Bryant Chambers scite author profile

Bryant Chambers

3Publications

33Citation Statements Received

0Citation Statements Given

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172

Affiliations

Environmental Protection Agency, Research Triangle Park Foundation

Publications

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Estimating Hepatotoxic Doses Using High-Content Imaging in Primary Hepatocytes

Shah

Antonijevic

Chambers

et al. 2021

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Using in vitro data to estimate point of departure (POD) values is an essential component of new approach methodologies (NAM)-based chemical risk assessments. In this case study, we evaluated a NAM for hepatotoxicity based on rat primary hepatocytes, high-content imaging (HCI), and toxicokinetic modeling. First, we treated rat primary hepatocytes with 10 concentrations (0.2 to 100 µM) of 51 chemicals that produced hepatotoxicity in repeat-dose subchronic and chronic exposures. Second, we used HCI to measure endoplasmic reticulum stress, mitochondrial function, lysosomal mass, steatosis, apoptosis, DNA texture, nuclear size, and cell number at 24, 48, and 72 h and calculated concentrations at 50% maximal activity (AC50). Third, we estimated administered equivalent doses (AEDs) from AC50 values using toxicokinetic modeling. AEDs using physiologically-based toxicokinetic models were 4.1-fold (SD 6.3) and 8.1-fold (SD 15.5) lower than subchronic and chronic lowest observed adverse effect levels (LOAELs), respectively. In contrast, AEDs from ToxCast and Tox21 assays were 89.8-fold (SD 149.5) and 168-fold (SD 323.7) lower than subchronic and chronic LOAELs. Individual HCI end-points also estimated AEDs for specific hepatic lesions that were lower than in vivo PODs. Lastly, AEDs were similar for different in vitro exposure durations, but steady-state toxicokinetic models produced 7.6-fold lower estimates than dynamic physiologically-based ones. Our findings suggest that NAMs from diverse cell types provide conservative estimates of PODs. In contrast, NAMs based on the same species and cell type as the adverse outcome may produce estimates closer to the traditional in vivo PODs.

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Evaluating adaptive stress response gene signatures using transcriptomics

Chambers

Shah

2021

Computational Toxicology

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Application of Cell Painting for chemical hazard evaluation in support of screening-level chemical assessments

Nyffeler

Willis

Harris

et al. 2023

Toxicology and Applied Pharmacology

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Bryant Chambers

Estimating Hepatotoxic Doses Using High-Content Imaging in Primary Hepatocytes

Evaluating adaptive stress response gene signatures using transcriptomics

Application of Cell Painting for chemical hazard evaluation in support of screening-level chemical assessments

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