الصفحة 1
الصفحة 1
Drug Metabolism, Pharmacokinetics and Bioanalysis
Drug metabolism/pharmacokinetics and drug interaction studies have been extensively carried out in order to secure the druggability and safety of new chemical entities throughout the development of new drugs. Recently, drug metabolism and transport by phase II drug metabolizing enzymes and drug transporters, respectively, as well as phase I drug metabolizing enzymes, have been studied. A combination of biochemical advances in the function and regulation of drug metabolizing enzymes and automated analytical technologies are revolutionizing drug metabolism research. There are also potential drug-drug interactions with co-administered drugs due to inhibition and/or induction of drug metabolic enzymes and drug transporters.
Drug interactions in infectious diseases : Mechanisms and models of drug interactions
Provides a comprehensive review of basic clinical pharmacology with a focus on metabolism and transporter-mediated drug interactions. The chapters address materials that cannot be retrieved easily in the medical literature, including materials focused on the complex interrelationship of acute infection, inflammation, and the risk of drug interactions in the Drug-Cytokine chapter. The Food-Drug and Herb-Drug interactions chapters remain definitive resources. A new chapter on in vitro modeling of drug interactions is included along with updates on design and data analysis of clinical drug interaction studies. Authoritative discussion of models for regulatory decision-making on drug-drug interactions provides the necessary framework to aid antimicrobial drug development. This concise review of the mechanisms and models of drug interactions provides important insights to health care practitioners as well as scientists in drug development
Drug interactions in infectious diseases : Antimicrobial drug interactions
Delivers a quick clinical resource that distills relevant drug interactions by antimicrobial drug class. The book provides informative tables on specific drug-drug interactions that include the degree and severity of the expected interaction. A mechanistic basis for drug-drug interactions is also provided to link observed interactions to pharmacologic characteristics of key drug classes. This complete resource is organized by major antibacterial, antimycobacterial, antiviral, antifungal, antimalarial, and antiprotozoal class. In line with current innovations in antimicrobial drug development, a distinct chapter on the pharmacologic management of drug interactions in hepatitis B virus (HBV) and hepatitis C virus (HCV)-related infections is included. Two new chapters are dedicated to the management of human immunodeficiency virus (HIV) drug-drug interactions given the breadth of antiretroviral class-specific effects. This comprehensive review of known drug interactions and strategies to manage them is an invaluable resource to all health care practitioners.
Another side of drugs
Drug interactions remain an important consequence of pharmacologic intervention. It is clear that the pharmacologic response of a drug can be markedly influenced by concurrent administration of another therapeutic agent or food. These interactions may result in a decreased therapeutic effect or in an increase in the amount and extent of untoward reactions. Despite the well-described and real clinical consequences of certain drug interactions, this aspect of patient care often continues to be overlooked.
