Abstract
Assessing the ecotoxicity of pharmaceuticals is of urgent need due to the recognition of their possible adverse effects on nontarget organisms in the aquatic environment. The reality of ecotoxicity data scarcity promotes the development and application of quantitative structure activity relationship (QSAR) models. In the present study, we aimed to clarify whether a QSAR model of ecotoxicity specifically for pharmaceuticals is needed considering that pharmaceuticals are a class of chemicals with complex structures, multiple functional groups, and reactive properties. To this end, we conducted a performance comparison of two previously developed and validated QSAR models specifically for pharmaceuticals with the commonly used narcosis toxicity prediction model, i.e., Ecological Structure Activity Relationship (ECOSAR), using a subset of pharmaceuticals produced in China that had not been included in the training datasets of QSAR models under consideration. A variety of statistical measures demonstrated that the pharmaceutical specific model outperformed ECOSAR, indicating the necessity of developing a specific QSAR model of ecotoxicity for the active pharmaceutical contaminants. ECOSAR, which was generally used to predict the baseline or the minimum toxicity of a compound, generally underestimated the ecotoxicity of the analyzed pharmaceuticals. This could possibly be because some pharmaceuticals can react through specific modes of action. Nonetheless, it should be noted that 95% prediction intervals spread over approximately four orders of magnitude for both tested QSAR models specifically for pharmaceuticals.
Highlights
It is evident that humans benefit a lot from pharmaceuticals, a class of active chemicals that can interact with biological receptors in humans
It is evident that the pharmaceutical specific model, Sangion’s model, was more able to predict the toxicity trend than the generalized narcotic toxicity prediction model. e predictive ability of Sangion’s model significantly surpassed Ecological Structure Activity Relationship (ECOSAR) no matter which parameter was used as a metric
Our results clearly demonstrated that a better performance was observed for either Sangion’s or Tugcu’s model and the quantitative structure activity relationship (QSAR) model for pharmaceuticals, compared to the generalized baseline toxicity prediction model of ECOSAR. e present study further adds evidence that we need a QSAR model of ecotoxicity for pharmaceuticals
Summary
It is evident that humans benefit a lot from pharmaceuticals, a class of active chemicals that can interact with biological receptors in humans. Demonstrating and assessing the ecotoxicological relevance of the presence of pharmaceuticals as emerging contaminants in the environment is of increasing concern during recent years [2, 9,10,11,12,13]. To help understand the potential risk of pharmaceuticals to nontarget organisms, the first step is to determine their occurrence levels in various environmental matrices. While there is still a need for extensive monitoring practices considering the various temporal and spatial scales [14], it is a more urgent demand of a high amount of measured ecotoxicological data that are equivalently salient to assess the environmental risk of the identified and potential pharmaceutical contaminants
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