic forces, but also on account of their role in mineral homeostasis. For this reason, extensive investigation in the last 30 years has provided much to explain the complex chemical and physical processes occurring in cells and matrices composing the skeleton, and their alterations in pathological conditions. The use of ultrastructural methods such as immunocytochemistry, scanning and transmission electron microscopy, cytoautoradiography, freeze/fracture etching, high voltage, etc. has proven to be of great value when applied to cells and matrix components of bone and cartilage, in spite of the technical difficulties due to the hardness of these tissues. However, available information on this subject is disseminated in a variety of scientific and medical articles. This volume is an attempt to collect together the most significant data on the ultrastructure of cartilage and bone in normalcy and pathology. Obviously, it cannot be a complete report of all these data, its principal aim being that of: a) giving a comprehensive statement of the results concerning the basic structures common to these tissues, especially collagen fibrils, noncollagenous proteins, and proteoglycans, and their relationships with the mineral substance (for which another volume of this series can also be consulted; see Ruggeri A. , Motta P. M. (eds.
This book lays out the principles of general pathology for biomedical researchers, grad students, medical students, and physicians, with elegance and deep insight. Disease processes are explained in the light of malfunctions at the cellular level, offering a rich understanding of the clinical correlates of all aspects of fundamental cellular physiology and basic biomedicine. The book has been fully revised and updated to present a current but deep understanding of disease states at the cell and tissue levels - cellular pathology, inflammation, immunopathology vascular disturbance, and tumor biology.
