Pathway-Based Predictive Approaches for Non-Animal Assessment of Acute Inhalation toxicity

CLIPPINGER, Amy J.; ALLEN, David; BEHRSING, Holger; BERUBE, Kelly; BOLGER, P. Michael; CASEY, Warren; DELORME, Michael; GACA, Marianna; GEHEN, Sean; GLOVER, Kyle P; HAYDEN, Patrick; HINDERLITER, Paul; HOTCHKISS, John; ISKANDAR, Anita; KEYSER, Brain; LUETTICH, Karsta; MA-HOCK, Lan; MAIONE, Anna; MAKENA, Patrudu; MELBOURNE, Jodie; MILCHAK, Lawrence; NG, Sheung P.; PAINI, Alicia; PAGE, Kathryn; PATLEWICZ, Grace; PRIETO, PERAITA Maria Del Pilar; RAABE, Hans; REINKE, Emily; ROPER, Clive; ROSE, Jane; SHARMA, Monita; SPOO, Wayne; THORNE, Peter S.; JARABEK, Annie; WILSON, Dan

doi:10.1016/j.tiv.2018.06.009

New approaches are needed to assess the effects of inhaled substances on human health. These approaches will be based on mechanisms of toxicity, an understanding of dosimetry, and the use of in silico modeling and in vitro test methods. In order to accelerate wider implementation of such approaches, development of adverse outcome pathways (AOPs) can help identify and address gaps in our understanding of relevant parameters for model input and mechanisms, and optimize non-animal approaches that can be used to investigate key events of toxicity. This paper describes the AOPs and the toolbox of in vitro and in silico models that can be used to assess the key events leading to toxicity following inhalation exposure. Because the optimal testing strategy will vary depending on the substance of interest, here we present a decision tree approach to identify an appropriate non-animal integrated testing strategy that incorporates consideration of a substance's physicochemical properties, relevant mechanisms of toxicity, and available in silico models and in vitro test methods. This decision tree can facilitate standardization of the testing approaches. Case study examples are presented to provide a basis for proof-of-concept testing to illustrate the utility of non-animal approaches to inform hazard identification and risk assessment of humans exposed to inhaled substances.

CLIPPINGER Amy J.; ALLEN David; BEHRSING Holger; BERUBE Kelly; BOLGER P. Michael; CASEY Warren; DELORME Michael; GACA Marianna; GEHEN Sean; GLOVER Kyle P; HAYDEN Patrick; HINDERLITER Paul; HOTCHKISS John; ISKANDAR Anita; KEYSER Brain; LUETTICH Karsta; MA-HOCK Lan; MAIONE Anna; MAKENA Patrudu; MELBOURNE Jodie; MILCHAK Lawrence; NG Sheung P.; PAINI Alicia; PAGE Kathryn; PATLEWICZ Grace; PRIETO PERAITA Maria Del Pilar; RAABE Hans; REINKE Emily; ROPER Clive; ROSE Jane; SHARMA Monita; SPOO Wayne; THORNE Peter S.; JARABEK Annie; WILSON Dan;

2018-06-26

PERGAMON-ELSEVIER SCIENCE LTD

JRC111034

0887-2333,

https://publications.jrc.ec.europa.eu/repository/handle/JRC111034,

10.1016/j.tiv.2018.06.009,

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