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Signaling Pathways in Developing and Pathological Tissues and Organs of the Craniofacial Complex
Head formation requires the well-orchestrated and harmonised development of various tissues and organs within the craniofacial complex. A big variety of signaling pathways are involved in this process by controlling cell proliferation, migration, differentiation, tissue morphogenesis, homeostasis and regeneration. Deregulation and malfunction of these signaling molecules may lead to mild or severe craniofacial pathologies. This eBook is a collection of articles dealing with a variety of important signals involved in the control of developmental and pathological events of craniofacial organs and tissues. These recent advances show the importance of signaling pathways in craniofacial physiology and pathology and generate important new knowledge aiming the development of new pharmaceutical products that mimic and/or block the actions of specific molecules.
Primer on the Metabolic Bone Diseases and Disorders of Mineral Metabolism
The authoritative reference to bone diseases and disorders of mineral metabolism, revised and updated Now in its ninth edition, The Primer on the Metabolic Bone Diseases and Disorders of Mineral Metabolism offers an updated and comprehensive guide to bone and mineral health. Since it was first published 30 years ago, the Primer has become the leading reference on the topic. With contributions from noted experts, the text explores basic biological factors of healthy development and disease states and makes the information accessible for clinical interventions. The ninth edition provides concise coverage of the widest possible spectrum of metabolic bone diseases and disorders of mineral metabo...
Tooth Enamel: Frontiers in Mineral Chemistry and Biochemistry, Integrative Cell Biology and Genetics
"Tooth Enamel: Frontiers in Mineral Chemistry and Biochemistry, Integrative Cell Biology and Genetics" incorporates the proceedings of the 9th International Enamel Symposium (Enamel 9) hosted in the UK and chaired by Professor Jennifer Kirkham and Professor Ariane Berdal. The topic covers cellular and molecular aspects of the development, pathology, evolution and repair or regeneration of dental enamel. The original research papers and reviews will be of interest to all enamel and biomineralization researchers. Clinicians will find up-to-date thinking and opinion on the aetiology of enamel pathologies and their potential future treatment via novel strategies for preventing, repairing and regenerating enamel.
Tooth Enamel Research: Enamel 10 and beyond
The Research Topic will host an overview of the most recent knowledge on enamel issued from a group of international experts who gathered at the 10th International Symposium on Dental Enamel (Enamel X). The Topic will include manuscripts describing original data, short communication, and reviews. In addition, the Topic will host abstracts and panel discussions presented at the Enamel X meeting, to highlight changing paradigms, unsolved and challenging questions, as well as translational challenges. Bringing together physics, chemistry, biochemistry and development and differentiation, contributions to this Topic will focus on the unique architecture of enamel, from nano- to macro- scale, and...
Advances in Craniofacial and Dental Materials Through Nanotechnology and Tissue Engineering
Dental and craniofacial treatments are actually based on advances in biomaterials, tissue engineering and nanotechnology sciences. These developments brought considerable improvements on biomaterials commonly used in dental clinics. However, there is still a medical need for innovative techniques and materials for a controllable and efficient regeneration/repair of damaged craniofacial tissues and teeth. The novel biomaterials, imaging techniques, diagnostic and technological tools may offer thrilling perspectives for alternative treatments in dentistry.
Dental and Periodontal Tissues Formation and Regeneration: Current Approaches and Future Challenges
Sequential and reciprocal interactions between oral epithelial and cranial neural crest-derived mesenchymal cells give rise to the teeth and periodontium. Teeth are vital organs containing a rich number of blood vessels and nerve fibers within the dental pulp and periodontium. Teeth are composed by unique and specific collagenous (dentin, fibrillar cementum) and non-collagenous (enamel) highly mineralized extracellular matrices. Alveolar bone is another collagenous hard tissue that supports tooth stability and function through its close interaction with the periodontal ligament. Dental hard tissues are often damaged after infection or traumatic injuries that lead to the partial or complete d...
Biomaterials and Regenerative Medicine
Written by world-leading experts, this book focusses on the role of biomaterials in stem cell research and regenerative medicine. Emphasising basic principles and methodology, it covers stem cell interactions, fabrication technologies, design principles, physical characterisation and biological evaluation, across a broad variety of systems and biomaterials. Topics include: stem cell biology, including embryonic stem cells, IPS, HSC and progenitor cells; modern scaffold structures, including biopolymer, bioceramic, micro- and nanofiber, ECM and biohydrogel; advanced fabrication technologies, including computer-aided tissue engineering and organ printing; cutting-edge drug delivery systems and gene therapy techniques; and medical applications spanning hard and soft tissues, the cardiovascular system and organ regeneration. With a contribution by Nobel laureate Shinya Yamanaka, this is a must-have reference for anyone in the field of biomaterials, stem cell biology and engineering, tissue engineering and regenerative medicine.
