Molecular Diagnostics and Treatment of Pancreatic Cancer describes the different emerging applications of systems biology and how it is shaping modern pancreatic cancer research. This book begins by introducing the current state of the art knowledge, trends in diagnostics, progress in disease model systems as well as new treatment and palliative care strategies in pancreatic cancer. Specific sections are dedicated to enlighten the readers to newer discoveries that have emerged from gene expression profiling, proteomics, metabolomics and systems level analyses of pancreatic cancer datasets. First of a kind and novel network strategies to understand oncogenic Kras signaling in pancreatic tumors are presented. The attempts to computationally model and prioritize microRNAs that cause pancreatic cancer resistance are also highlighted.
Addressing this important area, Molecular Diagnostics and Treatment of Pancreatic Cancer provides insights into important network evaluation methodologies related to pancreatic cancer related microRNAs targetome. There are dedicated chapters on critical aspects of the evolving yet controversial field of pancreatic cancer stems cells. The work concludes by discussing the applications of network sciences in pancreatic cancer drug discovery and clinical trial design.
Table of Contents
1. An Integrated Systems Approach to the Study of Pancreatic Cancer 2. Systems Biology of Pancreatic Cancer: The Role of Tumor-Microenvironment Communication in Development, Progression and Therapy Resistance 3. Proteomics of Pancreatic Cancer Stem Cells 4. Systems and Network Guided Pancreatic Cancer Drugs 5. Prioritizing Pancreatic Cancer Related miRNAs Using Systems Platform 6. Pancreatic Proteome Guided Biomarker Discovery 7. Proteomic Analysis of Pancreatic Biopsies 8. RNAi Screen in Pancreatic Cancer Drug Development 9. Modeling Apoptotic Signaling in Pancreatic Cancer 10. Genetic, Epigenetic, and Proteomic Evaluation Post Laser Microdissection of Pancreatic Tumors 11. Proteomic Analysis of Gemcitabine Toxicity 12. Understanding Pancreatic Cancer through Proteomics of Stellate Cells in Rat Models 13. Genome Wide CpG Profiling of Intraductal Papillary Mucinous Neoplasms of the Pancreas 14. Proteomic Profiling of Archival Lesions in Pancreatic Cancer 15. Computational Assessment of Benign and Potentially Malignant Pancreatic Cysts 16. Pancreatic Cancer Pharmacogenomics 17. Systems Biology on Pancreatic Splice Variants 18. Systems and Network for Pancreatic Cancer Drug Discovery
