Abstract
Objective: New psychoactive substances (NPS) have been rapidly developed to avoid legal entanglement. In 2013–2018, the number of cathinonederivedcompounds increased from 30 to 89. In 2016, of 56 NPS compounds, 21 were identified as cannabinoid-derived; only 43 were regulated inthe narcotics law. Artificial intelligence, such as machine and deep learning, is a method of data processing and object recognition, including humanposes and image classifications.Methods: Herein, the machine and deep learning methods for cathinone- and cannabinoid-derived compound classification were compared usingpharmacophore modeling as the reference method. For classifying cathinone-derived compounds, the structure was transformed into fingerprints,which was used as a learning parameter for the machine and deep learning methods. Contrarily, the physicochemical properties and fingerprint shapewere utilized as learning materials for the deep learning method to classify the cannabinoid-derived substances.Results: Consequently, in the cathinone-derived compound classification, the deep learning method produced the accuracy and Cohen kappa valuesof 0.9932 and 0.992, respectively. Furthermore, such values in the pharmacophore modeling method were higher than those in the machine learningmethod (0.911 and 0.708 vs. 0.718 and 0.673, respectively). In the cannabinoid-derived compound classification, the deep learning method with thefingerprint form had the highest accuracy and Cohen kappa values (0.9904 and 0.9876). Such values in this method with the descriptor form werehigher than those in the pharmacophore modeling method (0.8958 and 0.8622 vs. 0.68 and 0.396, respectively).Conclusion: The deep learning method has the potential in the NPS classification.
Highlights
New psychoactive substances (NPS) are frequently misused psychoactive compounds that mimic psychoactive drugs
The deep learning method has the potential in the NPS classification
Classification of the cannabinoid- and cathinone-derived compounds using the pharmacophore modeling method The structure of the NPS tested was divided into two sets of compounds using the clustering method based on the structural similarity, and these were used as a training set to create a pharmacophore model
Summary
New psychoactive substances (NPS) are frequently misused psychoactive compounds that mimic psychoactive drugs. Some of these are the cathinone and cannabinoid derivatives, which are often modified to avoid legal entanglement [1,2,3,4,5]. In silico research can support the conventional one, which requires a relatively long time. Using this approach, a new cannabinoid ligand has been discovered. A new cannabinoid ligand has been discovered This in silico approach can determine the similarities in a compound by comparing its physicochemical properties and quickly analyze the structural similarity in large numbers. The pharmacophore modeling can search for structural similarity [7]
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