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It has been generally accepted that angiogenesis is involved in the pathogenesis of hematological malignancies, like acute and chronic leukemia, lymphoma, myelodysplastic syndromes, myeloproliferative neoplasms and multiple myeloma. The extent of angiogenesis in the bone marrow has been correlated with disease burden, prognosis and treatment outcome. Reciprocal positive and negative interactions between tumor cells and bone marrow stromal cells, namely hematopoietic stem cells, fibroblasts, osteoblasts/osteoclasts, endothelial cells, endothelial progenitor cells, T cells, macrophages and mast cells, mediated by an array of cytokines, receptors and adhesion molecules, modulate the angiogenic response in hematological tumors. More recently, it has been emphasized the pro-angiogenic role of the so called “vascular niche”, indicating a site rich in blood vessels where endothelial cells and mural cells such as pericytes and smooth muscle cells create a microenvironment that affects the behavior of several stem and progenitor cells, in hematological malignancies.
Top Investigators Explore the Complexities of Angiogenesis Cancer Research The targeting of tumor angiogenesis has evolved into one of the most widely pursued therapeutic strategies. However, as of yet, no antiangiogenic agent used as a monotherapy has demonstrated a survival benefit in a randomized Phase III trial. The combination of bev
Angiogenesis is the growth of blood vessels from the existing vasculature. The field of angiogenesis has grown enormously in the past 30 years, with only 40 papers published in 1980 and nearly 6000 in 2010. Why has there been this explosive growth in angiogenesis research? Angiogenic therapies provide a potential to conquer cancer, heart diseases, and more than 70 of life's most threatening medical conditions. The lives of at least 1 billion people worldwide could be improved with angiogenic therapy, according to the Angiogenesis Foundation. In this little book, we provide a simple approach to understand the essential elements of the angiogenic process, we critique the most powerful angiogenesis assays that are used to discover proangiogenic and antiangiogenic substances, and we provide an in-depth physiological perspective on how angiogenesis is regulated in normal, healthy tissues of the human body. All tissues of the body require a continuous supply of oxygen to burn metabolic substrates that are needed for energy. Oxygen is conducted to these tissues by blood capillaries: more capillaries can improve tissue oxygenation and thus enhance energy production; fewer capillaries can lead to hypoxia and even anoxia in the tissues. This means that angiogenic therapies designed to control the growth and regression of blood capillaries can be used to improve the survival of poorly perfused tissues that are essential to the body (heart, brain, skeletal muscle, etc.) and to rid the body of unwanted tissues (tumors). Table of Contents: Overview of Angiogenesis / Angiogenesis Assays / Regulation: Metabolic Factors / Regulation: Mechanical Factors / Glossary / References / Author Biographies
Angiogenesis is attracting increased scientific and clinical interest. The identification of novel mediators and targeting molecules has led to significant progress in our understanding of tumor angiogenesis and tumor vessel targeting. Important advances in cancer treatment have already emerged, and in the future, blood vessel targeting will play a significant role within individualized therapeutic strategies. This volume provides a general overview of the latest developments in angiogenesis inhibition in cancer. All aspects from the bench to the bedside are considered, with detailed attention both to basic research and to its translation into clinical practice. Individual chapters are devoted to the roles of angiopoietins, HIF-1a, chemokines, PDGF and VEGF, and vascular integrins. The latest results of clinical trials are presented, and various advanced targeting strategies are discussed. This book will be invaluable to all who wish to learn of the most recent advances in this exciting field.
"The book presents recent advances in the field of angiogenesis and antiangiogenesis. Starting with the hypothesis of Judah Folkman that tumor growth is angiogenesis dependent, this area of research now has a solid scientific foundation. Tumor growth, meta"
The inhibition of angiogenesis is an effective mechanism of slowing down tumor growth and malignancies. The process of induction or pro-angiogenesis is highly desirable for the treatment of cardiovascular diseases, and wound healing disorders. Efforts to understand the molecular basis, both for inhibition and induction, have yielded fascinating results. Anti-angiogenesis Drug Discovery and Development provides an excellent compilation of well-written reviews on various aspects of the anti-angiogenesis process. These reviews have been contributed by leading practitioners in drug discovery science and highlight the major developments in this exciting field in the last two decades. The feast of these reader-friendly reviews on topics of great scientific importance – many of which are considered significant medical breakthroughs, makes this series excellent reading both for the novice as well as for expert medicinal chemists and clinicians. The fifth volume brings together reviews on the following topics: - Targeted therapy for tumor vasculature - Anti-angiogenic therapy for breast and prostate cancers (including information updates on clinical trials) - Microbe-based and other novel antiangiogenesis therapies such as chromene-based agents
Tumor angiogenesis is one of the most prominent mechanisms driving tumor development and progression. This book is written by internationally renowned experts. Part 1 describes the basic mechanisms. Tumor-angiogenic signaling pathways are presented as new potential targets for anti-angiogenic therapy. Part 2 reviews the efforts made to validate new targets and to show efficacy in animals. Part 3 is devoted to the clinical development of the novel anti-angiogenic drugs and their use in clinical practice.
In 1971, J. Folkman published in the “New England Journal of Medicine” a hypothesis that tumor growth is angiogenesis-dependent. Folkman introduced the concept that tumors probably secrete diffusible molecules that could stimulate the growth of new blood vessels toward the tumor and that the resulting tumor neovascularization could conceivably be prevented or interrupted by angiogenesis inhibitors. Solid and haematological tumors consist of an avascular and a subsequent vascular phase. Assuming that this depends on the release of angiogenic factors, acquisition of angiogenic capability can be seen as an expression of progression from neoplastic transformation to tumor growth and metastasis. Beginning in the 1980’s, the biopharmaceutical industry began exploiting the field of antiangiogenesis for creating new therapeutic compounds for modulating new blood vessels in tumor growth. In 2004, Avastin (Bevacizumab), a humanized anti-VEGF monoclonal antibody, was the first angiogenesis inhibitor approved by the Food and Drug Administration for the treatment of colorectal cancer. At present, it has been estimated that over 20,000 cancer patients worldwide have received experimental form of antiangiogenic therapy. This book offers a historical account of the relevant literature. It also emphasizes the crucial and paradigmatic role of angiogenesis as a biological process and the significance of antiangiogenic approach for the treatment of tumors.
Anti-angiogenesis Strategies in Cancer Therapeutics provides a detailed look at the current status and future directions in the discovery and development of novel anti-angiogenesis strategies in oncology. This book highlights the different mechanisms involved in the modulation of angiogenesis, including inflammation, thrombosis, and microRNA, and shows how nanotechnology can further enhance the potential of existing and new anti-angiogenesis approaches. Written for industry scientists, researchers, oncologists, hematologists, and professors and students in the field, this comprehensive book covers all aspects of anti-angiogenesis strategies and their differences. Covers important preclinical models and clinical trials in the discovery and development of novel anti-angiogenesis agents Reviews FDA-approved anti-angiogenesis agents Illustrates the value of nanotechnology in improving the utility of anti-angiogenesis agents Offers insight into the development of novel anti-angiogenesis agents and future direction in this area
Why a new book on angiogenesis and why now? For the first time concepts proposed over 30 years ago have found clinical validation. In the last two years the first antiangiogenic agents have been approved by the FDA for the treatment of cancer and age-related macular degeneration. Not surprisingly, this clinical success has raised a new set of basic