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- Title
Solubility Characteristics of Acetaminophen and Phenacetin in Binary Mixtures of Aqueous Organic Solvents: Experimental and Deep Machine Learning Screening of Green Dissolution Media.
- Authors
Cysewski, Piotr; Jeliński, Tomasz; Przybyłek, Maciej; Nowak, Wiktor; Olczak, Michał
- Abstract
The solubility of active pharmaceutical ingredients is a mandatory physicochemical characteristic in pharmaceutical practice. However, the number of potential solvents and their mixtures prevents direct measurements of all possible combinations for finding environmentally friendly, operational and cost-effective solubilizers. That is why support from theoretical screening seems to be valuable. Here, a collection of acetaminophen and phenacetin solubility data in neat and binary solvent mixtures was used for the development of a nonlinear deep machine learning model using new intuitive molecular descriptors derived from COSMO-RS computations. The literature dataset was augmented with results of new measurements in aqueous binary mixtures of 4-formylmorpholine, DMSO and DMF. The solubility values back-computed with the developed ensemble of neural networks are in perfect agreement with the experimental data, which enables the extensive screening of many combinations of solvents not studied experimentally within the applicability domain of the trained model. The final predictions were presented not only in the form of the set of optimal hyperparameters but also in a more intuitive way by the set of parameters of the Jouyban–Acree equation often used in the co-solvency domain. This new and effective approach is easily extendible to other systems, enabling the fast and reliable selection of candidates for new solvents and directing the experimental solubility screening of active pharmaceutical ingredients.
- Subjects
BINARY mixtures; ACETAMINOPHEN; DEEP learning; MACHINE learning; DRUG solubility; ORGANIC solvents; DIMETHYL sulfoxide; PHENACETIN; SOLUBILITY
- Publication
Pharmaceutics, 2022, Vol 14, Issue 12, p2828
- ISSN
1999-4923
- Publication type
Article
- DOI
10.3390/pharmaceutics14122828