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Development of a novel machine learning approach to optimize important parameters for improving the solubility of an anti-cancer drug within green chemistry solvent

Muteb Alanazi, Bader Huwaimel, Jowaher Alanazi, Tareq Nafea Alharby

2023Case Studies in Thermal Engineering10 citationsDOIOpen Access PDF

Abstract

Understanding the solubility of drug particles in solvents has remained a big challenge in different fields. Development of advanced computational approaches to estimate the solubility of drugs is an important necessity due to the difficulty and time-consuming characteristics of experimental measurements. This study used hybrid machine learning models utilizing two inputs, including Pressure (X1) and Temperature (X2), to analyze the available data, and correlate the solubility of drug particles in supercritical solvent. The methods of Random Forest (RF), Extra Trees (ET), and Gradient Boosting (GB) regression models were used to build the models on the available data. RF, ET, and GB have R-squared scores of 0.857, 0.998, and 0.992, based on the analysis results. Additionally, in terms of MAE, they have error rates of 2.90E-06, 1.98E-06, and 1.10E-06, respectively. One more metric to consider is MAPE, in which the error rates for the three regions were 3.15E-01, 2.27E-01, and 1.16E-01, respectively. The DT model was selected as the best model, and can be used to find optimal amounts, which is summarized as a vector: (×1 = 383, X2 = 333.15, Y = 6.004e-05).

Topics & Concepts

SolubilityRandom forestGradient boostingSolventComputer scienceSupport vector machineSupercritical fluidRegressionMetric (unit)Boosting (machine learning)Mean squared errorMachine learningChemistryArtificial intelligenceAlgorithmThermodynamicsMathematicsStatisticsPhysicsOrganic chemistryOperations managementEconomicsPhase Equilibria and ThermodynamicsAnalytical Chemistry and ChromatographyComputational Drug Discovery Methods
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