First Published in 1994, Introduction to In Vitro Cytotoxicology examines in vitro cytotoxicology, which offers new methodologies to toxicity testing. This important new discipline of modern toxicology is gaining increased acceptance as a viable alternative to traditional testing methods. The text discusses the application of in vitro cytotoxicology to toxicity testing and human risk assessment, and it analyzes the advantages and limitations of the tests performed under scientific and regulatory conditions. The book also reviews the optimum utilization of certain tests for specific groups of chemicals relevant to validation programs currently in progress. This book is a useful reference tool for students, researchers, and practitioners interested in academic, industrial, and regulatory toxicology; environmental health; cell biology; pharmacology; dentistry; or human and veterinary medicine.
In Vitro Toxicology Systems brings together important issues and considerations needed in order to develop a workable, reliable, integrated testing strategy for the replacement of animals in toxicity testing regimes. This thorough volume includes sections on in vitro models for systemic organ toxicity, neurotoxicity, sensory organs, immunotoxicity and reproductive toxicity and addresses how stem cells may be used going forward. The book also tackles difficult areas of toxicology such as carcinogenicity and nanotoxicology, with additional chapters dedicated to kinetics, metabolism, and in vitro in vivo extrapolation. The book also addresses biological processes such as stress response pathways and mechanistic biomarkers and how these can be uncovered and measured using high content approaches. Reliable and authoritative, In Vitro Toxicology Systems will be of benefit not only to students, scientists and regulators working in the field of chemical safety assessment but also to a wider scientific audience.
This edited book, Cytotoxicity - New Insights into Toxic Assessment, is intended to present some strategies, methods, interpretations and recent advances in order to facilitate scientific research on in vitro toxic responses, presenting both theoretical and practical aspects.
Compensating for cytotoxicity in the multicellular organism by a certain level of cellular proliferation is the primary aim of homeostasis. In addition, the loss of cellular proliferation control (tumorigenesis) is at least as important as cytotoxicity, however, it is a contrasting trauma. With the disruption of the delicate balance between cytotoxicity and proliferation, confrontation with cancer can inevitably occur. This book presents important information pertaining to the molecular control of the mechanisms of cytotoxicity and cellular proliferation as they relate to cancer. It is designed for students and researchers studying cytotoxicity and its control.
Nationally, toxicology programs have evolved from a traditional exploration of the chemistry and applied toxicity of chemicals and drugs to a more comprehensive study of toxicology and toxicology testing as independent entities. Consequently, the second edition of Principles of Toxicology Testing starts with basic toxicological principles, including absorption, distribution, metabolism, and elimination of toxins, including chemicals and drugs. The book then continues with animal (in vivo) and in vitro toxicology testing methods associated with toxicological analysis and preclinical drug development. As in the first edition, the book begins with an introduction into the fundamentals of toxicology (Section I) to prepare readers for the subsequent topics and continues through with a discussion of toxicokinetics and human risk assessment. This introductory material is useful in understanding the applications of toxicology testing. Section II describes the fundamental principles of toxicology testing in animals in greater detail. This section describes acute toxicity studies as well as subchronic and chronic studies performed on animals. Special emphasis is placed on study design and determination of classical indicators for acute and chronic testing, such as the LD50. The book examines other short- and long-term animal toxicity testing methodologies, including dermal, ocular, and reproductive toxicity testing. In addition, mutagenicity and carcinogenicity studies are also discussed in separate chapters. Section III introduces and discusses in vitro alternatives to animal toxicology tests. This section emphasizes cell culture methodology and cellular methods for acute systemic toxicity, target organ toxicity, and local toxicity. The contributors present the advantages and disadvantages of alternative methods. They also describe the use of high-throughput screening and its applications, the concepts of standardization and validation of in vitro techniques (especially large, organized validation efforts currently supported by US and EU regulatory agencies), and the theories supporting the development of in vitro methodologies. This second edition is a must-read for undergraduate and graduate toxicology students. Industrial and academic research centers will also find the text useful for establishing a toxicology testing laboratory.
