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An integrated approach to the study of drug action mechanisms Biochemical Pharmacology is a concise and contemporary textbook on the principles of drug action. It discusses representative drugs by example to explore the range of biochemical targets and mechanisms. The book explains some of the experiments that tell us how drugs work, and it outlines the physiological and pathological context that make those action mechanisms therapeutically useful. Biochemical Pharmacology is intended primarily for students in biology and biochemistry at the advanced undergraduate or graduate levels. For classroom use, the illustrations from the book are separately available as PowerPoint slides. It is written in a conversational, vivid style that readily encourages students to explore this important area of medical science. Biochemical Pharmacology can also serve as an introduction for professionals in biosciences, as well as in pharmaceutical and health sciences. Complete with numerous figures throughout the text, which are also available separately as PowerPoint slides, Biochemical Pharmacology: Explains the role of pharmacodynamics, pharmacokinetics, and drug metabolism in drug action Provides representative examples from the pharmacology of cell excitation, hormones, nitric oxide, chemotherapy, and others Examines emerging applications of ribonucleic acids as drugs and drug targets Discusses what researchers need to know about the problems of drug distribution, elimination, and toxicity Biochemical Pharmacology is an important resource for anyone wishing to gain an in-depth understanding of drug action mechanisms and extremely useful for researchers wishing to explore some of the unanswered questions .
This volume of the Handbook of Experimental Pharmacology (Concepts in Biochemical Pharmacology) will show that pharma cology has finally arrived as a true discipline in its own right, and is no longer the handmaiden of organic chemistry and physiology. Instead it is an amalgam of all the biological sciences including biochemistry, biophysical chemistry, physiology, pathology and clinical medicine. In the volumes that make up Concepts in Bio chemical Pharmacology we hope to convince Medical Schools what should now be obvious, that pharmacology is no longer that dull topic bridging the basic sciences with medicine, but is probably the most important subject in the medical curriculum. We are grateful for the advice of Dr. Byron Clark, Director of the Pharmacology-Toxicology Program at the National Institutes of Health whose support made possible much of the work described in this volume. Contents Section Four: Methods 01 Stooging the MetoholiBm 01 Drugs Subsection A. Assay 01 Drugs and Their M etoholites Chapter 22 : Basic Principles in Development of Methods for Drug Assay. B. B. BRODIE. With 2 Figures 1 1 A. Introduction . . . . . . . . . . B. Principles of Developing a Method. . . . . . 1 I. Section of Method of Assay . . . . . . 1 II. Choice of Solvent for Extraction of Drug 2 III. Adsorption of Drugs by Glass Surfaces . . . . . . . . . . . . . . 3 IV. Recoveries of Known Amounts of Compound from Biological Material. 4 V. Assessment of Sensitivity 5 VI. Assessment of Specificity 5 References. . . . . . . . . . .
Fundamentals of Biochemical Pharmacology is a basic introduction to the fundamental aspects of pharmacology. It explains the molecular aspects of drugs, as well as the different biochemical systems and cellular strategies that they cause. The book is divided into two sections, the first of which covers physiochemical methods, histological methods, and physiological methods. The second section covers biochemical lesions; functions of subcellular structures; transfer of ions and molecules across cellular membrane; pharmacokinetics; drug receptor interactions; effects of drugs on structure; biosynthesis; catabolism; and biotransformation of drugs. The book is a good reference for pharmacology students who are learning about the the basic underlying concepts of biochemical pharmacology. It will also appeal to researchers with a background in chemistry, biochemistry, biology, microbiology, botany, or zoology.
This report from the Committee on Military Nutrition Research reviews the history of caffeine usage, the metabolism of caffeine, and its physiological effects. The effects of caffeine on physical performance, cognitive function and alertness, and alleviation of sleep deprivation impairments are discussed in light of recent scientific literature. The impact of caffeine consumption on various aspects of health, including cardiovascular disease, reproduction, bone mineral density, and fluid homeostasis are reviewed. The behavioral effects of caffeine are also discussed, including the effect of caffeine on reaction to stress, withdrawal effects, and detrimental effects of high intakes. The amounts of caffeine found to enhance vigilance and reaction time consistently are reviewed and recommendations are made with respect to amounts of caffeine appropriate for maintaining alertness of military personnel during field operations. Recommendations are also provided on the need for appropriate labeling of caffeine-containing supplements, and education of military personnel on the use of these supplements. A brief review of some alternatives to caffeine is also provided.
Part 3 of the Handbook of Experimental Pharmacology (Concepts in Biochem ical Pharmacology) applies the principles enunciated in Parts 1 and 2 to clinical pharmacology and toxicology. The major objective is to elucidate the many factors that determine the relationships between pharmacokinetic aspects of the disposition and metabolism of drugs and their therapeutic or toxic actions in man. Because of the more restricted information obtainable in human studies, this volume reflects the editors' bias that an understanding of pharmacokinetics is fundamental for assessing pharmacologic or toxicologic effects of drugs in humans. The first chapter is a unique primer on when to apply and how to use pharmaco kinetic tools in human pharmacology. The second chapter explains the general assumptions underlying pharmacokinetic approaches both in simple terms for the novice and in mathematical form for the more sophisticated reader. Several chapters on determinants of drug concentration and activity discuss drug absorption, drug latentiation, drugs acting through metabolites, entero hepatic drug circulation, influence of route of drug administration on response, genetic variations in drug disposition and response, age differences in absorption, distribution and excretion of drugs, and pathologic and physiologic factors affecting absorption, distribution and excretion of drugs and drug response. The focus of these chapters is data obtained in human, rather than animal, studies. Most of the chapters contain new material never summarized previously.
