How to judge whether QSAR/read-across predictions can be trusted: a novel approach for establishing a model's applicability domain

The EU REACH legislation, the OECD and US EPA official guidance documents, as well as the 3Rs principle (replacement, reduction, refinement of animal testing), all advocate the necessity of developing comprehensive computational methods ( e.g. quantitative structure-activity relationship, read-acros...

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Bibliographic Details
Published in:Environmental science. Nano 2018, Vol.5 (2), p.48-421
Main Author: Gajewicz, A
Format: Article
Language:English
Subjects:
Computation
Computer applications
Distance
Learning algorithms
Legislation
Machine learning
Modelling
Nanoparticles
Prediction models
Probability theory
Structure-activity relationships
Toxic hazards
Toxicology
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Summary:The EU REACH legislation, the OECD and US EPA official guidance documents, as well as the 3Rs principle (replacement, reduction, refinement of animal testing), all advocate the necessity of developing comprehensive computational methods ( e.g. quantitative structure-activity relationship, read-across) that would enable the predictive modeling of both chemical ( e.g. nanoparticle) specific functionalities and their hazards. However, since computational (nano)toxicology continues to ' learn on the fly ' and relies on the use of a vast array of innovative machine-learning algorithms, serious concerns about the reliability of in silico predictions are raised. This study aimed to give an answer to the following question: how to judge whether QSAR/read-across predictions are reliable. Here, an effective approach for graphical assessment of the limits of a model's reliable predictions (so-called applicability domain, AD) was introduced. The probability-oriented distance-based approach (AD ProbDist ) was proposed as a robust and automatic method for defining the interpolation space where true and reliable predictions can be expected. Its usefulness was confirmed by using four nano-QSAR/read-across models recently reported in the literature. The results of the study showed that the AD ProbDist approach is more restrictive in terms of the chemical space that falls in the AD of a model than the range, geometrical, distance and leverage approaches. The advantages of the proposed AD ProbDist approach include (but are not limited to) the fact that it works with relatively small datasets and enables the identification of (un)reliable predictions for newly screened chemicals without experimental data. Further, to facilitate the use of the AD ProbDist approach, this study provides the developed in-house R -codes. Probability-oriented distance-based approach (AD ProbDist ) for determining the nano-QSAR/read-across model's applicability domain where true and reliable predictions can be expected.
ISSN:2051-8153
2051-8161
DOI:10.1039/c7en00774d