As a guide for pharmaceutical professionals to the issues and practices of drug discovery toxicology, this book integrates and reviews the strategy and application of tools and methods at each step of the drug discovery process. • Guides researchers as to what drug safety experiments are both practical and useful • Covers a variety of key topics – safety lead optimization, in vitro-in vivo translation, organ toxicology, ADME, animal models, biomarkers, and –omics tools • Describes what experiments are possible and useful and offers a view into the future, indicating key areas to watch for new predictive methods • Features contributions from firsthand industry experience, giving readers insight into the strategy and execution of predictive toxicology practices
A much-needed guide to in vitro food functionality evaluation principles, processes, and state-of-the-art modeling There are more than a few books devoted to the assessment of food functionality but, until now, there were no comprehensive guides focusing on the increasingly important subject of in vitro food evaluation. With contributions from the world’s foremost experts in the field, this book brings readers up to speed on the state-of-the-art in in vitro modeling, from its physiological bases to its conception, current uses, and future developments. Food functionality is a broad concept encompassing nutritional and health functionality, food safety and toxicology, as well as a broad range of visual and organoleptic properties of food. In vitro techniques bridge the gap between standard analytical techniques, including chemical and biochemical approaches and in vivo human testing, which remains the ultimate translational goal for evaluation of the functionality of food. Although it is a well- established field, in vitro food testing continues to evolve toward ever more accurate predictions of in vivo properties and outcomes. Both ethical and highly economical, these approaches allow for detailed mechanistic insights into food functionalities and, therefore, a better understanding of the interactions of food and human physiology. Reviews the core concepts of food functionality and functionality evaluation methodologies Provides an overview of the physiology of the gastrointestinal tract, including host-microbial interactions within it Delves into the physiology of sensory perception of food, taste and texture as they relate to in vitro modeling Explores the challenges of linking in vitro analysis of taste, aroma and flavor to their actual perception Addresses in vitro models of the digestion and absorption of macronutrients, micronutrients, and phytonutrients Describes in vitro evaluations of toxicants, allergens and other specific food hazards Functional Foods and Beverages is an indispensable working resource for food scientists as well as researchers working in government facilities dedicated to tracking food safety.
In Vitro Methods in Pharmaceutical Research provides a comprehensive guide to laboratory techniques for evaluating in vitro organ toxicity using cellular models. Step-by-step practical tips on how to perform and interpret assays for drug metabolism and toxicity assessment are provided, along with a comparison of different techniques available. It is a welcome addition to the literature at a time when interest is growing in cellular in vitro models for toxicology and pharmacology studies. - Meets the continuing demand for information in this field - Compares In Vitro techniques with other methods - Describes cell-culture methods used to investigate toxicity in cells derived from different organs - Includes contributions by leading experts in the field
Provides a complete understanding of how our bodies respond to toxicants, and the principles used to assess the health risks of specific exposure scenarios Toxicology and Risk Assessment: A Comprehensive Introduction, Second Edition reflects recent advances in science and technology, and provides the scientific background and methodological issues to enable the reader to understand the basic principles in toxicology and to evaluate the health risks of specific exposure scenarios. Completely updated with the latest information, this book offers a concise introduction to the subject. It is divided into five sections: Principles in Toxicology, Organ Toxicology, Methods in Toxicology, Regulatory Toxicology, and Specific Toxicity. The 2nd Edition adds new chapters that cover recent scientific and technological advances and current topics including the endocrine system, alternatives to animal testing, risk assessment and thresholds for carcinogens, European and international regulation, nanomaterials, fuels, fragrances, and agrochemicals. Concentrates on the basic concepts of toxicology and provides sufficient information for the reader to become familiar with them in order to understand the principles and to evaluate the risks at given exposures 30% new chapters cover recent scientific and technological advances including alternatives to animal testing; genotoxic carcinogens; REACH regulations; nanomaterials; fuels; fragrances; PAHs; and agrochemicals Written by a team of international specialists, and edited by two outstanding scientists in the field Fully updated and expanded, Toxicology and Risk Assessment: A Comprehensive Introduction, Second Edition is an essential text for any student or researcher with an interest in toxicology and related risk assessments.
This comprehensive and useful handbook represents a definitive up-to-date compendium of key in vitro bioassay methods that are employed to quantify and validate the anticancer activity of a drug candidate before it makes its way in to animal or clinical trials. In Vitro Bioassay Techniques for Anticancer Drug Discovery and Development covers the screening and evaluation of potential drug candidates in a wide category of anticancer assays demonstrating the specific ways in which various pharmaceutical bioassays interpret the activity of drug molecules. The major emphasis of the book is to present those bioassays which can be readily set up and practiced in any laboratory with limited funds, facilities or technical know-how.