APPROACH TO OPTIMIZE THE SELF-MICROEMULSIFYING DRUG DELIVERY SYSTEM FOR AZILSARTAN MEDOXOMIL USING BOX BEHNKEN DESIGN AND DESIRABILITY FUNCTION

Abstract

Objective: Develop and optimize a novel self-micro emulsifying drug delivery system (SMEDDS) for enhancing the water solubility of Azilsartan (AZL) by employing the Box-Behnken design and the desirability function. Methods: The formulation of AZL-SMEDDS consists of clove oil (oil component), Tween 20 (surfactant), propylene glycol (co-surfactant) as the independent variables and the active drug. Using a 3-level Design, the impact of independent variables on the formulation was examined. These variables' specified ranges are 20-40 mg, 50-80 mg, and 5-30 mg for X1, X2 and X3 respectively. Particle size (Y1), PDI (Y2), and dissolution % (Y3) were the response variables investigated in this study. Results: The results indicated that the optimal values for Clove oil (X1), Tween 20 (X2), and Propylene glycol (X3) were determined to be 28.69, 76.45, and 24.93 (mg), respectively. Based on these optimized conditions, the predicted data points for the response variables Particle Size (Y1), Polydispersity (Y2), and dissolution % (Y3) were determined to be 59.85 nm, 0.729 and 55.406%, respectively. Conclusion: The empirical results obtained from the optimized formulation exhibited a strong correlation with the predicted values. The optimized AZL-SMEDDS formulation demonstrated a rapid rate of drug solubility and greater bioavailability than AZL powder.