Current Perspectives on the Use of Alternative Species in Human Health and Ecological Hazard Assessments

Perkins, Edward J.; Ankley, Gerald T.; Crofton, Kevin M.; García-Reyero, Natàlia; LaLone, Carlie A.; Johnson, Mark S.; Tietge, Joseph E.; Villeneuve, Daniel L.

doi:10.1289/ehp.1306638

Cited by 90 publications

(82 citation statements)

References 97 publications

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“…Due to similarities in molecular mechanisms that lead to toxicological outcomes, AOPs also provide a defensible framework for extrapolating chemical effects across species, thus allowing a broader integration of all available information and generation of robust hypotheses to be tested (Perkins et al, 2013). For example, in the case of pharmaceutical micropollutants, the existing knowledge on their actions in mammals can be used to develop AOPs (Brausch et al, 2012), which along with evaluation of molecular targets conservation could help in predicting relevant toxicity outcomes in other species of concern, such as fish (Gunnarsson et al, 2008;Domingo et al, 2010).…”

Section: Development Of Chronic Toxicity Aops: Information-rich Situamentioning

confidence: 99%

“…The usefulness of the AOP framework for cross-species extrapolations has been highlighted previously (Celander et al, 2011;Perkins et al, 2013) and several examples of how toxicokinetic and toxicodynamic processes contribute to differences in species sensitivity have been given above. Below, we will briefly discuss how AOPs can be used to support common strategies applied for species extrapolation (Section 4.1) and present a venue for a broader integration of evolutionary life history theory with AOP concept, which could be developed into another useful approach to cross-species extrapolation (Section 4.2).…”

Section: Aop-based Extrapolation Across Speciesmentioning

confidence: 99%

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Development and application of the adverse outcome pathway framework for understanding and predicting chronic toxicity: I. Challenges and research needs in ecotoxicology

et al. 2015

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To elucidate the effects of chemicals on populations of different species in the environment, efficient testing and modeling approaches are needed that consider multiple stressors and allow reliable extrapolation of responses across species. An adverse outcome pathway (AOP) is a concept that provides a framework for organizing knowledge about the progression of toxicity events across scales of biological organization that lead to adverse outcomes relevant for risk assessment. In this paper, we focus on exploring how the AOP concept can be used to guide research aimed at improving both our understanding of chronic toxicity, including delayed toxicity as well as epigenetic and transgenerational effects of chemicals, and our ability to predict adverse outcomes. A better understanding of the influence of subtle toxicity on individual and population fitness would support a broader integration of sublethal endpoints into risk assessment frameworks. Detailed mechanistic knowledge would facilitate the development of alternative testing methods as well as help prioritize higher tier toxicity testing. We argue that targeted development of AOPs supports both of these aspects by promoting the elucidation of molecular mechanisms and their contribution to relevant toxicity outcomes across biological scales. We further discuss information requirements and challenges in application of AOPs for chemical- and site-specific risk assessment and for extrapolation across species. We provide recommendations for potential extension of the AOP framework to incorporate information on exposure, toxicokinetics and situation-specific ecological contexts, and discuss common interfaces that can be employed to couple AOPs with computational modeling approaches and with evolutionary life history theory. The extended AOP framework can serve as a venue for integration of knowledge derived from various sources, including empirical data as well as molecular, quantitative and evolutionary-based models describing species responses to toxicants. This will allow a more efficient application of AOP knowledge for quantitative chemical- and site-specific risk assessment as well as for extrapolation across species in the future.

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Section: Development Of Chronic Toxicity Aops: Information-rich Situamentioning

confidence: 99%

Section: Aop-based Extrapolation Across Speciesmentioning

confidence: 99%

Development and application of the adverse outcome pathway framework for understanding and predicting chronic toxicity: I. Challenges and research needs in ecotoxicology

et al. 2015

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“…From the same study, US EPA (2009a,b) derived a TDI of 80 ng kg À1 bw, accounting for an extrapolation factor based on the toxicokinetics differences in humans, and animals. It seems worthy to note that the above modeled TDIs might need re-assessment on the evidences of other toxicological end-points such as sperm quality (Joensen et al, 2009) or delayed pregnancy (Fei et al, 2009) having been observed in the average population being exposed to considerable lower level than the TDI and within a combined exposure assessment, also targeted on the identification of Adverse Outcome Pathways via alternative methods based on high throughput screening tests (Perkins et al, 2013).…”

Section: Risk Characterizationmentioning

confidence: 99%

Pathways and factors for food safety and food security at PFOS contaminated sites within a problem based learning approach

Brambilla

D’Hollander

Oliaei³

et al. 2015

Chemosphere

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“…The steroidogenic pathway is well conserved among species (Perkins et al, 2013) allowing for extrapolation of results across vertebrate classes and to other steroid-producing organisms.…”

Section: Introductionmentioning

confidence: 99%

Tebuconazole disrupts steroidogenesis in Xenopus laevis

et al. 2015

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Current Perspectives on the Use of Alternative Species in Human Health and Ecological Hazard Assessments

Cited by 90 publications

References 97 publications

Development and application of the adverse outcome pathway framework for understanding and predicting chronic toxicity: I. Challenges and research needs in ecotoxicology

Development and application of the adverse outcome pathway framework for understanding and predicting chronic toxicity: I. Challenges and research needs in ecotoxicology

Pathways and factors for food safety and food security at PFOS contaminated sites within a problem based learning approach

Tebuconazole disrupts steroidogenesis in Xenopus laevis

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