Environmental Health: From Global to Local.Environmental Health: From Global to Local Edited by Howard Frumkin San Francisco San Francisco (săn frănsĭs`kō), city (1990 pop. 723,959), coextensive with San Francisco co., W Calif., on the tip of a peninsula between the Pacific Ocean and San Francisco Bay, which are connected by the strait known as the Golden :Jossey-Bass, 2005. 1,108 pp. ISBN ISBN abbr. International Standard Book Number ISBN International Standard Book Number ISBN n abbr (= International Standard Book Number) → ISBN m : 0-7879-7383-1, $75.00 Howard Frumkin has been a leader in expanding the definition of environmental health beyond the effects of toxic chemicals. His eloquence and breadth of understanding are evident in the introductory chapter to this textbook, as well as in his chapter "Nature Contact: a Health Benefit?" The book's 36 chapters contain highly pertinent insights and information on environmental issues that go beyond the usual boundaries of classic environmental health. Among the many excellent chapters are ones on climate change, ecology, urbanization, environmental justice, developing nations, health care services, energy production, genetics, indoor air pollution, religious issues, clinical services, legal remedies, environmental health policy, and transportation. This breadth makes the book a very useful reference source. Unfortunately, so much of the basics of classic environmental health are omitted or insufficiently presented that the book is not suitable as a textbook for standard undergraduate or graduate environmental health courses. Core concepts in classic toxicology and in risk assessment related to environmental chemicals receive minimal attention. For example, there is little or nothing on such topics as threshold and nonthreshold dose responses; traditional chemical safety factors; reference doses; weight of evidence for carcinogenicity carcinogenicity /car·ci·no·ge·nic·i·ty/ (kahr?si-no-je-nis´i-te) the ability or tendency to produce cancer. carcinogenicity the ability or tendency to produce cancer. ; and other standard approaches to evaluating personal and community risk from chemicals. The linkage between environmental exposure and dose, including internal dose and dose to target tissue, is only scantily scant·y adj. scant·i·er, scant·i·est 1. Barely sufficient or adequate. 2. Insufficient, as in extent or degree. scant presented. Classic environmental health concepts such as bioavailability bioavailability /bio·avail·a·bil·i·ty/ (bi?o-ah-val?ah-bil´i-te) the degree to which a drug or other substance becomes available to the target tissue after administration. bi·o·a·vail·a·bil·i·ty n. , bioaccumulation bi·o·ac·cu·mu·la·tion n. The increase in the concentration of a substance, especially a contaminant, in an organism or in the food chain over time. , and biomagnification are not systematically addressed. The risk assessment chapter focuses almost totally on cancer risk, but without mentioning the International Agency for Research on Cancer The International Agency for Research on Cancer (IARC, or CIRC in its French acronym) is an intergovernmental agency forming part of the World Health Organisation of the United Nations. Its main offices are in Lyon, France. or the National Toxicology Program National Toxicology Program Environment A program that conducts toxicologic tests on substances frequently found at the EPA's National Priorities List sites, which have the greatest potential for human exposure processes for hazard identification of carcinogens Carcinogens Substances in the environment that cause cancer, presumably by inducing mutations, with prolonged exposure. Mentioned in: Colon Cancer, Rectal Cancer . Cumulative risk is briefly touched on in the excellent chapter on environmental justice--but with no mention of aggregate risk. Environmental indicators are discussed only in relation to water pollution, and the exciting new advances in this area are not integrated or referenced; biomonitoring is only briefly mentioned in the discussion of industrial hygiene; and biomarkers only in relation to exposure, but not to effect or susceptibility. These basic concepts, as well as information about the health effects and mechanisms of toxicity of major environmental chemicals, are central to teaching the environmental health sciences to undergraduate and graduate students. Emblematic em·blem·at·ic or em·blem·at·i·cal adj. Of, relating to, or serving as an emblem; symbolic. [French emblématique, from Medieval Latin embl of the disconnect between the excellence of a chapter and value as a textbook is the treatment of exposure assessment and of informatics. The superb chapter on industrial hygiene only peripherally addresses environmental exposure assessment, a crucial component of classic environmental