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"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."
"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."@en
"This second edition of this book expands further on the first edition, which explored the relationship between the human immune system and the skeletal structure. 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. This book brings together ideas of international scientists from both fields in pursuit of new collaborations. This may facilitate greater understanding of the relationships between these fields."@en
"This book includes these topics: A Key Regulator of Postnatal Skeletal Remodeling; Ectodomain Shedding of Receptor Activator of NF-KB Ligand; The Negative Role Of Ids In Osteoclastogenesis; Functional Genetic and Genomic Analysis of Modeled Arthritis; Dexamethsone Suppresses Bone Formation via the Osteoclast; Immunologic Regulation Of Bone Development; Pth Regulates The Hematopoietic Stem Cell Niche In Bone; Regulation Of Hematopoietic Stem Cells In The Osteoblastic Niche; The Chemokine Cxcl12; and Regulation Of Hsc; and Lymphocyte Development In The Bone Marrow Niche. It also includes these topics: Osteoclast Precursor Cells; Interaction with estrogen receptors as treatment of arthritis and osteoporosis; Novel Signaling Pathways And Therapeutic Targets In Osteoclasts; The Enigmatic Function of TREM-2 in Osteoclastogenesis; Role of cell-matrix interactions in osteoclast differentiation; Positive and negative roles of IL-6, STAT3 and SOCS3 in inflammatory arthritis; Control of Osteoclast activity and bone loss by IKK subunits: new targets for therapy; Targeting Osteoporosis And Rheumatoid Arthritis By Active Vaccination Against Rankl; and RANKL Inhibition: From Mice to Men (and Women)."
"This is the second edition of this proceedings. Contributors include leading names in the field of research, addressing mutiple topics, which were covered at the last Osteoimmunology conference."@en
"This is the second edition of this proceedings. Contributors include leading names in the field of research, addressing mutiple topics, which were covered at the last Osteoimmunology conference."
"Bone and the immune system are both complex tissues, which, respectively, regulate the skeleton and the body's responses to invading pathogens. It has become increasingly clear that critical interactions between these two organ systems frequently occur. This is particularly true for the development of immune cells in the bone marrow and for the function of bone cells in health and disease. However, because these two disciplines developed independently, investigators in each don't always fully appreciate the significance of the other. This book is meant to provide a detailed overview of the many ways that bone and immune cells interact. The goal is to provide basic and clinical scientists with a better understanding of the role that the immune system and bone play in the development and function of each other so that advances in both fields will be facilitated. The focus of the book will be both on basic pathways and translational science, which will apply basic knowledge to clinical diseases. Chapter content will range from basic descriptions of the various cell systems and their development to the signals that cause them to interact during normal physiology and disease. Approximately half the book will focus on the role that osteoimmunology plays in the development of human diseases. This is a rapidly developing area that is of interest to a wide spectrum of researchers, students, and fellows in immunology, rheumatology, hematology, and bone biology - all of whom need to develop a more complete understanding of their previously separate disciplines and the mechanisms by which they interact. The book will be written at the level of a graduate school text. It will be easily readable by someone with a college level understanding of biologic science. However, it will contain details that will make it appealing to researchers in any of the relevant areas who want to fully understand the role that interactions between the bone and immune system play in the responses that they are studying. Pharmaceutical companies are very interested in this topic as it represents a new area for the design of drug targets. The recent development of an antibody therapy against RANK ligand, which was originally identified as a regulator of immune cells, but is now know to also regulate bone resorption, is one example of how research in osteoimmunology can be used to develop a drug. Presents a comprehensive, translational source for all aspects of osteoimmunology in one reference work. Experts in bone biology and immunology (from all areas of academic and medical research) take readers from the bench research (cellular and molecular mechanism), through genomic and proteomic analysis, all the way to clinical analysis (histopathology and imaging) and new therapeutic approaches. Clear presentations by bone biologists of the cellular and molecular mechanisms underlying bone cell development leading to bone and immunological diseases such as Lupus. Clear presentations by immunologists of how immune cells develop and how the immune system plays a role in bone diseases like osteoporosis and arthritis."
"A Key Regulator of Postnatal Skeletal Remodeling.- Ectodomain Shedding of Receptor Activator of NF-KB Ligand.- The Negative Role Of Ids In Osteoclastogenesis.- Functional Genetic and Genomic Analysis of Modeled Arthritis.- Dexamethsone Suppresses Bone Formation via the Osteoclast.- Immunologic Regulation Of Bone Development.- Pth Regulates The Hematopoietic Stem Cell Niche In Bone.- Regulation Of Hematopoietic Stem Cells In The Osteoblastic Niche.- The Chemokine Cxcl12 And Regulation Of Hsc And Lymphocyte Development In The Bone Marrow Niche.- Osteoclast Precursor Cells.- Interaction with estrogen receptors as treatment of arthritis and osteoporosis.- Novel Signaling Pathways And Therapeutic Targets In Osteoclasts.- The Enigmatic Function of TREM-2 in Osteoclastogenesis.- Role of cell-matrix interactions in osteoclast differentiation.- Positive and negative roles of IL-6, STAT3 and SOCS3 in inflammatory arthritis.- Control of Osteoclast activity and bone loss by IKK subunits: new targets for therapy.- Targeting Osteoporosis And Rheumatoid Arthritis By Active Vaccination Against Rankl.- RANKL Inhibition: From Mice to Men (and Women)."@en
"A Key Regulator of Postnatal Skeletal Remodeling.- Ectodomain Shedding of Receptor Activator of NF-KB Ligand.- The Negative Role Of Ids In Osteoclastogenesis.- Functional Genetic and Genomic Analysis of Modeled Arthritis.- Dexamethsone Suppresses Bone Formation via the Osteoclast.- Immunologic Regulation Of Bone Development.- Pth Regulates The Hematopoietic Stem Cell Niche In Bone.- Regulation Of Hematopoietic Stem Cells In The Osteoblastic Niche.- The Chemokine Cxcl12 And Regulation Of Hsc And Lymphocyte Development In The Bone Marrow Niche.- Osteoclast Precursor Cells.- Interaction with estrogen receptors as treatment of arthritis and osteoporosis.- Novel Signaling Pathways And Therapeutic Targets In Osteoclasts.- The Enigmatic Function of TREM-2 in Osteoclastogenesis.- Role of cell-matrix interactions in osteoclast differentiation.- Positive and negative roles of IL-6, STAT3 and SOCS3 in inflammatory arthritis.- Control of Osteoclast activity and bone loss by IKK subunits: new targets for therapy.- Targeting Osteoporosis And Rheumatoid Arthritis By Active Vaccination Against Rankl.- RANKL Inhibition: From Mice to Men (and Women)."
"This book includes these topics: A Key Regulator of Postnatal Skeletal Remodeling; Ectodomain Shedding of Receptor Activator of NF-KB Ligand; The Negative Role Of Ids In Osteoclastogenesis; Functional Genetic and Genomic Analysis of Modeled Arthritis; Dexamethsone Suppresses Bone Formation via the Osteoclast; Immunologic Regulation Of Bone Development; Pth Regulates The Hematopoietic Stem Cell Niche In Bone; Regulation Of Hematopoietic Stem Cells In The Osteoblastic Niche; The Chemokine Cxcl12; and Regulation Of Hsc; and Lymphocyte Development In The Bone Marrow Niche."
"Includes these topics: A Key Regulator of Postnatal Skeletal Remodeling; Ectodomain Shedding of Receptor Activator of NF-KB Ligand; and The Negative Role Of Ids In Osteoclastogenesis. This book also includes these topics: Dexamethsone Suppresses Bone Formation via the Osteoclast and Immunologic Regulation Of Bone Development."@en

