The Biochemistry of Drug Metabolism: Volume 2: Conjugations, Consequences of Metabolism, Influencing Factors
The next part examines the consequences of drug and xenobiotic metabolism in a pharmacological and toxicological perspective, with due attention paid to full activation, as is found with prodrugs, and to the worrying case of xenobiotic toxification.
Parts 6 and 7 cover the inter-individual and intra-individual factors that influence drug metabolism, starting with an introduction to evolutionary events leading to species differences in the metabolism of xenobiotics and to polymorphisms within a particular species. Focusing on humans, the most relevant polymorphic drug-metabolizing enzymes are discussed, concentrating on ethnic differences and on the consequences for the pharmacokinetic behavior of affected drugs, while also introducing sex-dependent metabolic reactions.
The final part introduces the mechanisms leading to increases or decreases in enzyme activities as the concept of enzyme induction via nuclear receptors and the different mechanisms of enzyme inhibition are explained. With these basics in mind, various influencing factors are discussed, including physiological and pathological conditions, as well as drugs, nutrients and environmental agents with a special focus on drug-drug interactions.
With a foreword by Prof Leslie Z. Benet -- the best and best-known biopharmaceutical scientist worldwide.
"These two volumes provide a comprehensive scientific basis for the study of the biochemistry of drug metabolism. The text is practically organized with extensive literature and information figures. As well as providing fundamental knowledge towards understanding the principles of drug metabolism, to those new to the subject, both volumes represent an invaluable reference for researchers in the field of biochemistry, pharmacology and new drug development". (Anticancer Research, 1 August 2010)
"I encourage all to purchase the two-volume set to have the complete package easily accessible in full color and high resolution." (Journal of Medicinal Chemistry, 2010)