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Fundamentals of Toxicology: Essential Concepts and Applications provides a crisp, easy-to-understand overview of the most important concepts, applications, and ideas needed to learn the basics of toxicology. Written by a pre-eminent toxicologist with over five decades of teaching experience, this comprehensive resource offers the hands-on knowledge needed for a strong foundation in the wide field of toxicology. Fundamentals of Toxicology includes a clear structure divided into five units to assist learning and understanding. The first unit provides extensive coverage on the background of toxicology including commonly used definitions and historical perspective, while following units cover: basic concepts; regulatory requirements and good laboratory practices, including types of toxicology testing and evaluation; toxic agents and adverse effects on health; and analytical, forensic, and diagnostic toxicology. This is an essential book for advanced students in toxicology and across the biomedical sciences, life sciences, and environmental sciences who want to learn the concepts of toxicology, as well as early researchers needing to refresh outside of their specialty. - Explains the essential concepts of toxicology in a clear fashion - Provides in-depth coverage of testing protocols, common drugs, chemicals, and laboratory-based diagnostic and analytical toxicology - Explores the history, foundations, and most recent concepts of toxicology - Serves as an essential reference for advanced students in toxicology and across the biomedical, life, and environmental sciences who want to learn the concepts of toxicology
A Comprehensive Guide to Toxicology in Nonclinical Drug Development, Second Edition, is a valuable reference designed to provide a complete understanding of all aspects of nonclinical toxicology in the development of small molecules and biologics. This updated edition has been reorganized and expanded to include important topics such as stem cells in nonclinical toxicology, inhalation and dermal toxicology, pitfalls in drug development, biomarkers in toxicology, and more. Thoroughly updated to reflect the latest scientific advances and with increased coverage of international regulatory guidelines, this second edition is an essential and practical resource for all toxicologists involved in nonclinical testing in industry, academic, and regulatory settings. - Provides unique content that is not always covered together in one comprehensive resource, including chapters on stem cells, abuse liability, biomarkers, inhalation toxicology, biostatistics, and more - Updated with the latest international guidelines for nonclinical toxicology in both small and large molecules - Incorporates practical examples in order to illustrate day-to-day activities and the expectations associated with working in nonclinical toxicology
Written in clear, simple language, this concise book introduces the lay person to the science of toxicology as it relates to daily living. The book provides a general overview of toxicology, presenting the facts and underlying principles needed by non-specialists for making decisions about potentially hazardous substances in everyday settings. Understanding Toxicology: Chemicals, Their Benefits and Risks will help you separate fact from fiction and better evaluate conflicting news reports on toxic substances and hazards. It's for everyone interested in chemical safety, toxic risks, pollution, hazardous wastes, and potential health hazards found in the home, at work, and in the environment.
An Introduction to Interdisciplinary Toxicology: From Molecules to Man integrates the various aspects of toxicology, from "simple” molecular systems, to complex human communities, with expertise from a spectrum of interacting disciplines. Chapters are written by specialists within a given subject, such as a chemical engineer, nutritional scientist, or a microbiologist, so subjects are clearly explained and discussed within the toxicology context. Many chapters are comparative across species so that students in ecotoxicology learn mammalian toxicology and vice versa. Specific citations, further reading, study questions, and other learning features are also included. The book allows students to concurrently learn concepts in both biomedical and environmental toxicology fields, thus better equipping them for the many career opportunities toxicology provides. This book will also be useful to those wishing to reference how disciplines interact within the broad field of toxicology.
The new field of toxicogenomics presents a potentially powerful set of tools to better understand the health effects of exposures to toxicants in the environment. At the request of the National Institute of Environmental Health Sciences, the National Research Council assembled a committee to identify the benefits of toxicogenomics, the challenges to achieving them, and potential approaches to overcoming such challenges. The report concludes that realizing the potential of toxicogenomics to improve public health decisions will require a concerted effort to generate data, make use of existing data, and study data in new waysâ€"an effort requiring funding, interagency coordination, and data management strategies.
The environment is increasingly recognized as having a powerful effect on human and ecological health, as well as on specific types of human morbidity, mortality, and disability. While the public relies heavily on federal and state regulatory agencies for protection from exposures to hazardous substances, it often looks to health professionals for information about routes of exposure and the nature and extent of associated adverse health consequences. However, most health professionals acquire only a minimal knowledge of toxicology during their education and training. In 1967 the National Library of Medicine (NLM) created an information resource, known today as the Toxicology and Environmental Health Information Program (TEHIP). In 1995 the NLM asked the Institute of Medicine to examine the accessiblity and utility of the TEHIP databases for the work of health professionals. This resulting volume contains chapters on TEHIP and other toxicology and environmental health databases, on understanding the toxicology and environmental health information needs of health professionals, on increasing awareness of information resources through training and outreach, on accessing and navigating the TEHIP databases, and on program issues and future directions.
Understanding Toxicology is a comprehensive study of toxicants and their impact on all levels of biology--from cell, to complex organism, to ecosystem. Unlike other texts of its kind, this text is uniquely structured by biological system, making it easy for readers to understand the impact of toxins on each system. Common mechanisms are explored in the cellular and complex organ system chapters to approach a systems biology perspective that is more applicable to modern computational toxicology risk assessment. Understanding Toxicology begins with three research questions that challenge the reader to discover what information is needed to solve controversies at the level of the cell, the complex organism, and the ecosystem. The book continues with a cellular, complex organism, and ecosystem analysis of toxicology principles including risk assessment. The cellular section follows common mechanisms from the outside to the inside of cells and individual organelles. A forensic approach analyzes complex organisms from outside to inside. The ecosystem section starts with a dispersion approach to determine environmental concentration and addresses toxicants in divisions similar to how the EPA determines impacts. Key Features • Uses lively, engaging examples making the text fun and easy to read and understand • Allows the reader to approach the subject from a research perspective as well as a public policy perspective • Covers biological toxicants including venoms, poisons, as well as microbial and fungal toxins, and plant toxins • Thoroughly covers all organisms including fish, plants, and microbes • Includes outlines and review questions in each chapter
Green toxicology is an integral part of green chemistry. One of the key goals of green chemistry is to design less toxic chemicals. Therefore, an understanding of toxicology and hazard assessment is important for any chemist working in green chemistry, but toxicology is rarely part of most chemists' education. As a consequence, chemists lack the toxicological lens necessary to view chemicals in order to design safer substitutions. This book seeks to fill that gap and demonstrate how a basic understanding of toxicology, as well as the tools of in silico and in vitro toxicology, can be an integral part of green chemistry. R&D chemists, product stewards, and toxicologists who work in the field of sustainability, can all benefit from integrating green toxicology principles into their work. Topics include in silico tools for hazard assessment, toxicity testing, and lifecycle considerations, this book aims to act as a bridge between green toxicologists and green chemists.
Advances in molecular biology and toxicology are paving the way for major improvements in the evaluation of the hazards posed by the large number of chemicals found at low levels in the environment. The National Research Council was asked by the U.S. Environmental Protection Agency to review the state of the science and create a far-reaching vision for the future of toxicity testing. The book finds that developing, improving, and validating new laboratory tools based on recent scientific advances could significantly improve our ability to understand the hazards and risks posed by chemicals. This new knowledge would lead to much more informed environmental regulations and dramatically reduce the need for animal testing because the new tests would be based on human cells and cell components. Substantial scientific efforts and resources will be required to leverage these new technologies to realize the vision, but the result will be a more efficient, informative and less costly system for assessing the hazards posed by industrial chemicals and pesticides.