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Prodrug Design: Perspectives, Approaches and Applications in Medicinal Chemistry provides a focused overview of this critical area of drug discovery, as that continuous process strives not only to discover new drug compounds but also to modify the existing ones. This valuable primer supports this mission of drug development and its goal of reducing undesired effects and improving therapeutic effectiveness of drug compounds. Providing a unique compilation of data, insightful case studies, and review of existing literature in the area, the book will promote innovation in medicinal and pharmaceutical chemistry research, exploring the limitations of existing drugs and their improvement. Prodrug Design reviews marketed compounds, the safety of promoieties, and a detailed classification of prodrugs organized by therapeutic area for easy reference. - Offers unique, detailed overview of Prodrug research and literature - Provides detailed chemical structures - Includes Prodrug listing by therapeutic area
These volumes represent a comprehensive guide to prodrugs. They guide the reader through the current status of the prodrug concept and its many applications and highlight its many successes in overcoming formulation and delivery of problematic drugs. Replete with examples of approved and marketed prodrugs, these volumes introduce the topic to the novice as well as professional in the design of prodrugs.
This topical reference and handbook addresses the chemistry, pharmacology, toxicology and the patentability of prodrugs, perfectly mirroring the integrated approach prevalent in today's drug design. It summarizes current experiences and strategies for the rational design of prodrugs, beginning at the early stages of the development process, as well as discussing organ- and site-selective prodrugs. Every company employing medicinal chemists will be interested in this practice-oriented overview of a key strategy in modern drug discovery and development.
This book covers intentional design aspects for combinations of drugs, single-molecule hybrids with potential or actual multiple actions, pro-drugs which could yield multiple activity outcomes, and future possibilities. The approach of the book is interdisciplinary, and it provides greater understanding of the complex interplay of factors involved in the medicinal chemistry design and laboratory development of multiply active antibacterials. The scope of the book appeals to readers who are researching in the field of antibacterials using the approach of medicinal chemistry design and drug development.
The prodrug approach is a promising and well established strategy for the development of new entities that possess superior efficacy, selectivity and reduced toxicity. Hence an optimised therapeutic outcome can be accomplished using this approach. Prodrug design is becoming more elaborate in the development of efficient and selective drug delivery systems. The targeted prodrug approach, in combination with gene delivery and controlled expression of enzymes and carrier proteins, is a promising strategy for precise and efficient drug delivery and enhancement of the therapeutic effect. This book describes in details all prodrug approaches and examples of prodrugs that succeeded to enter the market. There are two major prodrug design approaches that are considered as widely used among all other approaches: the targeted drug design approach by which prodrugs can be designed to target specific enzymes or carriers by considering enzyme-substrate specificity or carrier-substrate specificity in order to overcome various undesirable drug properties. Examples for such approach is the antibody-directed enzyme prodrug therapy (ADEPT), gene-directed enzyme prodrug therapy (GDEPT), virus-directed enzyme prodrug therapy (VDEPT) and GDEPT. In addition, this book describes in details a novel prodrug chemical approach which is based on intramolecular reactions that were utilised to understand how enzymes exert their high catalysis. The information gained from the experimental and theoretical calculations on these enzyme models was used to design efficient chemical moieties to be utilised as prodrug linkers with the potential to release the corresponding parent drugs in a slow or fast release manner. Several prodrugs for commonly used drugs suffer from low bioavailability or/and bitter sensation were designed using quantum mechanics methods (DFT and ab initio) and recently a large number among these prodrugs were synthesised. Examples of such prodrugs are presented in the different chapters of the book.
Many drugs and other xenobiotics (e.g., preservatives, insecticides, and plastifiers) contain hydrolyzable moieties such as ester or amide groups. In biological media, such foreign compounds are, therefore, important substrates for hydrolytic reactions catalyzed by hydrolases or proceeding non-enzymatically. Despite their significance, until now, no book has been dedicated to hydrolysis and hydrolases in the metabolism of drugs and other xenobiotics. This work fills a gap in the literature and reviews metabolic reactions of hydrolysis and hydarion from the point of views of enzymes, substrates, and reactions.
Standard medicinal chemistry courses and texts are organized by classes of drugs with an emphasis on descriptions of their biological and pharmacological effects. This book represents a new approach based on physical organic chemical principles and reaction mechanisms that allow the reader to extrapolate to many related classes of drug molecules. The Second Edition reflects the significant changes in the drug industry over the past decade, and includes chapter problems and other elements that make the book more useful for course instruction. - New edition includes new chapter problems and exercises to help students learn, plus extensive references and illustrations - Clearly presents an organic chemist's perspective of how drugs are designed and function, incorporating the extensive changes in the drug industry over the past ten years - Well-respected author has published over 200 articles, earned 21 patents, and invented a drug that is under consideration for commercialization
The Practice of Medicinal Chemistry, Fourth Edition provides a practical and comprehensive overview of the daily issues facing pharmaceutical researchers and chemists. In addition to its thorough treatment of basic medicinal chemistry principles, this updated edition has been revised to provide new and expanded coverage of the latest technologies and approaches in drug discovery.With topics like high content screening, scoring, docking, binding free energy calculations, polypharmacology, QSAR, chemical collections and databases, and much more, this book is the go-to reference for all academic and pharmaceutical researchers who need a complete understanding of medicinal chemistry and its application to drug discovery and development. - Includes updated and expanded material on systems biology, chemogenomics, computer-aided drug design, and other important recent advances in the field - Incorporates extensive color figures, case studies, and practical examples to help users gain a further understanding of key concepts - Provides high-quality content in a comprehensive manner, including contributions from international chapter authors to illustrate the global nature of medicinal chemistry and drug development research - An image bank is available for instructors at www.textbooks.elsevier.com
Building on the success of the previous editions, Textbook of Drug Design and Discovery has been thoroughly revised and updated to provide a complete source of information on all facets of drug design and discovery for students of chemistry, pharmacy, pharmacology, biochemistry, and medicine. The book follows drug design from the initial lead identification through optimization and structure-activity relationship with reference to the final processes of clinical evaluation and registration. Chapters investigate the design of enzyme inhibitors and drugs for particular cellular targets such as ion channels and receptors, and also explore specific classes of drug such as peptidomimetics, antivirals and anticancer agents. The use of gene technology in pharmaceutical research, computer modeling techniques, and combinatorial approaches are also included.