Book DescriptionCancer Vaccines and Tumor Immunity offers a review of the basic scientific discoveries that have moved forward into clinical trials. Presented in the context of real-world human research and experimentation, these major scientific advances demonstrate how our understanding of immune activation, T-regulatory cells, and autoimmunity will impact cancer vaccine design. The authors also explain how vaccination in the context of bone marrow transplantation will open new avenues for clinical study in the future.
Table of Contents Contributors ForewordI. Introduction 1. Cancer Vaccines: Progress and PromiseII. Adjuvant Therapy: Enhancing the Endogenous Immune Response 2. Fully Synthetic Carboyhydrate-Based Antitumor Vaccines 3. Bacillus Calmette-Guerin Immunotherapy of Genitourinary Cancer 4. Stimulation of Toll-Like Receptor 9 for Enhancing VaccinationIII. Antigen-Specific Therapy: Novel Presentation of Peptide and Protein Antigens 5. Polyepitope Vaccines 6. Antigen-Specific Cancer Immunotherapy: HPV-Associated Cervical Cancer as a Model System 7. Poxviral Vectors for Cancer Vaccines: State of the Art 8. Immunotherapeutic Strategies Against Cancer Using Listeria monocytogenes as a Vector for Tumor Antigens 9. Coupling Innate and Adaptive Immunity with Yeast-BasedCancer ImmunotherapyIV. Cell-Based Therapy: Using Cancer Cells as a Means to Induce Specific Tumor Immunity 10. Allogeneic Whole-Cell Vaccines 11. Jump-Starting Tumor Immunity with Breast Cancer Therapeutics 12. T-Regulatory Cell Manipulation in Tumor Immunotherapy 13. Tumor Vaccination After Autologous HSCT: What Has Been Learned from Experimental Models 14. Vaccines in the Setting of Hematopoietic Stem Cell Transplantation 15. Intratumor Generation of Vigorous Antitumor Immune Responses 16. Cancer Immunotherapy: Untapping the Potential of Costimulatory Molecules Beyond CTLA-4V. Defining Effective Clinical Responses 17. Advances in Immune Monitoring Strategies for Cancer Vaccines and Immunotherapy 18. Immune Evaluation of Cancer Vaccines Index