AI Article Synopsis
- Supercritical fluids (SCFs) are a safer, eco-friendly alternative to harmful solvents in drug nanoparticle preparation, enhancing drug solubility.
- The study focuses on using supercritical carbon dioxide (SCCO) to improve the solubility of the chemotherapeutic drug Letrozole (LET) through machine learning models.
- The research compares several models, finding the RBF-SVM model to be the best performer with a high degree of accuracy (R-squared = 0.9947) and minimal prediction error (0.1289).
Article Abstract
Supercritical fluids (SCFs) can be used to prepare drugs nanoparticles with improved solubility. SCFs have shown superior advantages in pharmaceutical industry as an environmentally friendly alternative to toxic/harmful organic solvents. They possess gas-like transport characteristics and liquid-like solvation power for solutes. Evaluation of chemotherapeutic drugs' solubility in supercritical carbon dioxide (SCCO) has been recently an attractive subject for developing this method in pharmaceutical sector. To reach this purpose, the utilization of accurate models is of great necessity to estimate experimental-based solubility data. In this paper, the authors tried to employ machine learning (ML) approaches to estimate the solubility of Letrozole (LET) drug as chemotherapeutic agent and correlate its values in wide ranges of temperature and pressure. To do this, PAR (Passive Aggressive Regression), RF (Random Forest), and RBF-SVM are the models used (Support Vector Machine with RBF kernel). These models optimized in terms of their hyper-parameters using GA algorithm. The optimized PAR, RF, RBF-SVM models obtained coefficients of determination (R-squared) of 0.8277, 0.9534, and 0.9947. Also, the MSE error rate of the models are 0.1342, 0.0305, and 0.0045, in the same order. The final result of the evaluations shows the optimized RBF-SVM model as the most appropriate model in this research. The model exhibits a maximum prediction error of 0.1289.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11408645 | PMC |
| http://dx.doi.org/10.1038/s41598-024-73029-z | DOI Listing |
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