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Recent developments have provided new data on the subject of inhalation toxicology, requiring an update of the previous edition of this popular text. Like the first, this second edition explains the basic concepts and quantitative approaches in inhalation toxicology, and it gives a comprehensive treatment of evaluations of respiratory responses to inhaled particles and gases. The author here explores new understanding of the role of cytokines in pulmonary inflammation and risk assessment. Immunologists, oncologists, respiratory specialists and students in those fields will find Concepts In Inhalation Toxicology to be essential to their practice.
Written by internationally recognized scientists from academic, industrial, and governmental sectors, Inhalation Toxicology, Second Edition details the methods and materials used in the theoretical and applied aspects of inhalation toxicology. The editors emphasize the relationship between the respiratory system and toxicology of inhaled substances and examine methods and measurements for improving our understanding of the basic mechanisms of effects. The book delineates key issues in the field such as regulatory aspects of exposure and testing, testing equipment and methods, biomarkers, pathology, allergies and immunology, irritation of the respiratory tract, and risk assessment. It covers the inhalation of bioaerosols and toxins, ranging from anthrax to household molds as well as genomics, proteomics, and low-level exposure toxicants such as tobacco smoke and chemical warfare agents. Highlights include coverage of the Acute Exposure Guidelines and Emergence Response Guidelines and recent changes in the European and American guidelines for testing procedures. The book focuses on key issues associated with airborne substances and provides critical reviews of the latest advances. Presenting sophisticated concepts in a readable, accessible format, the book distills the latest information into practical knowledge.
Recent developments have provided new data on the subject of inhalation toxicology, requiring an update of the previous edition of this popular text. Like the first, this second edition explains the basic concepts and quantitative approaches in inhalation toxicology, and it gives a comprehensive treatment of evaluations of respiratory responses to inhaled particles and gases. The author here explores new understanding of the role of cytokines in pulmonary inflammation and risk assessment. Immunologists, oncologists, respiratory specialists and students in those fields will find Concepts In Inhalation Toxicology to be essential to their practice.
Wildlife Toxicity Assessments for Chemicals of Military Concern is a compendium of chemical-specific toxicity information with discussions on the rationale and development of Wildlife Toxicity Reference Values (TRVs) intended for use on terrestrial wildlife for risk assessment applications. Substances covered include military-related chemicals including explosives, propellants, pesticides and metals. Wildlife Toxicity Assessments for Chemicals of Military Concern is a much-needed resource designed to meet the needs of those seeking toxicological information for ecological risk assessment purposes. Each chapter targets a specific chemical and considers the current knowledge of the toxicological impacts of chemicals to terrestrial wildlife including mammalian, avian, amphibian and reptilian species. - Provides detailed information on how Wildlife Toxicity Values (TRVs) for military chemicals of concern are derived and evaluated. - Covers wildlife toxicity assessments of explosives, metals and environmental chemicals. - Compiles relevant information on the environmental effects of chemicals on wildlife in relation to public and environmental health.
Written by internationally recognized scientists from academic, industrial, and governmental sectors, Inhalation Toxicology, Second Edition details the methods and materials used in the theoretical and applied aspects of inhalation toxicology. The editors emphasize the relationship between the respiratory system and toxicology of inhaled substances
The International Life Sciences Institute (ILSI), a nonprofit, public foundation, was established in 1978 to advance the sciences of nutrition, toxicology, and food safety. ILSI promotes the resolution of health and safety issues in these areas by sponsoring research, conferences, publications, and educational programs. Through ILSI's programs, scientists from government, academia, and industry unite their efforts to resolve issues of critical importance to the public. As part of its commitment to understanding and resolving health and safety issues, ILSI is pleased to sponsor this series of monographs that consolidates new scientific knowledge, defines research needs, and provides a background for the effective application of scientific advances in toxicology and food safety. Alex Malaspina President International Life Sciences Institute Contents Series Foreword . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . v Contributors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi Part I. Approaches to Assessing the Toxicity of Airborne Toxicants Chapter 1. Standard-Setting as an Integrative Exercise: Alchemy, Juggling, or Science? . . . . . . . . . . . . . . . . . . . . . . . 1 D. v. Bates Chapter 2. Species Differences in Inhalation Toxicology: Variations in Exposure-Dose Relationships and Macrophage Function. . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 J. D. Brain Chapter 3. Cell Populations of the Respiratory System: Interspecies Diversity in Composition, Distribution, and Morphology . . . . . . . . . . . . . . . . . . . . . . . . 25 e. G. Plopper, A. Mir, J. St. George, N. Tyler, A. Mariassy, D. Wilson, S. Nishio, D. Cranz, J. Heidsiek, and D. Hyde Chapter 4. Comparative Metabolic Basis for the Disposition and Toxic Effects of Inhaled Materials . . . . . . . . . . . . . . . . . 41 A. R. Dahl Part II. Methodological Issues in Designing and Conducting Studies with Laboratory Animals Chapter 5. Exposure Facilities and Aerosol Generation and Characterization for Inhalation Experiments. . . . . . . . . .
