Unveiling the Superiority of Innovative Carbonated Self-Nanoemulsifying Drug Delivery Systems in Improving the Stability of Acid-Labile Drugs: Atorvastatin as a Model Drug

Processes Pub Date : 2024-06-06 DOI:10.3390/pr12061169

Abdelrahman Y. Sherif, M. Ibrahim

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Abstract

Atorvastatin (AT) is widely prescribed by physicians during the treatment of hyperlipidemia. The self-nanoemulsifying drug delivery system (SNEDDS) is used to overcome its low drug solubility and bioavailability. However, the presence of free fatty acids in SNEDDS formulation resulted in remarkable AT degradation. This study explores innovative carbonated SNEDDS to enhance the stability of AT within SNEDDS formulation. Various types of SNEDDS formulations were prepared and evaluated. In vitro dissolution was performed to examine the ability of SNEDDS formulation to enhance AT dissolution. The solidified SNEDDS formation was prepared using Syloid adsorbent (AT-SF6). In addition, sodium bicarbonate was loaded within the best formulation at various concentrations to prepare carbonated SNEDDS (AT-CF6). Kinetics of drug degradation were studied over 45 days to assess AT stability in SNEDDS formulations. It was found that the SNEDDS formulation was able to enhance the dissolution of AT by about 1.5-fold compared with the pure drug formulation. AT-SF6 did not reduce the degradation rate of the drug compared with AT-F6. However, AT-CF6 formulations showed that increasing the concentration of incorporated sodium bicarbonate significantly reduced the degradation rate of AT. It was found that sodium bicarbonate in AT-CF6 significantly reduced the degradation rate of AT (0.00019) six-fold compared with AT-F6 (0.00115). The obtained results show that carbonated SNEDDS is a promising approach to enhance the stability of acid-labile drugs and their pharmaceutical application.

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揭示创新碳酸自纳米乳化给药系统在改善酸性药物稳定性方面的优越性：以阿托伐他汀为模型药物

阿托伐他汀（AT）被医生广泛用于治疗高脂血症。自纳米乳化给药系统（SNEDDS）被用来克服药物溶解度和生物利用度低的问题。然而，SNEDDS 配方中游离脂肪酸的存在会导致 AT 显著降解。本研究探索了创新的碳酸化 SNEDDS，以提高 AT 在 SNEDDS 配方中的稳定性。研究人员制备并评估了各种 SNEDDS 配方。进行了体外溶解试验，以检验 SNEDDS 制剂提高 AT 溶解度的能力。使用 Syloid 吸附剂（AT-SF6）制备了固化 SNEDDS。此外，在最佳配方中加入不同浓度的碳酸氢钠，制备碳酸化 SNEDDS（AT-CF6）。研究了 45 天的药物降解动力学，以评估 SNEDDS 制剂中 AT 的稳定性。结果发现，与纯药物制剂相比，SNEDDS 制剂能够将 AT 的溶解度提高约 1.5 倍。与 AT-F6 相比，AT-SF6 没有降低药物的降解率。然而，AT-CF6 制剂表明，增加加入碳酸氢钠的浓度可显著降低 AT 的降解率。研究发现，AT-CF6 中的碳酸氢钠能将 AT 的降解率（0.00019）显著降低至 AT-F6 的六倍（0.00115）。研究结果表明，碳酸化 SNEDDS 是提高耐酸药物稳定性及其医药应用的一种可行方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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