TREXMO plus: an advanced self-learning model for occupational exposure assessment.
Details
Serval ID
serval:BIB_9558AFC733C3
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
TREXMO plus: an advanced self-learning model for occupational exposure assessment.
Journal
Journal of exposure science & environmental epidemiology
ISSN
1559-064X (Electronic)
ISSN-L
1559-0631
Publication state
Published
Issued date
05/2020
Peer-reviewed
Oui
Volume
30
Number
3
Pages
554-566
Language
english
Notes
Publication types: Journal Article
Publication Status: ppublish
Publication Status: ppublish
Abstract
In Europe, several occupational exposure models have been developed and are recommended for regulatory exposure assessment. Only some information on the substance of interest (e.g., vapor pressure) and the workplace conditions (e.g., ventilation rate) is required in these models to predict an exposure value that will be later used to characterize the risk. However, it has been shown that models may differ in their predictions and that usually, one of the models best fits a given set of exposure conditions. Unfortunately, there are no clear rules on how to select the best model. In this study, we developed a new modeling approach that together uses the three most popular models, Advanced REACH Tool, Stoffenmanger, and ECETOC TRAv3, to obtain a unique exposure prediction. This approach is an extension of the TREXMO tool, and is called TREXMO+. TREXMO+ applies a machine-learning technique on a set of exposure data with the measured values to split them into smaller subsets, corresponding to exposure conditions sharing similar characteristics. For each subset, TREXMO+ then establishes a regression model with the three REACH tools used as the exposure predictors. The performance of the new model was tested and a comparison was made between the results obtained by TREXMO+ and those obtained by conventional tools. TREXMO+ model was found to be less biased and more accurate than the REACH models. Its prediction differs generally from measurements by a factor of 2-3 from measurements, whereas conventional models were found to differ by a factor 2-14. However, as the available test dataset is limited, its results will need to be confirmed by larger-scale tests.
Keywords
Advanced REACH tool, ECETOC TRA, Exposure assessment, REACH, Stoffenmanager, TREXMO
Pubmed
Web of science
Create date
06/02/2020 17:24
Last modification date
23/12/2020 6:24