Preferential Solvation Study of the Synthesized Aldose
Reductase Inhibitor (SE415) in the {PEG 400 (1) + Water (2)} Cosolvent
Mixture and GastroPlus-Based Prediction
posted on 2022-01-02, 13:29authored byAfzal Hussain, Mohammad A. Altamimi, Obaid Afzal, Abdulmalik S. A. Altamimi, Abuzer Ali, Amena Ali, Fleming Martinez, Mohd Usman Mohd Siddique, William E. Acree, Abolghasem Jouyban
(Z)-N-Benzyl-2-{2,4-dioxo-5-(4-prop-2-yl-1-yloxyl)benzylidene)thiazolin-3-yl)}acetamide
(SE415) is a novel aldose reductase inhibitor used in the management
of diabetes mellitus (DM) and associated complications. Herein, the
drug was solubilized (mole fraction solubility) in a “PEG 400
(polyethylene glycol 400) + water” mixture of various ratios
at 298.15 K. We reported the preferential solvation of SE415 by PEG
400 using Kirkwood–Buff integrals, the thermodynamic functional
parameter, in vitro dissolution, and GastroPlus-based
predictions for in vivo performance. The result of
Hansen solubility parameter analysis suggested PEG 400 as a suitable
solvent for SE415 solubilization at 298.0 K, followed by prediction
of several physicochemical properties. In the preferential solvation
study, the molar volume, Hildebrand solubility parameters, and the
molecular radius of SE415 were estimated as 258.4 cm3·mol–1, 27.62 MPa1/2, and 0.468 nm, respectively,
using Fedors’ method. The inverse Kirkwood-Buff integrals indicated
that the preferential solvation of SE415 by PEG 400 occurred in all
studied ratios of the (PEG 400 + water) mixtures. The maximum value
(δx1,3 = 1.21 × 10–2) of the preferential solvation of SE415 by PEG 400 was achieved
at x1 = 0.15. Then, using GastroPlus software,
the maximum dissolution, improved in vivo oral absorption,
and high regional compartmental absorption (total 99.0%) of SE415
in humans were predicted. Finally, the solubility data were correlated/predicted
using various cosolvency models with satisfactory results. Thus, the
binary cosolvent system can be a promising approach for enhanced oral
absorption in controlling DM and associated complications in humans.