Estimation of human blood LC50 values for use in modeling of in vitro-in vivo data of the ACuteTox project.

The main aim of the ACuteTox project, under EU 6th Framework programme, is to investigate whether animal toxicity tests for acute systemic toxicity could be replaced by a combination of alternative assays. Data for 97 reference chemicals was collected in the ACuteTox database (Acutoxbase), designed to handle invitro and invivo (human and animal) lodged data. The principal basis for demonstration of the applicability of invitro tests is the invitro-invivo modeling, by using statistical correlation between invitro IC50 molar values (the 50% inhibitory concentration for the endpoints measured) and human blood molar concentrations LC50 (50% lethal concentrations).

The integrated acute systemic toxicity project (ACuteTox) for the optimisation and validation of alternative in vitro tests.

The ACuteTox project is designed to replace animal testing for acute systemic toxicity, as is widely used today for regulatory purposes, by using in vitro and in silico alternatives. In spite of the fact that earlier studies on acute systemic toxicity demonstrated a good correlation between in vitro basal cytotoxicity data (the 50% inhibitory concentration [IC50]) in human cell lines and rodent LD50 values, and an even better correlation between IC50 values and human lethal blood concentrations, very few non-animal tests have been accepted for general use. Therefore, the aim of the ACuteTox project is to adapt new testing strategies, for example, the implementation of new endpoints and new cell systems for toxicity screening, organ-specific models, metabolism-dependent toxicity, tissue absorption, distribution and excretion, and computer-based prediction models.

Use of the PFGE assay for studies of DNA breakage induced by toxic chemicals.

The relevance of the pulsed field gel electrophoresis (PFGE) assay for the estimation of the DNA damaging effects of chemicals was studied. Four chemicals were randomly chosen from the list of 50 Multicentre Evaluation of In Vitro Cytotoxicity (MEIC) reference chemicals with known human acute systemic toxicity: acetylsalicylic acid, paracetamol, ethylene glycol and sodium chloride. Human fibroblasts (VH-10) were used as a model system.

The prediction of human acute systemic toxicity by the EDIT/MEIC in vitro test battery: the importance of protein binding and of partitioning into lipids.

The aim of the two studies presented in this paper was to further improve the predictability of the original Multicentre Evaluation of In Vitro Cytotoxicity (MEIC) in vitro test battery for acute systemic toxicity. In the first study, whether a protein-free cytotoxicity assay could improve the prediction of human acute systemic toxicity was investigated. The cytotoxicity of 39 MEIC reference chemicals was measured by the neutral red uptake inhibition test after 30 minutes in phosphate-buffered saline (PBS), with hepatoma-derived Fa32 cells.

Development of an in vitro test battery for the estimation of acute human systemic toxicity: An outline of the EDIT project. Evaluation-guided Development of New In Vitro Test Batteries.

The aim of the Evaluation-guided Development of new In Vitro Test Batteries (EDIT) multicentre programme is to establish and validate in vitro tests relevant to toxicokinetics and for organ-specific toxicity, to be incorporated into optimal test batteries for the estimation of human acute systemic toxicity. The scientific basis of EDIT is the good prediction of human acute toxicity obtained with three human cell line tests (R(2) = 0.77), in the Multicentre Evaluation of In Vitro Cytotoxicity (MEIC) programme.