YUAN Xiongjun, ZHAO Wei, SHI Jingjie, WANG Yue, CHEN Changhao. Prediction of concentration immediately dangerous to life or health of benzene and its derivatives based on quantitative structure-activity relationship[J]. Journal of Environmental and Occupational Medicine, 2023, 40(9): 1033-1038. DOI: 10.11836/JEOM23032
Citation: YUAN Xiongjun, ZHAO Wei, SHI Jingjie, WANG Yue, CHEN Changhao. Prediction of concentration immediately dangerous to life or health of benzene and its derivatives based on quantitative structure-activity relationship[J]. Journal of Environmental and Occupational Medicine, 2023, 40(9): 1033-1038. DOI: 10.11836/JEOM23032

Prediction of concentration immediately dangerous to life or health of benzene and its derivatives based on quantitative structure-activity relationship

  • Background  With the increasing exposure to hazardous chemicals in the workplace and frequency of occupational injuries and occupational safety accidents, the acquisition of occupational exposure limits of hazardous chemicals is imminent.
    Objective  To obtain more unknown immediately dangerous to life or health (IDLH) concentrations of hazardous chemicals in the workplace by exploring the application of quantitative structure-activity relationship (QSAR) prediction method to IDLH concentrations, and to provide a theoretical basis and technical support for the assessment and prevention of occupational injuries.
    Methods  QSAR was used to correlate the IDLH values of 50 benzene and its derivatives with the molecular structures of target compounds. Firstly, affinity propagation algorithm was applied to cluster sample sets. Secondly, Dragon 2.1 software was used to calculate and pre-screen 537 molecular descriptors. Thirdly, the genetic algorithm was used to select six characteristic molecular descriptors as dependent variables and to construct a multiple linear regression model (MLR) and two nonlinear models using support vector machine (SVM) and artificial neural network (ANN) respectively. Finally, model performance was evaluated by internal and external validation and Williams diagram was drawn to determine the scopes of selected models.
    Results  The ANN model results showed that R_\mathrmt\mathrmr\mathrma\mathrmi\mathrmn^2 =0.8526 and R_\mathrmt\mathrme\mathrms\mathrmt^2 =0.8505 respectively, root mean square (RMSE) error=0.5243, mean absolute error (MAE)=0.4610, internal and external validation coefficients Q_\mathrml00^2 =0.8476 and Q_\mathrme\mathrmx\mathrmt^2 =0.8905 respectively. By comparison, the performance verification parameters of the ANN model were superior to the MLR and SVM models, and all substances were in the applicable domain.
    Conclusion  At present, the ANN model has the best performance in fitting ability, stability, and prediction, and is suitable for predicting IDLH concentrations of benzene and its derivatives. Predicting the IDLH concentraitons of benzene and its derivatives by QSAR method is an effective method, and provides a theoretical basis and technical support for the development of occupational health and safety.
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