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Reviews the origins of molecular oncology, including technologies for cancer analysis, key pathways in human malignancies, and available pharmacologic therapies.
The first comprehensive reference to focus on the molecular development and treatment of the disease, Molecular Oncology of Breast Cancer provides authoritative information across the spectrum of modern breast cancer research and clinical care. Edited by two world-class experts in cancer pathology, drug development, and patient management, with contributions from over 50 experts, this ground-breaking text describes the genes, proteins, and biologic pathways that are being evaluated today and will be tested in the future to derive the molecular signature of each newly diagnosed breast cancer. For the first time, readers can now obtain, in a single volume, up-to-date information on how molecular-based tests are being used to identify predisposition, provide earliest detection, decide classification based on genetic fingerprint and predict therapy-specific outcomes. MOBC includes unique chapters on functional imaging and the impact of targeted therapies on the FDA approval process. This book gives readers vital, up-to-date information on important molecular discoveries that affect the everyday management of the breast cancer patient.
Successfully fighting cancer starts with understanding how it begins. This thoroughly revised 3rd Edition explores the scientific basis for our current understanding of malignant transformation and the pathogenesis and treatment of cancer. A team of leading experts thoroughly explain the molecular biologic principles that underlie the diagnostic tests and therapeutic interventions now being used in clinical trials and practice. Incorporating cutting-edge advances and the newest research, the book provides thorough descriptions of everything from molecular abnormalities in common cancers to new approaches for cancer therapy. Features sweeping updates throughout, including molecular targets for the development of anti-cancer drugs, gene therapy, and vaccines...keeping you on the cutting edge of your specialty. Offers a new, more user-friendly full-color format so the information that you need is easier to find. Presents abundant figures-all redrawn in full color-illustrating major concepts for easier comprehension. Features numerous descriptions of the latest clinical strategies-helping you to understand and take advantage of today’s state-of-the-art biotechnology advances.
Demonstrating how the malfunction of normal molecular pathways and components can lead to cancer, this text explores how our understanding of these defective mechanisms can be harnessed to develop new targeted therapeutic agents.
Molecular Therapies of Cancer comprehensively covers the molecular mechanisms of anti-cancer drug actions in a comparably systematic fashion. While there is currently available a great deal of literature on anti-cancer drugs, books on the subject are often concoctions of invited review articles superficially connected to one another. There is a lack of comprehensive and systematic text on the topic of molecular therapies in cancer. A further deficit in the relevant literature is a progressive sub-specialization that typically limits textbooks on cancer drugs to cover either pharmacology or medicinal chemistry or signal transduction, rather than explaining molecular drug actions across all those areas; Molecular Therapies of Cancer fills this void. The book is divided into five sections: 1. Molecular Targeting of Cancer Cells; 2. Emerging and Alternative Treatment Modalities; 3. Molecular Targeting of Tumor-Host Interactions; 4. Anti-Cancer Drug Pharmacokinetics; and 5. Supportive Therapies.
At the midpoint of the 20th century, our knowledge of cancer was based on epide- ology and pathology, and treatment consisted of surgery and radiation therapy. At mid-century, Medawar and colleagues initiated the understanding of transplantation immunology, Farber described the first use of an antifolic drug to treat leukemia, and Jacobson and coworkers described the irradiation-protection effect of spleen cells. These observations opened the door to the development of chemotherapy and tra- plantation in the treatment of cancer. Despite the rapid development of these new disciplines, progress was usually based on empiric observations and clinical trials. The rapid advances in molecular biology at the end of the 20th century mark a new era in our knowledge of cancer. Molecular immunology, molecular genetics, mole- lar pharmacology, and the Human Genome Project are in the process of providing a level of understanding of cancer undreamed of in the past. Optimism is based on the firm belief that understanding at the molecular level will lead to better and earlier di- nosis, to new forms of treatment, and, most importantly, eventually to prevention of many types of cancer.
The basic knowledge of cell biology and molecular genetics in oncology is increasingly attracting the interest of clinical oncologists and is close to reaching a helpful application at the bedside. At present, it seems clear that the solution of the cancer problem lies within the comprehension of the intimate mechanisms leading to cell transformation and tumor progression as weIl as of the cancer-host relationship. According to this rationale every achievement in this context could drastically improve both diagnosis and therapy of neoplastic diseases. This={)ook represents the proceedings of the International Conference o~ Cancer: Biological Mechanisms and Clinical Applications, held in Rome on November 16-18, 1992. The meeting was organized by the Centro di Ricerche Oncologiche "Giovanni XXIII" of the Catholic University of Rome and the Consorzio Mario Negri Sud of S. M. Imbaro in collaboration with other colleagues from the Universities of Napoli and Bologna. As organizers and pmticipants to the Conference we think the meeting was a success, as was confirmed by the great interest raised in scientific and academic circles. The book collects contributions from leading scientists in all oncological m·eas ranging from molecular biology to immunology, diagnosis and therapy. The papers are organized into four sections: I - Molecular aspects of cell transformation and growth; II - Membrane receptors and signal transduction; III - Models for new therapeutical strategies; IV - Clinical Applications, following the strategy that chm·acterized the entire meeting: from molecule to bedside.
Cancer is a multifaceted and genomically complex disease and data obtained through high throughput technologies has provided near complete resolution of the landscape of how genomic, genetic and epigenetic mutations in cancerous cells effectively influence homeostasis of signaling networks within these cells, between cancerous cells, tumor microenvironment and at the organ level. Increasingly sophisticated information has helped us in developing a better understanding of the underlying mechanisms of cancer, and it is now known that intra-tumor genetic heterogeneity, cellular plasticity, dysregulation of spatio-temporally controlled signaling cascades, and loss of apoptosis are contributory in cancer development, progression and the development of resistance against different therapeutics. It is becoming progressively more understandable that earlier detection of pre-existing or emerging resistance against different therapeutics may prove to be helpful in personalizing the use of targeted cancer therapy. Despite the fact that there is a continuously increasing list of books, being guest edited by researchers, books on the subject are often composed of invited reviews without proper sequence and continuity and designed for a particular readership. This book progressively shifts and guides the readers from basic underlying mechanisms to translational approaches to treat cancer.
"Cancer is one of the major causes of death worldwide. Despite hundreds of clinical trials currently in progress for cancer patients, the success rate is still very low. Understanding the molecular aspects of cancer development, the discovery of new molecu"