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One of the nation's leading surgeons tells the compelling story of his headline-making experiments--scientific breakthroughs that may revolutionize the treatment of cancer. Haunted by the question "Can the body rid itself of cancer?" Dr. Rosenberg seized upon immunotherapy as the most promising path toward curing the disease and has since achieved worldwide renown for his work. 8 pages of photographs.
The Transformed Cell deals with many of the differences that may exist between transformed cells and their normal counterparts. Topics covered range from malignancy and the cell surface to cell cycle regulation in normal and transformed cells; phenotypic expression of malignant transformation and its relationship to energy metabolism; and virus-induced transformation. The involvement of cyclic nucleotides in transformation is also discussed, together with intracellular pH and growth control in eukaryotic cells. This book is comprised of 12 chapters and begins with a brief description of terminology and basic concepts relating to cancer cells, as well as some comments on tumorigenicity and cell transformation. The next two chapters explore the evidence for and against the possible correlation of in vivo tumorigenicity to in vitro changes in the cytoskeletal system; anchorage-dependent growth; plasminogen activator production; agglutinability by lectins; and cell surface and plasma membrane properties. The regulation of cell proliferation and the relationships between ion movement and energy metabolism in normal and transformed cells are then examined, along with the transformation of normal cells by infection with new genetic material from tumor viruses. The remaining chapters focus on selected cellular properties that have been purported to differ between the normal and transformed cell, with particular reference to cyclic nucleotides; polyamine metabolism; cell viscosity; mobility of cellular water; intracellular pH; and element concentration. This monograph will be of interest to biologists and medical practitioners devoted to understanding cancer cell biology and cancer therapy.
The study of the phenotypic and genetic features that characterize the malignant cell is a rapidly growing and changing field. Clearly new insights into the processes involved in normal and abnormal cell growth will facilitate our understanding of events relevant to cancer and cellular differentiation. Early studies on genetic fea tures associated with cancer focused on chromosomal abnormalities that were observable in several human malignancies. The more recent examination of onco genes and the proteins they encode has helped pinpoint many steps in different processes that might be involved in cancer. Immunologic studies of cancer have also developed from an imprecise series of investigations to a more detailed molecular examination of cell-surface struc tures that can be recognized immunologically. In the course of the development of modern tumor immunology, it has become clear that many of the antigens that can be recognized appear to be the products of genes involved in cell growth. Fur thermore, changes in the cell surface of malignant cells have often been found to include alteration of nonprotein constituents.
Forty years ago, three medical researchers--Oswald Avery, Colin MacLeod, and Maclyn McCarty--made the discovery that DNA is the genetic material. With this finding was born the modern era of molecular biology and genetics.
One of Time Magazine’s Top 100 Inventors in History shares an insider’s story of the cellphone, how it changed the world—and a view of where it’s headed. While at Motorola in the 1970s, wireless communications pioneer Martin Cooper invented the first handheld mobile phone. But the cellphone as we know it today almost didn’t happen. Now, in Cutting the Cord, Cooper takes readers inside the stunning breakthroughs, devastating failures, and political battles in the quest to revolutionize—and control—how people communicate. It’s a dramatic tale involving brilliant engineers, government regulators, lobbyists, police, quartz crystals, and a horse. Industry skirmishes sparked a political war in Washington to prevent a monopolistic company from dominating telecommunications. The drama culminated in the first-ever public call made on a handheld, portable telephone—by Cooper himself. The story of the cell phone has much to teach about innovation, strategy, and management. But the story of wireless communications is far from finished. This book also relates Cooper’s vision of the future. From the way we work and the way children learn to the ways we approach medicine and healthcare, advances in the cellphone will continue to reshape our world for the better.
A fundamental and groundbreaking reassessment of how we view and manage cancer When we think of the forces driving cancer, we don’t necessarily think of evolution. But evolution and cancer are closely linked because the historical processes that created life also created cancer. The Cheating Cell delves into this extraordinary relationship, and shows that by understanding cancer’s evolutionary origins, researchers can come up with more effective, revolutionary treatments. Athena Aktipis goes back billions of years to explore when unicellular forms became multicellular organisms. Within these bodies of cooperating cells, cheating ones arose, overusing resources and replicating out of control, giving rise to cancer. Aktipis illustrates how evolution has paved the way for cancer’s ubiquity, and why it will exist as long as multicellular life does. Even so, she argues, this doesn’t mean we should give up on treating cancer—in fact, evolutionary approaches offer new and promising options for the disease’s prevention and treatments that aim at long-term management rather than simple eradication. Looking across species—from sponges and cacti to dogs and elephants—we are discovering new mechanisms of tumor suppression and the many ways that multicellular life-forms have evolved to keep cancer under control. By accepting that cancer is a part of our biological past, present, and future—and that we cannot win a war against evolution—treatments can become smarter, more strategic, and more humane. Unifying the latest research from biology, ecology, medicine, and social science, The Cheating Cell challenges us to rethink cancer’s fundamental nature and our relationship to it.
Adhesive Interactions in Normal and Transformed Cells describes the basic mechanisms of the ability of tissue cells to attach to each other and to the extracellular matrix. These adhesive interactions are pivotal regulators of main cellular functions, such as proliferation, survival and migration. The adhesive interactions are involved in embryonic development, regeneration, and also in inflammation and degeneration processes, which are at the basis of many diseases. Serious alterations in cell adhesion caused by the oncogenic transformation play a key role in cancer invasion and metastasis. This volume provides comprehensive information about structural, mechanistic and signaling aspects of adhesive interactions in both normal and cancer cells in comparison. Integration of such aspects of the adhesive process as structure, relation to cell systems of receptors and cytoskeleton, function, signaling pathways, and the alterations in tumor cells constitutes the strongest point of this work. The results of the long-time author’s research are included in the book. The author was one of pioneers, who used scanning electron microscopy (SEM) to study the cell surface morphology of normal cultured cells and the cells underwent the oncogenic transformation, processes of their attachment to and spreading on the surfaces of a solid substratum, and also surprising ability of the cells to respond to various geometric configurations of the substrata surfaces. Adhesive Interactions in Normal and Transformed Cells has both biological and medical aspects and, therefore, it can be interesting not only for cell biologists, developmental biologists and cancer researchers, but also for physicians. It is intended for researchers, postdocs, undergraduate and graduate students.
Holland-Frei Cancer Medicine, Ninth Edition, offers a balanced view of the most current knowledge of cancer science and clinical oncology practice. This all-new edition is the consummate reference source for medical oncologists, radiation oncologists, internists, surgical oncologists, and others who treat cancer patients. A translational perspective throughout, integrating cancer biology with cancer management providing an in depth understanding of the disease An emphasis on multidisciplinary, research-driven patient care to improve outcomes and optimal use of all appropriate therapies Cutting-edge coverage of personalized cancer care, including molecular diagnostics and therapeutics Concise, readable, clinically relevant text with algorithms, guidelines and insight into the use of both conventional and novel drugs Includes free access to the Wiley Digital Edition providing search across the book, the full reference list with web links, illustrations and photographs, and post-publication updates