Abstract
The purpose of this study was to increase the dissolution of glycyrrhetinic acid (GA) by preparing ternary solid dispersion (TSD) systems containing alkalizers, and to explore the modulating mechanism of alkalizers in solid dispersion systems. GA TSDs were prepared by hot melt extrusion (HME) with Kollidon® VA64 as the carrier and L-arginine/meglumine as the alkalizers. The in vitro release of the TSD was investigated with a dissolution test, and the dissociation constant (pKa) was used to describe the ionization degree of the drug in different pH buffers. Scanning electron microscopy (SEM), differential scanning calorimetry (DSC), X-ray powder diffraction (XRPD), Fourier Transform Infrared Spectroscopy (FTIR), Raman spectra, X-ray photoelectron spectroscopy (XPS), and a molecular model were used for solid-state characterizations and to study the dissolution mechanism of the TSDs. It was evident that the dissolution of GA significantly increased as a result of the TSD compared to the pure drug and binary solid dispersion. SEM, DSC, and XPRD data showed that GA transformed into an amorphous form in TSD. As illustrated by FTIR, Raman, XPS, and molecular docking, high binding energy ion-pair complexes formed between GA and the alkalizers during the process of HME. These can destroy the H-bond between GA molecules. Further, intermolecular H-bonds formed between the alkalizers and Kollidon® VA64, which can increase the wettability of the drug. Our results will significantly improve the solubility and dissolution of GA. In addition, the lower pKa value of TSD indicates that higher ionization is beneficial to the dissolution of the drug. This study should facilitate further developments of TSDs containing alkalizers to improve the dissolution of weakly acidic drugs and gain a richer understanding of the mechanism of dissolution.
Highlights
At present, most widely used drugs, natural products, and drug candidates are insoluble in water, and increasing the solubility of poorly soluble drugs is an important problem for many drug molecules [1,2,3]
Mg(OH)2, Na2CO3, meglumine, and L-arginine were selected as the alkalizers in this study
ternary solid dispersion (TSD) systems containing alkalizers could enhance the dissolution of glycyrrhetinic acid (GA) with the following mechanisms
Summary
Most widely used drugs, natural products, and drug candidates are insoluble in water, and increasing the solubility of poorly soluble drugs is an important problem for many drug molecules [1,2,3]. Amorphous solid dispersions have become one of the most effective methods of enhancing the solubility and gastrointestinal absorption of poorly soluble drugs [18,19,20]. Hot melt extrusion technology has been widely adopted because it offers continuous. Amorphous solid dispersions have become one of the most effPehcatrimvaecemuteictsh2o0d20s, 1o2f, e82nhancing the solubility and gastrointestinal absorption of poorly soluble dru2gosf 24 [18,19,20]. Hot melt extrusion technology has been widely adopted because it offers continuous control and because it is solvent free and less time consuming. Nonevweretahkellyess, alkmaloinsteodfrtuhges.eTshtuedreieasrfeofceuwsesdtusodlielsyoonnuthsienrgoalelkoafliazceirdsifitoerismopnrowveeakthlye asloklaulbinileitydroufgws.eTahkleyreaacirdeifcew drustgusd. iIens opnarutisciunlgara,lkthaleirzeeriss tloimimitpedrovreesethaercsholounbiltihtey orof lwe eoafklpyHa-cmidoidcidfireursgsa. sIna pmaretcihcuanlairs,mtheforer is regliumlaitiendgrdesisesaorcluhtioonn.the role of pH-modifiers as a mechanism for regulating dissolution
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