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Development and Characterization of a Glimepiride-Loaded Gelatin-Coated Mesoporous Hollow Silica Nanoparticle Formulation and Evaluation of Its Hypoglycemic Effect on Type-2 Diabetes Model Rats

Xuewen Yu, Tao Liu, Rong Lin

2020Assay and Drug Development Technologies13 citationsDOI

Abstract

In this study, we prepared gelatin-coated mesoporous hollow silica nanospheres (GSN) as a drug carrier to improve the water solubility and regulate the release rate of glimepiride (GLM). GLM was loaded into GSN by an absorption method, and drug-loaded samples (GLM-GSN) were characterized by differential scanning calorimeter (DSC) and X-ray diffraction (XRD). Cellular uptake and in vivo intestinal uptake experiments were performed in rats. In addition, the studies of in-vitro drug dissolution, pharmacokinetics, and pharmacodynamic experiments also were performed. GLM-GSN showed excellent drug loading (39.7% ± 0.7%) and sustained GLM release. The state of GLM in GSN was amorphous according to DSC and XRD results. Cellular uptake and in vivo intestinal uptake experiments indicated that GSN could be effectively absorbed, and an MTT experiment demonstrated that GSN had good biocompatibility. Furthermore, the GLM-GSN had a higher bioavailability in pharmacokinetics experiments and a prominent hypoglycemic effect on type-2 diabetes model rats in pharmacodynamic experiments. This study clearly shows that GSN is a promising platform for delivering GLM for the treatment of type-2 diabetes.

Topics & Concepts

GlimepiridePharmacokineticsBioavailabilityIn vivoPharmacologyMaterials scienceDifferential scanning calorimetryGelatinPharmacodynamicsMesoporous silicaAbsorption (acoustics)ChemistryType 2 diabetesMesoporous materialMedicineDiabetes mellitusEndocrinologyBiochemistryComposite materialThermodynamicsCatalysisPhysicsBiologyBiotechnologyAdvanced Drug Delivery SystemsDrug Solubulity and Delivery SystemsAnalytical Chemistry and Chromatography
Development and Characterization of a Glimepiride-Loaded Gelatin-Coated Mesoporous Hollow Silica Nanoparticle Formulation and Evaluation of Its Hypoglycemic Effect on Type-2 Diabetes Model Rats | Litcius