Environmental endocrine disruption: an effects assessment and analysis.

This report is an overview of the current state of the science relative to environmental endocrine disruption in humans, laboratory testing, and wildlife species. Background information is presented on the field of endocrinology, the nature of hormones, and potential sites for endocrine disruption, with specific examples of chemicals affecting these sites. An attempt is made to present objectively the issue of endocrine disruption, consider working hypotheses, offer opposing viewpoints, analyze the available information, and provide a reasonable assessment of the problem. Emphasis is placed on disruption of central nervous system--pituitary integration of hormonal and sexual behavioral activity, female and male reproductive system development and function, and thyroid function. In addition, the potential role of environmental endocrine disruption in the induction of breast, testicular, and prostate cancers, as well as endometriosis, is evaluated. The interrelationship of the endocrine and immune system is documented. With respect to endocrine-related ecological effects, specific case examples from the peer-reviewed literature of marine invertebrates and representatives of the five classes of vertebrates are presented and discussed. The report identifies some data gaps in our understanding of the environmental endocrine disruption issue and recommends a few research needs. Finally, the report states the U.S. Environmental Protection Agency Science Policy Council's interim position on endocrine disruption and lists some of the ongoing activities to deal with this matter.

The application of structure-activity relationships (SARs) in the aquatic toxicity evaluation of discrete organic chemicals.

The Office of Pollution Prevention and Toxics (OPPT), United States Environmental Protection Agency (USEPA) routinely uses structure-activity relationships (SAR) for the aquatic hazard assessment of new chemicals submitted under Section 5 of the Toxic Substances Control Act (TSCA). With 15 years of experience and the general acceptance of toxicity predictions based on SARs, OPPT has expanded the use and application of the methodology to include existing chemicals used in printing, dry cleaning, and paint stripping. SAR analysis has also been used in the hazard evaluation of the U.S. and EU/OECD high production volume (HPV) chemicals. This paper describes the assumptions, limitations, and methodology for the use of SARs to evaluate large sets of discrete organic chemicals.

Immunologic alterations by environmental chemicals: relevance of studying mechanisms versus effects.

A number of environmental chemicals are known to modify the immune responses via a number of different mechanisms. Immunologic systems are vital to the well-being of individuals and a number of toxic effects are likely to be produced by chemical alteration of its processes. A variety of tests have been suggested for screening existing or new chemicals with regards to their potential to modify the immune responses. It is well recognized that immune responses are highly temporal (time-related) and the outcome of a test is likely to be influenced by the specific protocol employed and other factors that may involve the test organism. Although standardization of tests will probably reduce some of this variability, test standardization is not expected to provide more valuable information than can be already predicted by the routine evaluation of chronic toxicity and clinical parameters. The need for studying the mechanisms involved in the modification of immunologic processes by exogenous and even endogenous chemicals is emphasized in this report.

DDT: short term effects on osmoregulation in black surfperch (Embiotoca jacksoni).

DDT injected intraperitoneally into black surfperch caused substantial increases in plasma osmotic concentration only at doses much larger than are likely to be encountered in nature. Increased plasma concentrations were below those tolerated by fish adapted to high salinities. Death of marine teleosts from DDT poisoning probably involves factors other than simply osmoregulatory failure.