Overcoming the dissolution rate, gastrointestinal permeability and oral bioavailability of glimepiride and simvastatin co-delivered in the form of nanosuspension and solid self-nanoemulsifying drug delivery system: A comparative study

Simvastatin (SIM) and glimepiride (GLM) were co-formulated into nanosuspensions and self-nanoemulsifying drug delivery systems (SNEDDS) to improve their dissolution rate and oral bioavailability. Nanosuspension was prepared by liquid anti-solvent precipitation method, involving supersaturation of a solution by mixing the drug solution in an antisolvent. Liquid SNEDDS were prepared by loading drugs into an isotropic mixture of Capmul MCM, Labrafil M1944CS, Tween-80 and Transcutol P.

Highlights

• Spray dried nanosuspension and solid-SNEDDS of GLM and SIM were formulated.

• Optimized SP-NS and S-SNEDDS showed faster dissolution and permeation.

• SP-NS and S-SNEDDS were found non-toxic using MTT assay on CaCO2 cell lines.

• Oral bioavailability of drugs got enhanced through SP-NS and S-SNEDDS.

• The formulations were found stable at normal and accelerated storage conditions.

Both formulations were solidified using spray drying. Enhancement in dissolution rate by 6.4 folds and 4.45 folds was observed for GLM and SIM respectively by preparing their nano-formulations. Drugs’ permeability was also enhanced by loading them into nano-formulations. The pharmacokinetic studies were conducted on rats which revealed increase in oral bioavailability by 6.69- and 4.22-folds for GLM and 1.76- and 2.68-folds for SIM respectively for nanosuspension and solid SNEDDS than their unprocessed forms. Both dissolution rate and oral bioavailability of SIM and GLM got significantly improved through S-SNEDDS and nanosuspension. However, performance of nanosuspension was found better than SNEDDS in terms of dissolution rate and oral bioavailability. More on oral bioavailability of glimepiride and simvastatin co-delivered