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https://ir.library.oregonstate.edu/concern/articles/gb19f7669

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  • A substantial body of evidence has correlated the human body burdens of some polybrominated diphenyl ether (PBDE) flame retardants with cognitive and other behavioral deficits. Adult zebrafish exhibit testable learning and memory, making them an increasingly attractive model for neurotoxicology. Our goal was to develop a rapid throughput means of identifying the cognitive impact of developmental exposure to flame retardants in the zebrafish model. We exposed embryos from 6 h post fertilization to 5 days post fertilization to either PBDE 47 (0.1 μM), PBDE 99 (0.1 μM) or PBDE 153 (0.1 μM), vehicle (0.1% DMSO), or embryo medium (EM). The larvae were grown to adulthood and evaluated for the rate at which they learned an active-avoidance response in an automated shuttle box array. Zebrafish developmentally exposed to PBDE 47 learned the active avoidance paradigm significantly faster than the 0.1% DMSO control fish (P < 0.0001), but exhibited significantly poorer performance when retested suggestive of impaired memory retention or altered neuromotor activity. Learning in the PBDE 153 group was not significantly different from the DMSO group. Developmental exposure to 0.1% DMSO impaired adult active avoidance learning relative to the sham group (n = 39; P < 0.0001). PBDE 99 prevented the DMSO effect, yielding a learning rate not significantly different from the sham group (n = 36; P > 0.9). Our results underscore the importance of vehicle choice in accurately assessing chemical effects on behavior. Active avoidance response in zebrafish is an effective model of learning that, combined with automated shuttle box testing, will provide a highly efficient platform for evaluating persistent neurotoxic hazard from many chemicals.
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  • description.provenance : Made available in DSpace on 2014-12-02T19:06:26Z (GMT). No. of bitstreams: 3 TanguayRobertEnvironMolecToxicolRapidThroughputApproach.pdf: 369544 bytes, checksum: 1f5e6599debc32eae4c46aab4cf9f9d3 (MD5) TanguayRobertEnvironMolecToxicolRapidThroughputApproach(Figures1-5).pdf: 898403 bytes, checksum: 75440f04c8bd9965707fb50c2a777a27 (MD5) TanguayRobertEnvironMolecToxicolRapidThroughputApproach(Tables1-4).pdf: 119278 bytes, checksum: fa8980572ead77b9252d0253ead3a474 (MD5) Previous issue date: 2014-07
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  • description.provenance : Submitted by Deanne Bruner (deanne.bruner@oregonstate.edu) on 2014-12-02T19:02:32Z No. of bitstreams: 3 TanguayRobertEnvironMolecToxicolRapidThroughputApproach.pdf: 369544 bytes, checksum: 1f5e6599debc32eae4c46aab4cf9f9d3 (MD5) TanguayRobertEnvironMolecToxicolRapidThroughputApproach(Figures1-5).pdf: 898403 bytes, checksum: 75440f04c8bd9965707fb50c2a777a27 (MD5) TanguayRobertEnvironMolecToxicolRapidThroughputApproach(Tables1-4).pdf: 119278 bytes, checksum: fa8980572ead77b9252d0253ead3a474 (MD5)