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Hematopoietic Stem Cell Biology
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. Thes...
Thomas' Hematopoietic Cell Transplantation
NEW - the leading book in its field now fully updated andrevised! Click here to access two FREE sample chapters! An Essential resource for all hematologists, oncologists,pathologists, pediatricians, immunologists and all othersinterested in this dynamic area of medicine! Why you should buy this book.... Extensive coverage of subject area - from the scientific basisto the view of the future Includes all experimental research and clinicalapplication Combined the knowledge and expertise of over 170 internationalspecialists Clear structure and layout Over 500 illustrations, including a colour plate section Why buy the NEW edition...... New and fully revised to reflect the latest developments inthis fast moving field 10 new chapters, covering some of the latest developments - seebelow for the complete tables of content
Advances in Phytonanotechnology for Treatment of Various Diseases
Several plant bioactives or plant-derived therapeutic molecules have been used against life-threatening diseases and their nanoparticle-mediated delivery greatly improves therapeutic efficacy. Advances in Phytonanotechnology for Treatment of Various Diseases aims to describe past and recent advances achieved in the field of phytonanotechnology. The chapters of this book provide thorough knowledge of medicinal plants, plant bioactives, plant extract-based nanoparticle synthesis, delivery of plant bioactives through nanoparticles, and their therapeutic activity against life-threatening diseases. This book focuses on the therapeutic activity of phytocomponents present in plants from diverse fam...
Communication Yearbook 22
The Communication Yearbook annuals publish diverse, state-of-the-discipline literature reviews that advance knowledge and understanding of communication systems, processes, and impacts across the discipline. Sponsored by the International Communication Association, each volume provides a forum for the exchange of interdisciplinary and internationally diverse scholarship relating to communication in its many forms. This volume re-issues the yearbook from 1999.
Handbook of Dendritic Cells, 3 Volume Set
Dendritic cells play a key role in human immunoregulation. They are the most potent form of antigen presenting cells, often referred to as "pacemakers of the immune system". The properties of dendritic cells pave the way for multifaceted clinical applications: they can be used to step up immune response to tumor and infectious disease antigens and they are a valuable tool in transplantation medicine. Information available on these important cells continues to escalate, making it almost impossible for anyone working in the field to keep up with developments. This is the most comprehensive handbook on dendritic cells, opening with an introduction by Ralph M. Steinman and written by international experts. It covers all aspects from molecular cell biology to clinical applications and highlights the role of dendritic cells in fighting cancer, virus infections, and autoimmune diseases.
Hematopoietic Stem Cells V
In this volume, contributing scientists discuss the most recent developments in hematopoietic stem cell research and their clinical implications. The major topics covered are genetic and epigenetic regulation of stem cells, stem cell plasticity, stem cell regulation and self-renewal, embryonic stem cells as well as malignant stem cell biology. The field of hematopoietic stem cell biology is rapidly advancing, and new ideas and concepts supported by fascinating new technologies captivated the interest and excitement of the participants of the meeting. The sharing of new ideas and technologies with other scientists represents an invaluable stimulus, particularly for the young investigators in the field. It is hoped that the spirit of the meeting will be carried forward to the readers of this volume and that its content will stimulate new and fruitful projects in the field of stem cell biology.