Acute toxicology testing provides the first line of defense against potentially dangerous chemicals. This book is a complete and practical guide to conducting and interpreting all regulatory required and commonly used acute toxicity tests. It presents detailed protocols for all of the common test designs and reviews their development and objectives. Acute Toxicology Testing, Second Edition will interest not only workers in the pharmaceutical industry, but also researchers and students in toxicology and public health.Key Features* Over 100 tables summarizing and interpreting results* Complete coverage of all major test designs and their limitations and advantages* Current status of alternative test designs and models
The lungs provide a significant opportunity for the introduction of both therapeutic and toxic chemicals into the human body. In occupational and domestic environments, hazardous chemicals can enter the body through the lungs via gases, aerosols, and particulates from natural and anthropogenic sources. Fully updated with new research and discoveries since the last edition, Inhalation Toxicology, Third Edition presents contributions from internationally recognized scientists in the academic, commercial/industrial, and governmental sectors. A pragmatic resource for practicing professionals and students, the book comprehensively examines the relationship between the respiratory system and the toxicology of inhaled substances. Topics include: Regulatory aspects of exposure and testing Testing equipment and procedures Respiratory allergy and irritation of the respiratory tract Risk assessment Toxicology theory Toxicology modeling Toxic effects of some individual toxicants New topics in this third edition include collection and characterization of airborne particulate matter, the inhalation toxicology of asbestos fibers and nanoparticles, and the development of lung-on-a-chip technology for predicting in vivo responses. Each chapter concludes with thought-provoking questions and answers, enhancing the book’s educational utility.
Millions of Americans use e-cigarettes. Despite their popularity, little is known about their health effects. Some suggest that e-cigarettes likely confer lower risk compared to combustible tobacco cigarettes, because they do not expose users to toxicants produced through combustion. Proponents of e-cigarette use also tout the potential benefits of e-cigarettes as devices that could help combustible tobacco cigarette smokers to quit and thereby reduce tobacco-related health risks. Others are concerned about the exposure to potentially toxic substances contained in e-cigarette emissions, especially in individuals who have never used tobacco products such as youth and young adults. Given their relatively recent introduction, there has been little time for a scientific body of evidence to develop on the health effects of e-cigarettes. Public Health Consequences of E-Cigarettes reviews and critically assesses the state of the emerging evidence about e-cigarettes and health. This report makes recommendations for the improvement of this research and highlights gaps that are a priority for future research.
This report considers the biological and behavioral mechanisms that may underlie the pathogenicity of tobacco smoke. Many Surgeon General's reports have considered research findings on mechanisms in assessing the biological plausibility of associations observed in epidemiologic studies. Mechanisms of disease are important because they may provide plausibility, which is one of the guideline criteria for assessing evidence on causation. This report specifically reviews the evidence on the potential mechanisms by which smoking causes diseases and considers whether a mechanism is likely to be operative in the production of human disease by tobacco smoke. This evidence is relevant to understanding how smoking causes disease, to identifying those who may be particularly susceptible, and to assessing the potential risks of tobacco products.