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Intended for cell biologists, biophysicists, biochemists, molecular biologists, physiologists, researchers in hemostatsis and thrombosis and pathologists, this book provides an insight into cell adhesion from three interdisciplinary perspectives: fundamental facts of adhesion; molecular biochemistry of adhesion and physiological aspects. It summarizes the basic aspects of surfaces in general and describes the theoretical and experimental tools necessary to investigate cell adhesion, including the basic biochemistry and molecular biology of adhesion. The book offers concise treatment of individual topics, features current material, and provides key references as a guide to further study.
Considers the recent explosion of knowledge about the carcinoembryonic antigen (CEA) family, which resulted from the molecular cloning of family member genes in 1986. Results indicating CEA family members upregulated in cancer could have an instrumental role in malignant transformation and metastasis, while those that are downregulated could have tumor suppressive functions are considered. Reviews, recent results, hypotheses, and clinical applications regarding a gene family that, from its widespread changes in expression in tumors at many sites, should be regarded as a "major player" in human cancer are also discussed. The normal functions such as epithelial and hematopoietic adhesion and signalling molecules are explored, and the possibly unique role of this family in evolution is introduced. This volume will be of interest to researchers in the fields of intercellular adhesion, evolution, and molecular recognition, as well as clinicians interested in the recent knowledge regarding a tumor marker commonly utilised in the clinic, and companies wishing to exploit this cancer-related family for novel commercial applications in the biomedical sphere.
The past few years have seen considerable advances in our understanding of the molecular basis underlying cutaneous cell adhesion mechanisms. Co-authored by a number of leading experts in the field ^Cell Adhesion and Migration in Skin Disease provides a comprehensive overview of the critical role played by cell adhesion in determining the structure and function of both healthy and diseased human skin. The book is divided into three main sections, with each one addressing a principal function of adhesion molecules. The first part focuses on the epidermis, which as the skin's outermost layer, acts as the human body's primary barrier of defence. Roles played by cytoskeletal intermediate filaments and junctional complexes in cutaneous cell adhesion are emphasised with descriptions of blistering skin diseases that can arise if these molecules malfunction. The second part describes the macromolecular interactions responsible for the anchorage of cells to the underlying extracellular basement membrane. The experimental approaches detailed in the text not only reveal how the molecular components of the dermal-epidermal junction have been elucidated, but also highlight how mutations in the genes which encode these molecules are responsible for many heritable skin diseases. Leukocytes continually infiltrate the skin and patrol it for potentially harmful pathogens. Control of leukocyte adhesion to resident cells within the skin and to the extracellular matrix plays a key role in controlling these processes. These mechanisms constitute the primary focus of the final section. The pivotal role of leukocytes is examined in conjunction with the chronic inflammatory diseases which arise when components of the skin's finely tuned defence strategy go awry and the potential for these anomalies to be pinpointed as important immunotherapeutic targets for skin diseases.
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This comprehensive work discusses novel biomolecular surfaces that have been engineered to either control or measure cell function at the atomic, molecular, and cellular levels. Each chapter presents real results, concepts, and expert perspectives of how cells interact with biomolecular surfaces, with particular emphasis on interactions within complex mechanical environments such as in the cardiovascular system. In addition, the book provides detailed coverage of inflammation and cellular immune response as a useful model for how engineering concepts and tools may be effectively applied to complex systems in biomedicine.-Accessible to biologists looking for new ways to model their results and engineers interested in biomedical applications -Useful to researchers in biomaterials, inflammation, and vascular biology -Excellent resource for graduate students as a textbook in cell & tissue engineering or cell mechanics courses
The pre-eminent reference on coagulation disorders is now in its thoroughly updated Fifth Edition. Written by more than 160 of the world's foremost authorities, this encyclopedic volume integrates basic science and clinical practice and details all that is currently known about blood clotting disorders and how to manage patients with these and related problems. This edition has been reorganized into smaller, more tightly focused chapters to help readers find information easily. A new co-editor, Samuel Z. Goldhaber, MD, has expanded the cardiology portion of the book. Other new features include a two-color page design and more than 100 full-color illustrations.
Frontiers in Tissue Engineering is a carefully edited compilation of state-of-the-art contributions from an international authorship of experts in the diverse subjects that make up tissue engineering. A broad representation of the medical, scientific, industrial and regulatory community is detailed in the book. The work is an authoritative and comprehensive reference source for scientists and clinicians working in this emerging field. The book is divided into three parts: fundamentals and methods of tissue engineering, tissue engineering applied to specialised tissues, and tissue engineering applied to organs. The text offers many novel approaches, including a detailed coverage of cell-tissue interactions at cellular and molecular levels; cell-tissue surface, biochemical, and mechanical environments; biomaterials; engineering design; tissue-organ function; new approaches to tissue-organ regeneration and replacement of function; ethical considerations of tissue engineering; and government regulation of tissue-engineered products.
Glycoproteins play an important role in the regulation of gene expression, cell growth, migration, differentiation and apoptosis. Over the last decade, research has highlighted the therapeutic implications of glycoproteins for many physiological and pathological processes, such as inflammation, arthritis and metastasis. The first part of the book d