Development and Characterization of Quercetin Loaded Nanoparticle for Skin Cancer

N. Verma
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Abstract

As a disease skin cancer has obtained different characteristics over the decades. Solar radiation that contains ultraviolet ray is the prime cause of skin cancer. In this present research, the nano-precipitation method was applied for preparing Quercetin loaded Nanoparticle (Qu-Nps) with much enhanced loading properties and improves incorporation of corresponding drugs. At the same time, the Quadratic model that takes help of the Response Surface Method was applied to observe the effects of some specific parameters maintained in the development of nanoparticle. Here, the sonication time was 20 min and delivery system F6 (with Drug: Polymer ratio of 1:45) provided optimum drug entrapment ability which is 70%. The optimized formulation for average size was almost 102.39 ±7.64 nm with zeta potential diameter averaging -28.43mV. Quercetin is a dietary flavonoid possessing multidimensional properties that is used in various other diseases including viral infection, bacterial infection, diabetes mellitus, and cancer. All outcomes support the view that Quercetin loaded nanoparticles (Qu-Nps) has high entrapment and drug loading abilities.
槲皮素纳米粒子的制备与表征
作为一种疾病,皮肤癌在过去的几十年里已经有了不同的特征。含有紫外线的太阳辐射是皮肤癌的主要原因。在本研究中,采用纳米沉淀法制备槲皮素负载纳米颗粒(q - nps),大大增强了负载性能,并改善了相应药物的掺入。同时,利用响应面法建立二次模型,观察纳米颗粒发育过程中保持的某些特定参数的影响。在这里,超声时间为20 min, F6(药聚合物比为1:45)提供了最佳的药物包封率,为70%。优化后的配方平均粒径约为102.39±7.64 nm, zeta电位直径平均为-28.43mV。槲皮素是一种具有多维特性的膳食类黄酮,用于各种其他疾病,包括病毒感染、细菌感染、糖尿病和癌症。所有结果都支持槲皮素负载纳米颗粒(q - nps)具有高包裹和载药能力的观点。
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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