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. 2020 Jun 12;128(6):067010. doi: 10.1289/EHP6508

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EHP is an open-access journal published with support from the National Institute of Environmental Health Sciences, National Institutes of Health. All content is public domain unless otherwise noted.

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Figure 1 is a workflow diagram. Metal oxide nanoparticle library (30 MeONPs) includes characteristics like size and zeta potential, cytokine production (In vitro), and oropharyngeal instillation (In vivo). The in vitro and in vivo lead to each other. Metal oxide nanoparticle library (30 MeONPs) leads to (Q) SARs, comprising a tree diagram, where X subscript 1 leads to No and X subscript 2 by including less than or equal to 3.10 and greater than 3.10, respectively. X subscript 2 leads to yes and no by including less than or equal to 1.20 and greater than 1.20, respectively, and a graph, where Y equals f (x subscript 1, x subscript 2, to x subscript n). (Q) SARs leads to experimental validation, comprising seven new MeONPs and mechanism interpretation. Quantum chemistry calculations leads to (Q) SARs using In Silico. — Schematic workflow of metal oxide nanomaterials (MeONPs) library construction, predictive modeling, mechanism interpretation, and experimental validation.