Explains models from natural flash systems Discusses theoretical considerations of flash systems Presents approaches and procedures for designing synthetic flash systems Explores methods for preparing flash systems for specific applications The design of environment-sensitive devices for biomedical and pharmaceutical applications has improved significantly due to recent advances in smart polymer and hydrogel technology. Despite their capacity to carry out functions that previously were unobtainable, smart polymers and hydrogels tend to have painfully slow response times. On the other hand biological systems go through phase changes at an extremely fast rate. This book examines the natural systems that respond almost instantaneously to environmental stimuli, and thus gives the reader an understanding of the mechanisms that govern these responses. The book includes chapters on how to go about designing a synthetic "flash" system based on the naturally occurring systems. It also deals with potential applications of flash systems in biomedical and pharmaceutical areas.

. Despite their capacity to carry out functions that previously were unobtainable, smart polymers and hydrogels tend to have painfully slow response times. On the other hand biological systems go through phase changes at an extremely fast rate. Reflexive Polymers and Hydrogels examines the natural systems that respond almost instantaneously to environmental stimuli, and thus gives the reader an understanding of the mechanisms that govern these responses. The book includes chapters on approaches and procedures for designing a synthetic ...flash... system based on naturally occurring systems. It also deals with some of the promising potential applications of flash systems in industry.

Addressing the increased use of protein and peptide candidates as treatments for previously untreatable diseases, this comprehensive and progressive source provides the reader with a roadmap to an increased understanding of issues critical for successfully developing a protein or peptide therapeutic candidate. Proteins and Peptides is an invaluable source for drug discovery and development scientists in the biopharmaceutical industry who frequently navigate the maze of protein and peptide pharmacokinetics, pharmacodynamics, and metabolism. Key features include: issues related to delivery of protein and peptide therapeutics in elderly populations and pharmacogenomics lessons learned on the major marketed areas of proteins and peptides, including interleukins, interferons, growth factors, and peptide hormones innovations for protein and peptide delivery such as needle-less delivery strategies for delivery of these molecules to locations such as the eye and brain generic issues of proteins and peptides

Addressing the increased use of protein and peptide candidates as treatments for previously untreatable diseases, this comprehensive and progressive source provides the reader with a roadmap to an increased understanding of issues critical for successfully developing a protein or peptide therapeutic candidate. Proteins and Peptides is an invaluable source for drug discovery and development scientists in the biopharmaceutical industry who frequently navigate the maze of protein and peptide pharmacokinetics, pharmacodynamics, and metabolism. Key features include: issues related to delivery of protein and peptide therapeutics in elderly populations and pharmacogenomics lessons learned on the major marketed areas of proteins and peptides, including interleukins, interferons, growth factors, and peptide hormones innovations for protein and peptide delivery such as needle-less delivery strategies for delivery of these molecules to locations such as the eye and brain generic issues of proteins and peptides

This book was conceived from a simple question as to why cancer is so difficult to treat. Ultimately we want to find ways to cure cancers, but that may be an elusive dream at least with the technologies we have now and expect to have in the near future. This leads the question of whether it is possible to improve current cancer treatment methods, especially from the perspective of enhancing targeted drug delivery to tumors. This volume is designed to provide information related to the difficulties in treating cancers through targeted drug delivery, our current understanding of cancer biology, and potential technologies that might be used to achieve enhanced drug delivery to tumors. An ideal drug delivery system for treating cancers would maximize the therapeutic efficacy with minimal side effects in clinical applications. The seemingly improved anticancer efficacy of the current nanoparticle-based formulations needs to be viewed from the context of very poor success rates for translation to human applications. The results of in vitro cell culture models and small animal in vivo experiments have not been extrapolated to clinical applications. Finding the reasons for the lack of successful translation is required if we are to discover approaches to substantially extend the survival time of cancer patients, and hopefully identify cures. Cancer Targeted Drug Delivery: Elusive Dream describes some answers of achieving the so far elusive dream of treating cancers like other chronic diseases with therapies that focus using improved drug delivery systems designed to better align with the unique biological and physiological properties of cancer.