相变非对称膜漂浮纳米颗粒:一种更好地管理水溶性差药物的方法。

Betty Annie Samuel, Bassim I Mohammed, Anil K Philip
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摘要

目的:对低水溶性药物引起的胃肠道副作用的有效治疗仍然是一个挑战。研究新技术以减少这些副作用并增加患者对药物治疗的依从性是有兴趣的。目前的研究旨在开发一种创新的纳米级胃保留药物递送,以更好地管理水溶性差的药物。方法:采用相转化技术制备不崩解的布洛芬-不对称膜漂浮纳米颗粒(Ibuprofen-AMFNP),提高药物在胃中的停留度。对制备的制剂进行粉末表征、溶解度、体外浮力、对体内炎症标志物的影响和聚合物扩散性研究。所有紫外分光光度分析都是通过光纤系统完成的。结果:制备的布洛芬- amfnps在114.45 nm±1.31 nm的纳米范围内。该制剂在溶出介质中浮力12 h,表明胃滞留性增加,与纯药物相比具有更好的溶解度和粉末特性。扫描电镜显示外膜无孔,内膜多孔。布洛芬- amfnp符合Higuchi释药动力学(p=0.9925),具有Fickian扩散释药机制(n=0.05)。聚合物扩散研究表明,与新鲜配方(2526.32 nm/h)相比,储存24 h后的缓释速度更快,且无滞后时间(-923.08 nm/h)。制备的纳米制剂抗炎率(85.144%)高于纯药(78.336%)。结论:布洛芬- amfnp有望帮助减少药物相关的胃肠道副作用,改善药物输送,从而提高患者对药物治疗的依从性。
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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Phase transited asymmetric membrane floating nanoparticles: a means for better management of poorly water-soluble drugs.

Purpose: Effective remedy to gastrointestinal (GI) side effects caused by poorly water-soluble drugs remains a challenge. Researching for novel techniques to reduce these side effects and increase patient adherence to medical treatment is of interest. The current study aims to develop an innovative nano-sized gastro-retentive drug delivery for better management of poorly water-soluble drugs.

Method: A non-disintegrating ibuprofen-asymmetric membrane floating nanoparticle (Ibuprofen-AMFNP) was prepared by phase inversion technique to increase the gastric residence of the drug. Powder characterization, solubility, in vitro buoyancy, effect on in vivo inflammatory markers, and polymer diffusibility studies were conducted on the prepared formulation. All UV-spectrophotometric analysis was accomplished through a fiber optic system.

Results: The prepared Ibuprofen-AMFNPs were in the nano range of 114.45 nm ±1.31 nm. The formulation was buoyant for 12 h in the dissolution media indicating increased gastric residence, had better solubility and powder characteristics compared to the pure drug. Scanning electron microscopy revealed an outer non-porous and inner porous asymmetric membrane. Ibuprofen-AMFNP followed Higuchi drug release kinetics (p=0.9925) and had a Fickian diffusion release mechanism (n=0.05). Polymer diffusibility study showed that the 24 h stored formulation had faster drug release with no lag time (-923.08 nm/h) compared to a fresh formulation (2526.32 nm/h). The prepared nano-formulation showed a higher percentage of anti-inflammatory (85.144%) effect compared to the pure drug (78.336%).

Conclusion: Ibuprofen-AMFNP is envisioned to help reduce drug-related GI side effects, improve drug delivery, and thereby increase patient adherence to medical treatment.

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