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Targets for Cancer Chemotherapy
In Targets for Cancer Chemotherapy: Transcription Factors and Other Nuclear Proteins, a panel of leading basic researchers, pharmaceutical scientists, and clinical oncologists explain in detail the therapeutically-relevant protein targets that contribute to cancer pathology and spell out their implications for cancer drug discovery and clinical application. The authors identify and illuminate selected transcription factor oncoproteins and tumor suppressors, together with nuclear proteins that are central to the phenotype of the tumor cell involved in chromatin control. The emphasis is on new targets and approaches to cancer treatment derived from the cancer cell cycle, gene control targets, and angiogenesis.
Cancer
With an editorial board containing 11 Nobel laureates, this invaluable collection of high-quality articles on cancer biology is taken from the highly acclaimed R.A. Meyer's Encyclopedia. Clearly divided into three main sections, this ready reference covers molecular mechanisms, organ specific cancers, as well as diagnostic and therapeutic approaches. The articles are uniformly structured for ease of use, carefully designed to aid readers of all levels of expertise. To this end, each chapter includes a glossary of the most important keywords, a concise summary of the article and comprehensive literature references.
Histone Deacetylases
A panel of leading investigators summarizes and synthesizes the new discoveries in the rapidly evolving field of histone acetylation as a key regulatory mechanism for gene expression. The authors describe what has been learned about these proteins, including the identification of the enzymes, the elucidation of the enzymatic mechanisms of action, and the identification of their substrates and their partners. They also review the structures that have been solved for a number of enzymes-both alone and in complex with small molecule inhibitors-and the biological roles of the several histone deacetylases (HDAC) genes that have been knocked out in mice.
Deoxynucleoside Analogs in Cancer Therapy
Successful cancer chemotherapy relies heavily on the application of various deoxynucleoside analogs. Since the very beginning of modern cancer chemotherapy, a number of antimetabolites have been introduced into the clinic and subsequently applied widely for the treatment of many malignancies, both solid tumors and hematological disorders. In the latter diseases, cytarabine has been the mainstay of treatment of acute myeloid leukemia. Although many novel compounds were synthesized in the 1980s and 1990s, no real improvement was made. However, novel technology is now capable of elucidating the molecular basis of several inborn errors as well as some specific malignancies. This has enabled the ...
Encyclopedia of Cancer
The merging of different basic and clinical science disciplines towards the common goal of fighting against cancer has long ago called for the establishment of a comprehensive reference source both as a tool to close the language gap between clinical and basic science investigators and as a platform of information for students and informed laymen alike. The Encyclopedia of Cancer provides rapid access to focused information on all topics of cancer research for clinicians, research scientists and advanced students. Given the overwhelming success of the Second Edition, which appeared in 2009, and fast recent development in the different fields of cancer research, it has been decided to publish...
Oxford Textbook of Oncology
This textbook provides current information on best practice in multidisciplinary cancer care. Divided into six sections, the contributors look at the aetiology of cancer, patient care, population health and thethe management of specific types of disease. Written and edited by internationally recognised leaders in the field, the new edition of the Oxford Textbook of Oncology has been fully revised and updated, taking into consideration the advancements in each of the major therapeutic areas, and representing the multidisciplinary management of cancer. Structured in six sections, the book provides an accessible scientific basis to the key topics of oncology, examining how cancer cells grow and...
Immunotherapy of Cancer
Expert bench and clinical scientists join forces to concurrently review both the state-of-the-art in tumor immunology and its clinical translation into promising practical treatments. The authors explain in each chapter the scientific basis behind such therapeutic agents as monoclonal antibodies, cytokines, vaccines, and T-cells, and illustrate their clinical manipulation to combat cancer. Additional chapters address statistical analysis-both of clinical trials and assay evaluations-methods for the discovery of antigens, adoptive T cell therapy, and adaptive and innate immunity. The challenges in clinical trial design, the need for biomarkers of response-such as novel imaging techniques and immunologic monitoring-and the new advances and directions in cancer immunotherapy are also fully examined.
Translational Medicine
Die Krebsforschung gehört zu den vielversprechendsten Gebieten der translationalen Medizin, Die Experten von EMCBMM präsentieren eine einheitliche Sicht auf das Fachgebiet, von der Tumorbiologie über neue Therapien bis hin zu modernsten Diagnoseverfahren.
Combination Cancer Therapy
Expert physician-scientists and clinicians review those combinations of novel target agents classic chemotherapies that hold the most promise for the future of medical oncology, and detail their optimal sequence, pharmacokinetic interactions, and interaction with downstream cellular signals. The combinations run the gamut of targeted therapies against cell surface receptors (EGF-R and HER2), the cell cycle (the CDKs), signal transduction events (PKC and NF-kB), apoptosis (bcl-2), as well as focused therapies in ovarian cancer, hematologic diseases, and breast cancer. The authors emphasize novel translational approaches that are rapidly moving from the laboratory bench top to the patient's bedside for the future treatments in cancer therapy.
