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This volume of Molecular Biology of Hematopoiesis is dedicated to many inter national scientists and clinicians for their contribution to the field of Hematology/ Oncology presented at the 11th International Symposium on Molecular Biology of Hematopoiesis, which was held in Bormio, Italy, June 25-29, 1998. The continuous support of the Presidents of the meeting, Professor F. Takaku, President of Jichi University, and E. D. Thomas, Nobel Laureate, was greatly acknowledged, especially Professor Takaku, for his vision and support for development of gene therapy in Japan. New information on BMT for autoimmune disease and organ transplantation was presented at the symposium and is published in this volume. Several new findings on gene therapy/transfer into HSC were presented by E. F. Vanin and A. Nienhuis, K. Humphries, 1. A. Nolta, H. E. Heslop, and M. K. Brenner. Professors S. Asano and K. Tani presented new studies on gene transfer into primates. Among the highlights were the new papers on gene transfer presented by G. Wage maker, N. G. Abraham, and M. Onoderea from R. M. BJaese's group. The use of BMT for organ transplant and autoim mune disease was updated and a representative paper is presented in this volume.
A concise full-color review of the mechanisms of blood diseases and disorders – based on a Harvard Medical School hematology course 4 STAR DOODY'S REVIEW! "This is a superb book. Deceptively small, yet packs a wallop. The emphasis on principles instead of practice is welcome....The text is clear, concise, and surprisingly approachable for what could have been a very dense and dry discussion. I could not put this book down and read it entirely in one sitting. When was the last time anyone found a hematology textbook so riveting?"--Doody's Review Service Hematological Pathophysiology is a well-illustrated, easy-to-absorb introduction to the physiological principles underlying the regulation and function of blood cells and hemostasis, as well as the pathophysiologic mechanisms responsible for the development of blood disorders. Featuring a strong emphasis on key principles, the book covers diagnosis and management primarily within a framework of pathogenesis. Authored by world-renowned clinician/educators at Harvard Medical School, Hematological Pathophysiology features content and organization based on a hematology course offered to second year students at that school. The book is logically divided into four sections: Anemias and Disorders of the Red Blood Cell, Disorders of Hemostasis and Thrombosis, Disorders of Leukocytes, and Transfusion Medicine; it opens with an important overview of blood and hematopoietic tissues. Features Succinct, to-the-point coverage that reflects current medical education More than 200 full-color photographs and renderings of disease mechanisms and blood diseases Each chapter includes learning objectives and self-assessment questions Numerous tables and diagrams encapsulate important information Incorporates the feedback of 180 Harvard medical students who reviewed the first draft -- so you know you’re studying the most relevant material possible
This volume of Molecular Biology of Hematopoiesis is dedicated to John W. Adam son, M. D. , Tadamitsu Kishimoto, M. D. , Robert C. Gallo, M. D. , Arthur W. Nienhuis, M. D. , and Franco Mandelli, M. D. , for their contributions in developing an overall view of the state-of-the-art knowledge in the field of hematopoiesis. Richard Champlin, among other renowned clinicians, presented updated information on stem cells and T-cell depletion for bone marrow transplant. A clinical update on thrombopoietin was presented by Pamela Hunt of Amgen and by Kenneth Kaushansky. Arthur Nienhuis' and Katherine Turner's contribu tions to our current knowledge and advances in the fields of growth factors and gene transfer were also recognized during the 9th Symposium on Molecular Biology of Hematopoiesis in Genoa. The chapters cover such diverse areas as preclinical and clinical updates on growth factors and positive and negative regulatory molecules. "Advances in Leukemia: Mechanism and Treatment by Interferon" was presented by Professor Sante Tura. Readers will find presentation of exciting advances that have occurred in the area of hematopoiesis. The elucidation of gene structures of key growth factor proteins such as IL-12 and IL-II will lead to new insights and new approaches in understanding the regulation of hematopoiesis, as well as application of new growth factors.
Now in its second edition, Modern Hematology: Biology and Clinical Management reflects the major advances in the understanding, diagnosis, and treatment of blood disorders. It describes the latest clinical and scientific developments as well as details targeted and molecular therapies. The book brings together facts, concepts, and protocols important for the practice of hematology. In 23 chapters, all major blood diseases are covered, as well as rare diseases that are of scientific interest. As in the previous edition, each chapter is illustrated by tables, figures, and a selection of color plates.
