Abstract Human bioaccumulative potential is an impor-tant element in the risk assessment of chemicals. Due to the high number of synthetic chemicals, there exists the need to develop prioritisation strategies. The purpose of this study was to develop a predictive tool for human bioaccumulation risk assessment that incorporates not only the chemical properties of the compounds, but also the processes that tend to decrease the concentration of the compound such as metabolisation. We used a generic physiologically based toxicokinetic model that based on in vitro human liver metabolism data, minimal renal excretion and a constant exposure was able to assess the bioaccumulative potential of a chemical. The approach has been analysed using lit-er...
With an ever-increasing production rate of industrial chemicals, the human population is exposed to ...
Advances in both sensitivity and specificity of analytical chemistry have made it possible to quanti...
Increasing numbers of chemicals are registered at federal agencies of which most of them have little...
Human bioaccumulative potential is an important element in the risk assessment of chemicals. Due to ...
Toxicokinetics heavily influence chemical toxicity as the result of Absorption, Distribution, Metabo...
Physiology-Based BioKinetic (PBBK) models are of increasing interest in modern risk assessment, prov...
The current approach to human health risk assessment is an integrated approach requiring a significa...
High-throughput in vitro toxicity screening can provide an efficient way to identify potential biolo...
Hepatic metabolic clearance is one of the most important factors driving the overall kinetics of che...
We assessed the ecotoxicological hazard potential of 42 pharmaceuticals from 22 therapeutic groups, ...
The effective management of industrial and commercial chemicals in the environment requires good pub...
Toxicology is moving away from animal testing towards in vitro tools to assess chemical safety. This...
Mandated efforts to assess chemicals for their potential to bioaccumulate within the environment are...
Currently the assessment of risk to human health from exposure to manufactured chemicals is mainly b...
In this project quantitative structure-activity relationships (QSARs) were developed for several tox...
With an ever-increasing production rate of industrial chemicals, the human population is exposed to ...
Advances in both sensitivity and specificity of analytical chemistry have made it possible to quanti...
Increasing numbers of chemicals are registered at federal agencies of which most of them have little...
Human bioaccumulative potential is an important element in the risk assessment of chemicals. Due to ...
Toxicokinetics heavily influence chemical toxicity as the result of Absorption, Distribution, Metabo...
Physiology-Based BioKinetic (PBBK) models are of increasing interest in modern risk assessment, prov...
The current approach to human health risk assessment is an integrated approach requiring a significa...
High-throughput in vitro toxicity screening can provide an efficient way to identify potential biolo...
Hepatic metabolic clearance is one of the most important factors driving the overall kinetics of che...
We assessed the ecotoxicological hazard potential of 42 pharmaceuticals from 22 therapeutic groups, ...
The effective management of industrial and commercial chemicals in the environment requires good pub...
Toxicology is moving away from animal testing towards in vitro tools to assess chemical safety. This...
Mandated efforts to assess chemicals for their potential to bioaccumulate within the environment are...
Currently the assessment of risk to human health from exposure to manufactured chemicals is mainly b...
In this project quantitative structure-activity relationships (QSARs) were developed for several tox...
With an ever-increasing production rate of industrial chemicals, the human population is exposed to ...
Advances in both sensitivity and specificity of analytical chemistry have made it possible to quanti...
Increasing numbers of chemicals are registered at federal agencies of which most of them have little...