Drospirenone (DROP) is a highly effective, low-toxicity, safe new generation progestin that counteracts estrogen-related sodium retention, is well tolerated, and has a positive effect on premenstrual syndrome (PMS). However, the low water solubility of DROP and its chemical instability resulted in low bioavailability. In this study, we developed a two-step delivery system to enhance drospirenone's solubility and stability. We prepared a drospirenone liposome complex to optimize the encapsulation process and achieve an encapsulation efficiency of (84.9 ± 0.73) %, with an 878-fold increase in solubility under optimal conditions. To address the instability of high drug-loading liposomes, we immobilized the drospirenone liposome inclusion complex using a cellulose-based hydrogel. The system achieved uniform loading of liposomes in the hydrogel, as confirmed by SEM and FTIR analysis. 0.5 g hydrogel can be loaded with up to 96.48 mg drospirenone, and the encapsulation efficiency is (80.4 ± 1.17%). It was indicating the potential for wider application of drospirenone with enhanced water solubility and improved stability. At the same time, it also provides support for sustained-release systems or large dose drug delivery.
Keywords: Cellulose-based hydrogel; drospirenone liposome; drug delivery; solubility and stability; two-step delivery system.