Stem cells are the focus of intense interest from a growing, multidisciplinary community of investigators with new tools for isolating and characterizing these elusive cell types. This volume, which features contributions from many of the world's leading laboratories, provides a uniquely broad and authoritative basis for understanding the biology of stem cells and the current excitement about their potential for clinical exploitation. It is an essential work of reference for investigators in embryology, hematology, and neurobiology, and their potential for clinical exploitation. It is an essential work of reference for investigators in embryology, hematology, and neurobiology, and their collaborators in the emerging field of regenerative medicine.
In the summer of 1988, my developmental biology professor announced to the class that hematopoietic stem cells (HSCs) had finally been purified. Somehow, I never forgot the professor’s words. When I started working in Dr. Irv Weissman’s labo- tory at Stanford as a postdoctoral fellow, I realized that the findings mentioned by the professor were from Weissman’s laboratory and had been published in a 1988 edition of the journal Science. It has been over 20 years since the publication of that seminal paper, and since then tremendous advances in understanding the biology and maturation of HSCs, namely the process of hematopoiesis, which includes lymphocyte development, have been made. These discoveries were made possible in part by advancements in technology. For example, recent availability of user friendly fluorescence activated cell sorting (FACS) machines and monoclonal an- bodies with a variety of fluorescent labels has allowed more scientists to sort and analyze rare populations in the bone marrow, such as HSCs. All classes of hematopoietic cells are derived from HSCs. Stem cell biology draws enormous attention not only from scientists, but also from ordinary people because of the tremendous potential for development of new therapeutic application to diseases that currently lack any type of effective therapy. Thus, this type of “regenerative medicine” is a relatively new and attractive field in both basic science and clinical medicine.
Since its first publication more than 35 years ago, MacSween’s Pathology of the Liver, by Drs. Alastair D. Burt, Linda D. Ferrell, and Stefan G. Hübscher, has established itself as the definitive reference on liver pathology. The 7th Edition continues the tradition of excellence with more than 1,000 high-quality illustrations, coverage of the new and emerging diagnostic applications and techniques that pathologists must be familiar with, an up-to-date review of drug-induced injury, and much more. A must-have for every surgical pathologist, MacSween’s remains the most authoritative and comprehensive book in its field. Provides comprehensive, state-of-the-art coverage of all malignant and benign hepatobiliary disorders from an international "who’s who" in the field. Helps you quickly recognize the wide variety of liver appearances that result from infections, tumors, and tumor-like lesions, as well as organ damage caused by drugs and toxins. Features 1,000+ full-color illustrations that provide a complete visual guide to each tumor or tumor-like lesion and assist in the recognition and diagnosis of any tissue sample you’re likely to encounter. Incorporates relevant data from ancillary techniques (immunohistochemistry, cytogenetics, and molecular genetics), giving you the tools required to master the latest breakthroughs in diagnostic technology. Includes an updated chapter on mechanisms of liver disease, including coverage of regression and remodeling of disease and new information on next generation sequencing; an up-to-date review of drug-induced injury, including the effects of herbal and alternative medicines. Expert ConsultTM eBook version included with purchase. This enhanced eBook experience allows you to search all of the text, figures, Q&As, and references from the book on a variety of devices.
This book is intended as a comprehensive resource for clinicians and researchers seeking in-depth information on geriatric oncology. The coverage encompasses epidemiology, the biology and (patho)physiology of aging and cancer, geriatric assessment and management, hematologic malignancies, solid tumors, issues in patient care, and research methods. Since cancer is a disease of aging and people are living longer, most cancer patients are now aged 70 and older. Yet the more we age, the more diverse we become in terms of our health, biologic fitness, and cancer behavior. Typically, however, general oncology clinical trials address only a selected healthier and younger population of patients. Geriatric oncology is the area of oncology that addresses these issues but while a wealth of knowledge has been accumulated, information is often difficult to retrieve or insufficiently detailed. The SpringerReference program, in which this book is published, offers an ideal format for overcoming these limitations since it combines thorough coverage with access to living editions constantly updated chapter by chapter via a dynamic peer-review process, ensuring that information remains current and pertinent.
This book collects articles on the biology of hematopoietic stem cells during embryonic development, reporting on fly, fish, avian and mammalian models. The text invites a comparative overview of hematopoietic stem cell generation in the different classes, emphasizing conserved trends in development. The book reviews current knowledge on human hematopoietic development and discusses recent breakthroughs of relevance to both researchers and clinicians.
"A subject collection from Cold Spring Harbor perspectives in biology."