When introduced to the human body, bioactive metabolites produced by plants for self defense bind to particular biochemical targets, most notably to proteins involved in signaling by hormones and neurotransmitters. This, essentially, is the basis for the effects of herbal medicine. While herbal medicine preparations may act by complex synergistic interactions, molecular explanations of herbal medicine efficacy and side effects ultimately require definition of the biochemical targets of individual plant bioactive constituents. Biochemical Targets of Plant Bioactive Compounds is a comprehensive and user-friendly reference guide to biochemical targets of plant defensive compounds. With 500 pages of tables, it presents a mine of succinctly summarized information relating to bioactive compound structures, plant sources, biochemical targets and physiological effects that can be readily accessed via chemical compound, plant genus, plant common name and subject indexes. With introductory chapters providing reviews of the structural diversity of plant defensive compounds and biochemistry, this book is an invaluable reference for biomedical professionals in the fields of alternative/complementary medicine, natural product chemistry, toxicology, pharmacology, and botany.
Venoms of the Hymenoptera: Biochemical, Pharmacological, and Behavioral Aspects contains papers that deals with the study of the venoms and toxins produced by insects belonging to the order of the Hymenoptera. The book provides a considerable amount of information in the study of the venoms of the Hymenoptera. There are chapters that focus on the history of the research made on the order of the Hymenoptera; the stinging apparatus; venom collection; physiological effects of venoms produced by particular insects belonging to the order; and the pharmacological uses of the venoms and toxins. Entomologists, physiologists, pharmacologists, biochemists, and researchers developing drugs and pesticides will find this text extremely useful.
The Gastrointestinal Section of the International Union of Pharmacology (IUPHAR) was established in 1994 in Montreal, Canada. The establishment of the GI Section recognizes the international progress of gastrointestinal pharmacology, including basic and human studies. The Gastrointestinal Section of IUPHAR organized the first symposium, Biochemical Pharmacology as an Approach to Gastrointestinal Diseases: from Basic Science to Clinical Perspectives, on 10-12 October, 1995, in Pécs, Hungary. The main topics were: Gastrointestinal secretory and excretory fuctions Gastrointestinal motility Biochemical-pharmacological mechanisms in neural and hormonal actions involved in GI functions Main normal and pathological biochemical mechanisms in GI functions GI mucosal injury and protection Molecular mechanisms of premalignant and malignant diseases in GI tract Use of isolated cells and cell cultures in bioochemical-pharmacological studies to approach GI diseases. The presented papers are published in this book.
Biochemical Ecotoxicology: Principles and Methods presents practical approaches to biochemical ecotoxicology experiments for environmental protection and conservation. With its methodical, stepped approach this essential reference introduces readers to current techniques for toxicity endpoint testing, suitable for laboratories of any size and budget. Each chapter presents a state-of-the-art principle, a quick and inexpensive procedure (including appropriate reagents), case studies, and demonstrations on how to analyze your results. Generic techniques are covered, suitable for a variety of organisms, as well as high-throughput techniques like quantitative polymerase chain reactions and enzyme-linked immunoassays. Cutting-edge approaches, including gPCR arrays and lipidomic techniques, are also included, making this is an essential reference for anyone who needs to assess environmental toxicity. - Practical, cost-effective approaches to assess environmental toxicity endpoints for all types of organism - Presents theory, methods, case studies and information on how to analyze results - State-of-the-art techniques, such as 'omics' approaches to toxicology
The alkaloids were of great importance to mankind for centuries, long before they were recognized as a chemical class. The influence they have had on literature is hinted at by some of the quotations I have used as chapter headings. Their in fluence on folklore and on medicine has been even greater. The scientific study of alkaloids may be said to have begun with the isolation of morphine by SERTURNER in 1804. Since that time they have remained of great interest to chemists, and now in any month there appear dozens of publications dealing with the isolation of new alkaloids or the determination of the structures of previously known ones. The area of alkaloid biochemistry, in comparison, has received little attention, and today is much less developed. There is a certain amount of personal arbitrariness in defining "biochemistry", as there is in defining "alkaloid", and this arbitrariness is doubtless compounded by the combination. Nevertheless, it seems to me that in any consideration of the bio chemistry of a group of compounds three aspects are always worthy of attention pathways of biosynthesis, function or activity, and pathways of degradation. For the alkaloids, treatment of these three aspects is necessarily lopsided. Much has been learned about routes of biosynthesis, but information on the other aspects is very scanty. It would be possible to enter into some speculation regarding the biosyn thesis of all the more than 1,000 known alkaloids.