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用于槲皮素脑靶向的鼻内纳米传递体凝胶:I. 优化、表征、脑定位及细胞毒性研究

Intranasal Nanotransferosomal Gel for Quercetin Brain Targeting: I. Optimization, Characterization, Brain Localization, and Cytotoxic Studies.

作者信息

Elkomy Mohammed H, Zaki Randa Mohammed, Alsaidan Omar A, Elmowafy Mohammed, Zafar Ameeduzzafar, Shalaby Khaled, Abdelgawad Mohamed A, Abo El-Ela Fatma I, Rateb Mostafa E, Naguib Ibrahim A, Eid Hussein M

机构信息

Department of Pharmaceutics, College of Pharmacy, Jouf University, Sakaka 72341, Saudi Arabia.

Department of Pharmaceutics, College of Pharmacy, Prince Sattam Bin Abdulaziz University, Al-Kharj 11942, Saudi Arabia.

出版信息

Pharmaceutics. 2023 Jun 23;15(7):1805. doi: 10.3390/pharmaceutics15071805.

DOI:10.3390/pharmaceutics15071805
PMID:37513991
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10386734/
Abstract

Numerous neurological disorders have a pathophysiology that involves an increase in free radical production in the brain. Quercetin (QER) is a nutraceutical compound that shields the brain against oxidative stress-induced neurodegeneration. Nonetheless, its low oral bioavailability diminishes brain delivery. Therefore, the current study aimed to formulate QER-loaded transferosomal nanovesicles (QER-TFS) in situ gel for QER brain delivery via the intranasal route. This study explored the impacts of lipid amount, edge activator (EA) amount, and EA type on vesicle diameter, entrapment, and cumulative amount permeated through nasal mucosa (24 h). The optimum formulation was then integrated into a thermosensitive gel after its physical and morphological characteristics were assessed. Assessments of the optimized QER-TFS showed nanometric vesicles (171.4 ± 3.4 nm) with spherical shapes and adequate entrapment efficiency (78.2 ± 2.8%). The results of short-term stability and high zeta potential value (-32.6 ± 1.4 mV) of QER-TFS confirmed their high stability. Compared with the QER solution, the optimized QER-TFS in situ gel formulation exhibited sustained release behavior and augmented nasal mucosa permeability. CT scanning of rat brains demonstrated the buildup of gold nanoparticles (GNPs) in the brains of all treatment groups, with a greater level of GNPs noted in the rats given the transferosomal gel. Additionally, in vitro studies on PCS-200-014 cells revealed minimal cytotoxicity of QER-TFS in situ gel. Based on these results, the developed transferosomal nanovesicles may be a suitable nanocarrier for QER brain targeting through the intranasal route.

摘要

许多神经系统疾病的病理生理学涉及大脑中自由基产生的增加。槲皮素(QER)是一种营养化合物,可保护大脑免受氧化应激诱导的神经退行性变。然而,其低口服生物利用度降低了脑部递送。因此,本研究旨在制备负载QER的转铁体纳米囊泡(QER-TFS)原位凝胶,用于通过鼻内途径进行QER脑部递送。本研究探讨了脂质用量、边缘激活剂(EA)用量和EA类型对囊泡直径、包封率以及透过鼻黏膜的累积量(2

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