The current study aims to formulate an anti-hypertensive drug manidipine self-nanoemulsifying drug delivery system (SNEDDS) employing different novel polymers to enhance solubility and drug release manidipine. The optimal concentration of excipients chosen based on solubility study further confirmed by self-emulsification region of pseudo ternary phase diagram. Manidipine SNEDDS optimized employing box-behnken design (BBD) through the study of factors - the amount of capryol 90(A), cremophor RH40 (B) and triacetin (C) and responses -droplet size (Y1), zeta potential (Y2), and cumulative percentage of drug release after 60 minutes (Y3). All formulations were evaluated for particle size, zeta potential, polydispersity index, entrapment efficiency, drug content, and in-vitro drug release. The optimized formulation was characterized for FTIR, SEM, and stability studies. The study indicates that manidipine optimized formulation MF11 comprising of capryol 90 (40.0%), cremophor RH40 (10.0%) and triacetin (30.0%) exhibited minimum droplet size (76.5 ± 2.87), best zeta potential (-24.7 ± 1.31mV) and entrapment efficiency (98.23 ± 1.74%) content uniformity (99.12 ± 1.28%) maximum drug release (98.79 ± 1.68%). The fourier transform infrared spectroscopy (FTIR) studies of MF11 indicated no significant interaction amid the drug and formulation excipients. The scanning electron microscopy (SEM) data revealed that particle size is in the nanometer range with a zeta potential value >5 mV indicating higher absorption and stability. Accelerated stability studies indicated the formulation to be stable for 3 months. Hence the results revealed that application of SNEDDS formulation technique for manidipine increased solubility and drug release.
Objective: The aim was to formulate and evaluate self-nanoemulsifying drug delivery systems (SNEDDS) of ramipril, an antihypertensive drug to improve the solubility and bioavailability. Methods: Based on solubility studies oil phase (Sefsol 218), surfactant (Acrysol EL135), and cosurfactant (Transcutol P), respectively, were selected to prepare SNEDDS. Ramipril SNEDDS optimized employing box-Behnken design through the study of factors. All formulations were evaluated for particle size, zeta potential (ZP), polydispersity index (PDI), entrapment efficiency (EE), drug content, and in vitro drug release. The optimized formulation was characterized for Fourier transform infrared (FTIR), scanning electron microscopy (SEM), stability studies, and pharmacokinetic study. Results: The mean particle size, PDI, ZP, EE, content uniformity, and in vitro drug release profile of optimized ramipril-loaded SNEDDS (RF14) were found to be 75.3±2.21nm, 0.126±0.05, −24.4±5.78mV, 98.74±1.97%, 99.52±1.67%, and 98.65±1.73%, respectively. FTIR studies revealed that there is no incompatibility between drug and excipients, SEM images exhibited nanoparticles to be more porous and in spherical shape. Stability studies indicated formulation was stable for 6 months. In vivo studies were conducted for optimized formulation RF14, the Tmax was found to be 0.5±0.62 and 0.5±0.95 h for the optimized and commercial formulations respectively, while Cmax was 25.16±1.73 ng/mL was significant (p<0.05) as compared to the ramipril pure drug 8.02±0.086 ng/mL. AUC0-t of the SNEDDS formulation was higher 355.49±1.76ng h/ml compared to pure drug 116.57±1.64 ng h/ml indicated higher amount of drug concentration in blood proving better systemic absorption of ramipril from SNEDDS formulation as compared to the pure drug. Conclusion: It is concluded from the results that ramipril was successfully formulated into SNEDDS with higher concentration with fast action.
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