health. Omitted are conceptual and technical advances that have contributed heavily to advances in environmental protection. This chapter does contain a brief discussion of dose issues missing from the toxicology chapter, although its example of carbon monoxide carbon monoxide, chemical compound, CO, a colorless, odorless, tasteless, extremely poisonous gas that is less dense than air under ordinary conditions. It is very slightly soluble in water and burns in air with a characteristic blue flame, producing carbon dioxide; is unfortunate in omitting time to equilibrium and CO production through normal metabolism. Similarly, informatics has developed two major areas in environmental health: geographic information systems (GIS) and computational chemical toxicology. GIS receives a full and informative chapter, but the impact of informatics on computational toxicology is barely mentioned. The coverage of toxicity and health effects is excellently provided for radiation and for pesticides. For each major type of radiation energy, Arthur C. Upton discusses sources, mechanisms of action, acute and chronic effects, assessment of exposure and risk, effects in susceptible populations, and prevention and mitigation. Similarly, an excellent chapter on pesticides describes pests and their impact on human health, classifies pesticides by target and chemical structure, discusses pesticide use and exposures and the regulation of pesticides, and describes integrated pest management Integrated Pest Management (IPM), planned program that coordinates economically and environmentally acceptable methods of pest control with the judicious and minimal use of toxic pesticides. . But there is nothing like this for the chemical agents that remain classic areas of concern for environmental health. Some missing chemicals and concepts are covered in passing in other chapters. Unfortunately, the index is very poorly done. For effective use as a textbook, the index must be a means for the student to pursue specific topics. Yet major items are unaccountably un·ac·count·a·ble adj. 1. Impossible to account for; inexplicable: unaccountable absences. 2. left out. As examples, despite four different references to benzene among the chapters, benzene is not listed in the index; CO is indexed as a criteria air pollutant, but not to the other two chapters in which it is discussed; Frumkin's introductory discussion of dioxins does not lead to a listing in the index; and the only index listing for lung cancer lung cancer, cancer that originates in the tissues of the lungs. Lung cancer is the leading cause of cancer death in the United States in both men and women. Like other cancers, lung cancer occurs after repeated insults to the genetic material of the cell. is to a page that devotes twice the space to leukemia--but leukemia is not indexed. The authors are to be commended for using a fact-based approach, although there is occasional preaching. Joel A. Tickner, a lucid advocate of the precautionary principle The precautionary principle is a moral and political principle which states that if an action or policy might cause severe or irreversible harm to the public, in the absence of a scientific consensus that harm would not ensue, the burden of proof falls on those who would advocate , does not address its track record of being misused for economic advantage, and erroneously asserts that "strong" epidemiologic evidence of risk is needed for preventive approaches based upon risk assessment. We can agree with Barry S. Levy and Victor W. Sidel that public health personnel should advocate action against the evils of landmines without being told that we have a "responsibility" to advocate for a specific treaty. Among the superb chapters in this book are those by Sarah Kotchian on the practice of environmental public health and by Vincent T. Covello on the communication of environmental health risk. But students not only must learn who should communicate, and how, but also understand the basics about chemicals and their effects. This would be expected in a textbook for a course adhering to the recent core competency A core competency is something that a firm can do well and that meets the following three conditions specified by Hamel and Prahalad (1990):
BERNARD D. GOLDSTEIN Bernard D. Goldstein is professor of environmental and occupational health and former dean at the University of Pittsburgh Graduate School of Public Health. He is formerly U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and Assistant Administrator for Research and Development and served as president of the Society for Risk Analysis. He is a member of the Institute of Medicine, where he serves on the Board of Health Sciences Policy and on its Environmental Health Roundtable. |
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