
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.
This text investigates the quantitative principles governing drug transport, reaction, and clearance within physiological systems to enable the rational design of advanced drug delivery materials. W. Mark Saltzman, a prominent researcher in biomedical engineering, synthesizes core concepts from polymer chemistry and physics to establish a rigorous framework for therapeutic delivery. The book provides a technical foundation for engineers and scientists tasked with developing synthetic materials that interact effectively with human biological environments. By integrating physical chemistry with physiological modeling, the author presents a methodology for predicting how drugs behave within the body.
What You Will Find
Experts recognize this work as a foundational technical resource for students and professionals in biomedical engineering and pharmacology. Readers frequently note the high level of mathematical and scientific density, which requires a strong background in physical sciences to fully utilize the presented models.
Page Count:
384
Publication Date:
2001-01-01
Publisher:
Oxford University Press, Incorporated
ISBN-10:
019802469X
ISBN-13:
9780198024699
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