editor

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genre

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"Electronic books"@en
"Electronic books"
"Congressen (vorm)"
"Aufsatzsammlung"
"Online-Publikation"

name

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"Osteoimmunology : interactions of the immune and skeletal systems II : [the 2. International Conference on Osteoimmunology ... in Rhodes, Greece on June 8th to 13, 2008 ...]"
"Osteoimmunology interactions of the immune and skeletal systems II"
"Osteoimmunology interactions of the immune and skeletal systems II"@en
"Osteoimmunology interactions of the immune and skeletal systems"
"Osteoimmunology : interactions of the immune and skeletal systems II"@en
"Osteoimmunology : interactions of the immune and skeletal systems II"
"Osteoimmunology : interactions of the immune and skeletal systems"
"Osteoimmunology : interactions of the immune and skeletal systems"@en
"Osteoimmunology : [interactions of the immune and skeletal systems : proceedings from the 1st International Conference and Osteoimmunology]"
"Osteoimmunology Interactions of the Immune and Skeletal Systems. Advances in Experimental Medicine and Biology, Volume 602"
"Osteoimmunology : Interactions of the Immune and skeletal systems II"
"Osteoimmunology Interactions of the Immune and skeletal systems II"
"Osteoimmunology : [Interactions of the immune and skeletal systems]"
"Osteoimmunology Interactions of the Immune and Skeletal Systems"@en
"Osteoimmunology Interactions of the Immune and Skeletal Systems"
"Osteoimmunology"
"Osteoimmunology"@en
"Osteoimmunology : [interactions of the Immune and Skeletal Systems]"

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