This fully updated and extended second edition provides a comprehensive overview on the basic concepts of the rapidly developing field of osteoimmunology and also offers in-depth insights into the molecular mechanisms of bone diseases. Clinical data is presented and put into context with the latest research findings. This second edition in addition discusses the latest topics in transplantation immunology. The book addresses scientists and physicians working in immunology, pathophysiology and osteology.
It has only recently been appreciated that the immune and skeletal systems have major interactions. It is now well documented that osteoclasts, which are important cellular mediators of skeletal homeostasis, are derived from hematopoietic precursors that also give rise to immune cells. In addition, numerous cytokines that were first shown to regulate immune cell function have also been demonstrated to regulate bone cells and influence skeletal health. Conversely, products of bone cells appear critical for the engraftment of marrow in bone, the normal development of the hematopoietic and immune systems and provide niche for long-term memory B and T cells. In the past scientists involved in immune and bone cell investigations have rarely interacted in a significant way as these disciplines have developed independently and, for the most part, remain separate. The conference will bring together leading international scientists from both fields to interact so that new collaboration can develop and more rapid progress in understanding the relationships between these fields can be achieved. Short talks will be selected from abstracts from the international community. This conference will have a format to provide an environment of maximum interaction and interchange through lectures, posters, and open discussion.
Osteoimmunology: Interactions of the Immune and Skeletal Systems, Second Edition, explores the advancements that have been made in the field during the last 40 years, including valuable information on our understanding of the interactions between hematopoietic, immune, and bone cells, now known as the field of osteoimmunology. This comprehensive work offers the most extensive summaries of research trends in the field and their translation into new therapeutics. Early chapters deal with the development of osteoblasts, osteoclasts, hematopoietic stem cells, T and B-lymphocytes, and communications between these cellular elements, while later sections contain discussions of the signaling pathways by which RANKL influences osteoclast development and function. Subsequent chapters explore the effects that estrogen has on bone and the immune system, the development of pathologic conditions, and the growing research around osteoporosis, Paget's disease, the genetics of bone disease, and bone cancer metastasis. - Explains the intricate interaction between the immune system and bone - Features detailed discussions of the key cellular and molecular mechanisms governing the homeostasis of the individual systems - Facilitates greater understanding of osteoimmunologic networks, their environments, and how this understanding leads to better treatments for human diseases involving both systems
We acknowledge the initiation and support of this Research Topic by the International Union of Immunological Societies (IUIS). We hereby state publicly that the IUIS has had no editorial input in articles included in this Research Topic, thus ensuring that all aspects of this Research Topic are evaluated objectively, unbiased by any specific policy or opinion of the IUIS. Part of the APCs for articles in this collection were financed by the Fondazione Beppe e Nuccy Angiolini ONLUS. Publisher’s note: In this 2nd edition, acknowledgment for the Fondazione Beppe e Nuccy Angiolini ONLUS has been added.
Bone metastases are common in many cancers and associated with skeletal-related events such as spinal cord compression, fractures, pain, disability, and impaired quality of life. Bone metastasis is most prominent in breast, prostate, and lung cancer patients and is the leading cause of cancer-associated death. Osteoblasts and osteoclasts control each other’s functions to maintain normal bone homeostasis. In addition, bone remodeling is governed by the balanced activity of the bone and immune cells. Bone metastasis is a multistage process, and the bone microenvironment influences the seeding and colonization of the disseminated cancer cells. Disruption of bone homeostasis and immune population provides fertile soil to facilitate cancer cell seeding. Despite the advancement of our understanding to treat primary tumors, most of the treatments for bone metastasis are palliative. Proper understanding of the immune component of the bone and their involvement in bone metastasis niche formation will help to explore future directions of bone metastasis research.
Falls, fractures, frailty, osteoporosis and sarcopenia are highly prevalent in older persons. While the concept of osteosarcopenia is new, it is a rapidly evolving and cross-disciplinary problem. Prevention and treatment are challenging and a combined therapeutic approach is needed. Osteosarcopenia provides evidence-based information on how to prevent and treat these conditions at multiple settings, including multiple illustrations, care pathways and tips to easily understand the pathophysiology, diagnostic methods and therapeutic approach to these conditions. This work evaluates the potential for a link between osteoporosis, sarcopenia and obesity. - Presents diagnostic and therapeutic tips that facilitate the design and implementation of new care pathways, impacting the wellbeing of our older population - Provides cross-disciplinary understanding by experts from the bone/osteoporosis field and the muscle/sarcopenia field - Covers muscle and bone biology, mesenchymal stem cells, age-related changes and cross-talk between muscle, fat and bone, falls and fracture risk, glucose metabolism, diagnosis, imaging, and genetics of osteosarcopenia
Biological Mechanisms of Tooth Movement This new edition continues to be an authoritative reference to the scientific foundations underpinning clinical orthodontics The newly and thoroughly revised Third Edition of Biological Mechanisms of Tooth Movement delivers a comprehensive reference for orthodontic trainees and specialists. It is fully updated to include new chapters on personalized orthodontics as well as the inflammatory process occurring in the dental and paradental tissues. It is heavily illustrated throughout, making it easier for readers to understand and retain the information discussed within. The topics covered range from bone biology, the effects of mechanical loading on tissues and cells, genetics, tissue remodeling, and the effects of diet, drugs, and systemic diseases. The Third Edition of Biological Mechanisms of Tooth Movement features seven sections that cover subjects such as: The development of biological concepts in orthodontics, including the cellular and molecular biology behind orthodontic tooth movement Mechanics meets biology, including the effects of mechanical loading on hard and soft tissues and cells, and biological reactions to temporary anchorage devices Inflammation and orthodontics, including markers for tissue remodeling in the gingival crevicular fluid and saliva Personalized diagnosis and treatment based on genomic criteria, including the genetic influences on orthodontic tooth movement Rapid orthodontics, including methods to accelerate or decelerate orthodontic tooth movement Perfect for residents and PhD students of orthodontic and periodontal programs, Biological Mechanisms of Tooth Movement is also useful to academics, clinicians, bone biologists, and researchers with an interest in the mechanics and biology of tooth movement.
