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...

An authoritative survey of the scientific background for therapeutic cancer vaccines, the challenges to their development, and their current uses in treating cancer. The authors examine the basic issues that effect all vaccines (such as immune adjuvants and prime-boost strategies), describe the methods for antigen discovery, and review the preclinical development phases for each major vaccine strategy. They also spell out the clinical results for cancer vaccines now beginning to be used in the treatment of many common cancers.

Expert laboratory and clinical researchers from around the world review how to design and evaluate studies of tumor markers and examine their use in breast cancer patients. The authors cover both the major advances in sophisticated molecular methods and the state-of-the-art in conventional prognostic and predictive indicators. Among the topics discussed are the relevance of rigorous study design and guidelines for the validation studies of new biomarkers, gene expression profiling by tissue microarrays, adjuvant systemic therapy, and the use of estrogen, progesterone, and epidermal growth...

This unique volume traces the critically important pathway by which a "molecule" becomes an "anticancer agent. " The recognition following World War I that the administration of toxic chemicals such as nitrogen mustards in a controlled manner could shrink malignant tumor masses for relatively substantial periods of time gave great impetus to the search for molecules that would be lethal to specific cancer cells. Weare still actively engaged in that search today. The question is how to discover these "anticancer" molecules. Anticancer Drug Development Guide: Preclinical Screening, Clinical...

A panel of leading academic and pharmaceutical investigators takes stock of the remarkable work that has been accomplished to date with proteasome inhibitors in cancer, and examines emerging therapeutic possibilities. The topics range from a discussion of the chemistry and cell biology of the proteasome and the rationale for proteasome inhibitors in cancer to a review of current clinical trials underway. The discussion of rationales for testing proteasome inhibitors in cancer models covers the role of the proteasome in NF-kB activation, the combining of conventional chemotherapy and radiation...

A cutting-edge review of the important issues underlying the therapeutic use of nucleic acid-mediated gene silencing. Topics range from basic methodology and delivery to targeting and clinical targets. The authors thoroughly explain the latest developments in RNA biology, as well as the underpinnings of RNA interference, oligodeoxynucleotide delivery into cells, and strategies for targeting these molecules to accessible regions within the mRNA. They also provide some examples of how these new therapeutic compounds are being used clinically.

A comprehensive review of the recent developments in DNA repair that have potential for translational and clinical applications. The authors explain in detail the various mechanisms by which cancer cells can circumvent anticancer therapy and limits its usefulness in patients. They also review the clinical impact of such novel inhibitors of DNA repair mechanisms as methylguanine-DNA-methyltransferase. Also examined are inhibitors of other DNA repair enzymes such as PARP and DNA-PK, now under development and close to clinical trials. The book captures-for both cancer researchers and practicing...

Leading oncologists, hematologists, and nephrologists comprehensively review the role of HGFs in clinical practice, explain the molecular basis of their effects, and consider potential future developments. The authors focus on the use of HGFs in oncology, describing their cutting-edge application to patients with lung cancer, Hodgkin's and nonhodgkin's lymphoma, breast cancer, chronic lymphocytic leukemia, AIDS-related malignancies, myelodysplastic syndromes, and aplastic anemias. Among the HGFs described are granulocyte colony-stimulating factor, erythropoietc factors, thrombopoietic...

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...

Leading researchers, from the Novartis group that pioneered Gleevec/Glivec(TM) and around the world, comprehensively survey the state of the art in the drug discovery processes (bio- and chemoinformatics, structural biology, profiling, generation of resistance, etc.) aimed at generating PTK inhibitors for the treatment of various diseases, including cancer. Highlights include a discussion of the rationale and the progress made towards generating "selective" low molecular-weight kinase inhibitors; an analysis of the normal function, role in disease, and application of platelet-derived growth...