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Full-Text Articles in Systems Biology
Screening For Neurotoxic Potential Of 15 Flame Retardants Using Freshwater Planarians, S. Zhang, D. Ireland, N. S. Sipes, M. Behl, Eva-Maria S. Collins
Screening For Neurotoxic Potential Of 15 Flame Retardants Using Freshwater Planarians, S. Zhang, D. Ireland, N. S. Sipes, M. Behl, Eva-Maria S. Collins
Biology Faculty Works
Asexual freshwater planarians are an attractive invertebrate model for high-throughput neurotoxicity screening, because they possess multiple quantifiable behaviors to assess distinct neuronal functions. Planarians uniquely allow direct comparisons between developing and adult animals to distinguish developmentally selective effects from general neurotoxicity. In this study, we used our automated planarian screening platform to compare the neurotoxicity of 15 flame retardants (FRs), consisting of representative phased-out brominated (BFRs) and replacement organophosphorus FRs (OPFRs). OPFRs have emerged as a proposed safer alternative to BFRs; however, limited information is available on their health effects. We found 11 of the 15 FRs (3/6 BFRs, 7/8 …
Comparative Analysis Of Zebrafish And Planarian Model Systems For Developmental Neurotoxicity Screens Using An 87-Compound Library, D. Hagstrom, L. Truong, S. Zhang, R. Tanguay, Eva-Maria S. Collins
Comparative Analysis Of Zebrafish And Planarian Model Systems For Developmental Neurotoxicity Screens Using An 87-Compound Library, D. Hagstrom, L. Truong, S. Zhang, R. Tanguay, Eva-Maria S. Collins
Biology Faculty Works
There is a clear need to establish and validate new methodologies to more quickly and efficiently screen chemicals for potential toxic effects, particularly on development. The emergence of alternative animal systems for rapid toxicology screens presents valuable opportunities to evaluate how systems complement each other. In this article, we compare a chemical library of 87-compounds in two such systems, developing zebrafish and freshwater planarians, by screening for developmental neurotoxic effects. We show that the systems’ toxicological profiles are complementary to each other, with zebrafish yielding more detailed morphological endpoints and planarians more behavioral endpoints. Overall, zebrafish was more sensitive to …