pH-dependent release properties of curcumin encapsulated alginate nanoparticles in skin and artificial sweat

IF 0.4 4区 综合性期刊 Q4 MULTIDISCIPLINARY SCIENCES Journal of the National Science Foundation of Sri Lanka Pub Date : 2023-10-12 DOI:10.4038/jnsfsr.v51i3.11221
I.F. Shakoor, G.K. Pamunuwa, D.N. Karunaratne
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Abstract

Topical skin application of curcumin is challenging due to the low solubility and poor stability, including fast photodegradation, of this bioactive compound. Therefore, curcumin encapsulated alginate (CU-Al) nanoparticles were prepared by the ionic gelation method followed by freeze drying to determine the efficacy of alginate in facilitating curcumin release. Evaluation of the release of curcumin from the encapsulate in the presence of artificial sweat (pH 4.7) and skin (pH 5.5), about which the literature is meagre, was carried out after particle size characterization. CU-Al nanoparticles were in the nano-range (186.8 nm), assimilated a negative zeta-potential value (-15.4 ± 8.13 mV), and displayed a high encapsulation efficiency (94.55 ± 0.53%). The release of encapsulated curcumin at pH 5.5 (max. 64%) and at pH 4.7 (max. 27%) were significantly different. In pH 5.5 and pH 4.7, the release profiles of encapsulated curcumin fitted best with the Weibull (followed an anomalous transport mechanism) and Gompertz (followed a super case II transport mechanism) models respectively, displaying sigmoidal release patterns. Diffusion and polymer relaxation/swelling based release at pH 5.5 and rapid polymer relaxation/erosion based release at pH 4.7 have governed the encapsulated curcumin release. The results indicated that CU-Al nanoparticles may be utilized to facilitate controlled and prolonged release of curcumin in both skin and artificial sweat, thereby functioning as a promising novel delivery vehicle for curcumin. However, skin deposition or penetration may be required for yielding a satisfactory topical administration of curcumin during sweating.
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姜黄素包封藻酸盐纳米颗粒在皮肤和人工汗液中的ph依赖性释放特性
局部皮肤应用姜黄素是具有挑战性的,因为这种生物活性化合物的溶解度低,稳定性差,包括快速光降解。为此,采用离子凝胶法制备了姜黄素包封藻酸盐(CU-Al)纳米颗粒,并进行了冷冻干燥实验,考察了藻酸盐促进姜黄素释放的效果。在进行粒径表征后,评估了在人工汗液(pH 4.7)和皮肤(pH 5.5)存在的情况下,胶囊中姜黄素的释放,这两种情况文献较少。CU-Al纳米颗粒在纳米范围(186.8 nm)内,吸收电位为负(-15.4±8.13 mV),包封效率为94.55±0.53%。pH为5.5时,包封的姜黄素释放量最大。64%)和pH 4.7(最大。27%),差异有统计学意义。在pH 5.5和pH 4.7条件下,姜黄素的释放曲线分别符合Weibull(异常转运机制)和Gompertz(超级转运机制)模型,呈s型释放。pH为5.5时聚合物弛豫/溶胀释放和pH为4.7时聚合物弛豫/溶蚀快速释放控制了包被姜黄素的释放。结果表明,CU-Al纳米颗粒可以促进姜黄素在皮肤和人工汗液中的控制和延长释放,从而作为姜黄素的一种有前景的新型递送载体。然而,皮肤沉积或渗透可能需要在出汗时产生令人满意的局部姜黄素给药。
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
57
审稿时长
>12 weeks
期刊介绍: The Journal of National Science Foundation of Sri Lanka (JNSF) publishes the results of research in Science and Technology. The journal is released four times a year, in March, June, September and December. This journal contains Research Articles, Reviews, Research Communications and Correspondences. Manuscripts submitted to the journal are accepted on the understanding that they will be reviewed prior to acceptance and that they have not been submitted for publication elsewhere.
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