Drug delivery : engineering principles for drug therapy

Synthetic materials are a tremendous potential resource for treating human disease. For the rational design of many of these biomaterials it is necessary to have an understanding of polymer chemistry and polymer physics. Equally important to those two fields is a quantitative understanding of the principles that govern rates of drug transport, reaction, and disappearance in physiological and pathological situations. This book is a synthesis of these principles, providing a working foundation for those in the field of drug delivery. It covers advanced drug delivery and contemporary biomaterials.

Part I. Introductory material 1: Introduction 2: Drug administration and drug effectiveness Part II. Fundamentals 3: Diffusion and drug dispersion 4: Diffusion in biological systems 5: Drug permeation through biological barriers 6: Drug transport by fluid motion 7: Pharmacokinetics of drug distribution Part III. Drug delivery systems 8: Drug modification 9: Controlled drug delivery systems 10: Case studies in drug delivery 11: Postscript Appendix A. Overview of polymeric biomaterials A1. Nondegradable polymers A2. Biodegradable polymers A3. Water-soluble polymers Appendix B. Useful data and nomenclature B1. Physiological parameters B2. Cardiovascular system B3. Clinical chemistry B4. Permeation and diffusion B5. Protein properties B6. Mathematical tables and functions B7. Nomenclature Index