Highly sensitive determination of diclofenac based on resin beads and a novel polyclonal antibody by using flow injection chemiluminescence competitive immunoassay

The liver is among the most frequently targeted organs by noxious chemicals of diverse nature. Liver toxicity testing using laboratory animals not only raises serious ethical questions, but is also rather poorly predictive of human safety towards chemicals. Increasing attention is, therefore, being paid to the development of non-animal and human-based testing schemes, which rely to a great extent on in vitro methodology. The present paper proposes a rationalized tiered in vitro testing strategy to detect liver toxicity triggered by chemicals, in which the first tier is focused on assessing general cytotoxicity, while the second tier is aimed at identifying liver-specific toxicity as such. A state-of-the-art overview is provided of the most commonly used in vitro assays that can be used in both tiers. Advantages and disadvantages of each assay as well as overall practical considerations are discussed.

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A Jigsaw-Based End-User Tool for the Development of Ontology-Based Knowledge Bases

Sanctorum

Riggio

Sepehri

et al. 2021

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An overview of current practices for regulatory risk assessment with lessons learnt from cosmetics in the European Union

Arnesdotter

Rogiers

Vanhaecke

et al. 2021

Critical Reviews in Toxicology

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Systematic comparison of temporal transcriptional responses to hepatotoxicants in primary human hepatocytes and HepaRG cells using concentration-response modelling of gene co-expression networks

Kunnen

Arnesdotter

Willenbockel

et al. 2023

Preprint

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Next generation risk assessment of chemicals revolves around the use of mechanistic information without animal experimentation. In this regard, toxicogenomics has proven to be a useful tool to elucidate the underlying mechanisms of adverse effects of xenobiotics. In the present study, two widely used human in vitro hepatocyte culture systems, namely primary human hepatocytes (PHH) and human hepatoma HepaRG cells, were exposed to liver toxicants known to induce liver steatosis, cholestasis or necrosis. Benchmark concentration-response modelling was applied to transcriptomics gene co-expression networks (modules) in order to derive benchmark concentrations (BMCs) and to gain mechanistic insight into the hepatotoxic effects. BMCs derived by concentration-response modelling of gene co-expression modules recapitulated concentration-response modelling of individual genes. Although PHH and HepaRG cells showed overlap in deregulated genes and modules by the liver toxicants, PHH demonstrated a higher responsiveness, based on the lower BMCs of co-regulated gene modules. Such BMCs can be used as point of departure for assessing module-associated cellular (stress) pathways/processes. This approach could serve next generation risk assessment practice to identify early responsive modules at low BMCs. In turn, this can assist in delineating potential hazards of new test chemicals using in vitro systems when BMCs are paired with chemical exposure assessment and used in a subsequent risk assessment.

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Emma Arnesdotter

Derivation, characterisation and analysis of an adverse outcome pathway network for human hepatotoxicity

In Vitro Liver Toxicity Testing of Chemicals: A Pragmatic Approach

A Jigsaw-Based End-User Tool for the Development of Ontology-Based Knowledge Bases

An overview of current practices for regulatory risk assessment with lessons learnt from cosmetics in the European Union

Systematic comparison of temporal transcriptional responses to hepatotoxicants in primary human hepatocytes and HepaRG cells using concentration-response modelling of gene co-expression networks

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