Genetics of Bone Biology and Skeletal Disease

· · ·
· Academic Press
電子書
634
頁數
符合資格

關於這本電子書

This book identifies and analyzes the genetic basis of bone disorders in humans and demonstrates the utility of mouse models in furthering the knowledge of mechanisms and evaluations of treatments. The book is aimed at all students of bone biology and genetics, and with this in mind, it includes general introductory chapters on genetics and bone biology and more specific disease-orientated chapters, which comprehensively summarize the clinical, genetic, molecular genetic, animal model, functional and molecular pathology, diagnostic, counselling and treatment aspects of each disorder.
  • Saves academic, medical, and pharma researchers time in quickly accessing the very latest details on a broad range of genetic bone issues, as opposed to searching through thousands of journal articles
  • Provides a common language for bone biologists and geneticists to discuss the development of bone cells and genetics and their interactions in the development of disease
  • Researchers in all areas bone biology and genetics will gain insight into how clinical observations and practices can feed back into the research cycle and will, therefore, be able to develop more targeted genomic and proteomic assays
  • For those clinical researchers who are also MDs, correct diagnosis (and therefore correct treatment) of bone diseases depends on a strong understanding of the molecular basis for the disease

關於作者

Professor Thakker has been May Professor of Medicine since 1999 and heads a group of scientists that investigate the pathophysiology of human diseases. This team has carried out analyses of more than 15 disorders, with identification of defective genes and functional studies that explain disease phenotypes. This resulted in the elucidation of signaling and regulatory pathways downstream of the calcium-sensing receptor and their physiological relevance; molecular mechanisms of endocrine tumor formation and potential new therapeutic targets; and molecular and cellular aspects of renal tubular physiology. Professor Thakker’s work has been internationally recognized and received awards including the Louis V. Avioli Founder’s Award from the ASBMR; the Parathyroid Medal from the FRB; the Jack W. Coburn Endowed Lectureship from the ASN; the International Research Prize from the ASBMR; and the Dale Medal from the Society for Endocrinology. Professor Thakker was elected a Fellow of the Royal Society in 2014.

Michael P. Whyte, M.D. is Professor of Medicine, Pediatrics, and Genetics at the Washington University School of Medicine, a staff member of Barnes-Jewish Hospital and St. Louis Children’s Hospital, and Medical-Scientific Director at the Center for Metabolic Bone Disease and Molecular Research, Shriners Hospital for Children in St. Louis, Missouri. Dr. Whyte’s research interests include the cause, outcome, and treatment of heritable disorders of bone and mineral metabolism in children and adults. Included are genetic forms of rickets such as hypophosphatasia and X-linked hypophosphatemia, brittle bone diseases like osteogenesis imperfecta, conditions that cause dense bones such as osteopetrosis, and disorders of accelerated skeletal turnover including juvenile Paget’s disease. Dr. Whyte has authored or coauthored more than 300 scientific papers or book chapters concerning these disorders.

John Eisman AO is Director of Clinical Translation and Advanced Education at Garvan. From 1984 to December 2011, he was Garvan's Director of Osteoporosis and Bone Biology. Professor Eisman was Editor-in-Chief of the Journal of Bone and Mineral Research, is a past member of the Board of the International Bone and Mineral Society and of the Council of the American Society for Bone and Mineral Research. He is a co-founder and past-President of the Australia and New Zealand Bone and Mineral Society. The focus of Professor Eisman’s research is the epidemiology and genetics of osteoporosis, encompassing population, family, and twin studies as well as molecular and cellular mechanisms for gene effects. His major commitment and focus are translating osteoporosis research findings to real improvements in health care delivery to the general community through the education of patients and their doctors.

Takashi Igarashiworks in the Department of Pediatrics, Faculty of Medicine, The University of Tokyo, Mejirodai, Japan.

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