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RECORD NUMBER: 464 OF 1175

OLS Field Name OLS Field Data
Main Title Fish Acute Toxicity Syndromes and Their Use in the QSAR (Quantitative Structure Activity Relationship) Approach to Hazard Assessment.
Author McKim, J. M. ; Bradbury, S. P. ; Niemi, G. J. ;
CORP Author Environmental Research Lab.-Duluth, MN. ;Minnesota Univ.-Duluth.
Year Published 1987
Report Number EPA/600/J-87/113;
Stock Number PB88-140512
Additional Subjects Fishes ; Water pollution ; Quantitative analysis ; Aquatic biology ; Contaminants ; Lethal dosage ; Trout ; Toxicology ; Acetylcholine sterase ; Reprints ; Water pollutants
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
NTIS  PB88-140512 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 06/21/1988
Collation 18p
Abstract
Implementation of the Toxic Substances Control Act of 1977 creates the need to reliably establish testing priorities because laboratory resources are limited and the number of industrial chemicals requiring evaluation is overwhelming. The use of quantitative structure activity relationship (QSAR) models as rapid and predictive screening tools to select more potentially hazardous chemicals for in-depth laboratory evaluation has been proposed. Further implementation and refinement of quantitative structure-toxicity relationships in aquatic toxicology and hazard assessment requires the development of a 'mode-of-action' database. With such a database, a qualitative structure-activity relationship can be formulated to assign the proper mode of action, and respective QSAR, to a given chemical structure. In this review, the development of fish acute toxicity syndromes (FATS), which are toxic-response sets based on various behavioral and physiological-biochemical measurements, and their projected use in the mode-of-action database are outlined. Using behavioral parameters monitored in the fathead minnow during acute toxicity testing, FATS associated with acetylcholinesterase (AChE) inhibitors and narcotics could be reliably predicted. However, compounds classified as oxidative phosphorylation uncouplers or stimulants could not be resolved. Refinement of this approach by using respiratory-cardiovascular responses in the rainbow trout, enabled FATS associated with AChE inhibitors, convulsants, narcotics, respiratory blockers, respiratory membrane irritants, and uncouplers to be correctly predicted. (Copyright (c) Environmental Health Perspectives, Vol. 71, pp. 171-186, April, 1987.)