An Introduction to Environmental Epidemiology covers the basics of environmental exposure, health, and disease. Written to be easily accessible to readers with no formal training in epidemiology or statistics, this practical introduction is an ideal text/reference for students and professionals in nursing, medicine, industrial hygiene, occupational and environmental health, and general environmental science. It provides a target-organ oriented presentation of environmental hazards, with detailed discussions of selected exposures such as asbestos, lead, radon, and indoor and outdoor air pollutants. Major topics covered include:
Introduction to Environmental Health: A Global Perspective explores the fundamentals of environmental health, giving students a solid grounding in current issues and controversies and enhancing understanding of the scientific data that drives these issues. Each chapter of the text begins with an introduction and concise review of each topic, which is then expanded through relevant readings, most of which include data sets. Chapters include readings that illustrate concepts in the context of a developed country, followed by readings that illustrate that same concept in a developing country. This gives students the opportunity to explore how economics impacts environmental policies. By examining environmental health from several demographic and cultural perspectives, the material also educates students about environmental justice, and the consequences of human activity on natural systems. The book addresses a variety of environmental health topics including human population, toxicology, biomes, water resources, and solid and hazardous waste management. This edition features updated introductions, timely readings, and up-to-date statistics. Introduction to Environmental Health is ideal for undergraduate courses in environmental heath, public health, health sciences, sustainability, and global health. The book includes upper level materials, and in-depth readings and case studies. Filled with current examples and contemporary readings, the text makes environmental science both relevant and relatable. Anne Marie Zimeri earned her Ph.D. in molecular genetics at the University of Georgia. She is currently an assistant professor at the University of Georgia, Athens, where she teaches courses in environmental health science, genetic applications in environmental health sciences, solid and hazardous waste management, emerging technologies, and global food security. In addition to teaching, Dr. Zimeri serves as the undergraduate coordinator and internship coordinator for the EHAC Accredited Department of Environmental Health Sciences Program.
From the author of the bestselling Introduction to Epidemiology, this new book presents basic concepts and research methods used in environmental epidemiology and the application of environmental epidemiology to influencing human health and well-being. The first eight chapters cover basic concepts and research methods used in environmental epidemiology. The following chapters focus on the application of environmental epidemiology to specific environmental factors associated with health. Developed for an introductory course in environmental epidemiology, Environmental Epidemiology is ideal for undergraduate and graduate students in public health, as well as field public health workers. Important Notice: The digital edition of this book is missing some of the images or content found in the physical edition.
The amount of hazardous waste in the United States has been estimated at 275 million metric tons in licensed sites alone. Is the health of Americans at risk from exposure to this toxic material? This volume, the first of several on environmental epidemiology, reviews the available evidence and makes recommendations for filling gaps in data and improving health assessments. The book explores: Whether researchers can infer health hazards from available data. The results of substantial state and federal programs on hazardous waste dangers. The book presents the results of studies of hazardous wastes in the air, water, soil, and food and examines the potential of biological markers in health risk assessment. The data and recommendations in this volume will be of immediate use to toxicologists, environmental health professionals, epidemiologists, and other biologists.
This important resource offers a comprehensive overview of the major U.S. environmental laws and approaches, strategies, standards, and enforcement techniques by which American law protects our environment and our health. Written for the non-lawyer, the book puts the spotlight on general concepts that go a long way to demystify the American legal system (what law consists of, who makes it, how it is made, and how it is enforced). The authors also introduce the major environmental laws and evaluate issues, controversies and developments in environmental policy.
This completely updated edition of Exposure Assessment in Environmental Epidemiology offers a practical introduction to exposure assessment methodologies in environmental epidemiologic studies. In addition to methods for traditional methods -- questionnaires, biomonitoring -- this new edition is expanded to include geographic information systems, modeling, personal sensoring, remote sensing, and OMICs technologies. In addition, each of these methods is contextualized within a recent epidemiology study, maximizing illustration for students and those new to these to these techniques. With clear writing and extensive illustration, this book will be useful to anyone interested in exposure assessment, regardless of background.
A comprehensive survey of the epidemiology of common environmental exposures, this volume covers diet, water, particulates in outdoor air, nitrogen dioxide, ozone, environmental tobacco smoke, radon in homes, electromagnetic fields, and lead. Design and analysis issues, risk assessment and meta-analysis, and future directions in environmental epidemiology are also discussed. All chapters provide a review of the relevant literature as well as an overview of important methodologic issues, particularly exposure assessment and statistical methods. Most of these exposures are widespread and low-level, and are thought to increase the risk of chronic diseases that have many causes. Even though the disease risks due to these exposures may be low, the public health burden may be significant because large numbers of people are exposed. Such exposures are inherently difficult to detect via observational epidemiology. This book clarifies the problems and suggests ways to move forward. It will be useful to students and practitioners of public health, environmental health, and epidemiology.
A systematic treatment of the statistical challenges that arise in environmental health studies and the use epidemiologic data in formulating public policy, at a level suitable for graduate students and epidemiologic researchers.
As an area of statistical application, environmental epidemiology and more speci cally, the estimation of health risk associated with the exposure to - vironmental agents, has led to the development of several statistical methods and software that can then be applied to other scienti c areas. The stat- tical analyses aimed at addressing questions in environmental epidemiology have the following characteristics. Often the signal-to-noise ratio in the data is low and the targets of inference are inherently small risks. These constraints typically lead to the development and use of more sophisticated (and pot- tially less transparent) statistical models and the integration of large hi- dimensional databases. New technologies and the widespread availability of powerful computing are also adding to the complexities of scienti c inves- gation by allowing researchers to t large numbers of models and search over many sets of variables. As the number of variables measured increases, so do the degrees of freedom for in uencing the association between a risk factor and an outcome of interest. We have written this book, in part, to describe our experiences developing and applying statistical methods for the estimation for air pollution health e ects. Our experience has convinced us that the application of modern s- tistical methodology in a reproducible manner can bring to bear subst- tial bene ts to policy-makers and scientists in this area. We believe that the methods described in this book are applicable to other areas of environmental epidemiology, particularly those areas involving spatial{temporal exposures.
