Alternative methods like predictions based on Quantitative Structure–Activity Relationships (QSARs) are now accepted to fill data gaps and define priority lists for more expensive and time consuming assessments. A heterogeneous data set of 74 esters was studied for their aquatic toxicity, and available experimental toxicity data on algae, Daphnia and fish were used to develop statistically validated QSAR models, obtained using multiple linear regression (MLR) by the OLS (Ordinary Least Squares) method and GA-VSS (Variable Subset Selection by Genetic Algorithms) to predict missing values. An ESter Aquatic Toxicity INdex (ESATIN) was then obtained by combining, by PCA, experimental and predicted toxicity data, from which model outliers and e...
The development of models to predict important environmental properties is easily recognised in the ...
Triazoles and benzo-triazoles (TAZ/BTAZ) are potentially hazardous chemicals that adversely affect h...
The authors also gratefully acknowledge L. Geoffroy, L. Chancerelle and P. Pandard from the INERIS I...
Alternative methods like predictions based on Quantitative Structure–Activity Relationships (QSARs) ...
Active Pharmaceutical Ingredients (APIs) are recognized as Contaminants of Emerging Concern (CEC) si...
The fast-increasing number of commercially produced chemicals challenges the experimental ecotoxicit...
The use of Quantitative Structure-Activity Relationships in assessing the potential negative effects...
A large number of QSARs for acute toxicity have been developed and published. Toxicity to a wide var...
Personal Care Product (PCP) ingredients, widely used all over the world, over the last few years hav...
International audienceThree quantitative structure–activity relationship (QSAR) models were evaluate...
Regression analysis has been applied to examine the structure-toxicity relationships regarding the a...
Quantitative structure-activity relationship (QSAR) models are expected to play a crucial role in re...
The development of models to predict important environmental properties is easily recognised in the ...
Triazoles and benzo-triazoles (TAZ/BTAZ) are potentially hazardous chemicals that adversely affect h...
The authors also gratefully acknowledge L. Geoffroy, L. Chancerelle and P. Pandard from the INERIS I...
Alternative methods like predictions based on Quantitative Structure–Activity Relationships (QSARs) ...
Active Pharmaceutical Ingredients (APIs) are recognized as Contaminants of Emerging Concern (CEC) si...
The fast-increasing number of commercially produced chemicals challenges the experimental ecotoxicit...
The use of Quantitative Structure-Activity Relationships in assessing the potential negative effects...
A large number of QSARs for acute toxicity have been developed and published. Toxicity to a wide var...
Personal Care Product (PCP) ingredients, widely used all over the world, over the last few years hav...
International audienceThree quantitative structure–activity relationship (QSAR) models were evaluate...
Regression analysis has been applied to examine the structure-toxicity relationships regarding the a...
Quantitative structure-activity relationship (QSAR) models are expected to play a crucial role in re...
The development of models to predict important environmental properties is easily recognised in the ...
Triazoles and benzo-triazoles (TAZ/BTAZ) are potentially hazardous chemicals that adversely affect h...
The authors also gratefully acknowledge L. Geoffroy, L. Chancerelle and P. Pandard from the INERIS I...