Transcending traditional treatment: the therapeutical potential of nanovesicles for transdermal baclofen delivery in repeated traumatic brain injury

IF 3.1 Q2 PHARMACOLOGY & PHARMACY

Advanced pharmaceutical bulletin Pub Date : 2024-03-09 DOI:10.34172/apb.2024.031

N. M. Sheta, Amira Ahmed El-Gazzar, G. Ragab, Marwa Ashraf Essa, Khaled M. ABDEL-HALEEM, R. El-Dahmy

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Abstract

Purpose: The repositioning of previously approved drugs is occupying the researchers’ plans. Baclofen (Bac) was our candidate for its established neuroprotective capacity, with a proposal of efficient drug delivery as non-ionic surfactant-based nanovesicles (NISNV) formulae against mild repetitive traumatic brain injury (mRTBI) in rats, thus reducing the number of orally or injected medications, especially in severely comatose patients or pediatrics. Methods: A (23) factorial design was implemented for confining Bac-loaded NISNV formulae, where a bunch of variables were inspected. An in-vivo experiment was done to test the prepared formula’s efficacy transdermally. The following parameters were measured: brain expression of gamma amino butyric acid B (GABAB), protein kinase C- α (PKC-α), focal adhesion kinase (FAK), TNF-α and nuclear factor Kappa B (NF-κB) p65, MDA, SOD, and histopathology. Results: The PS and EE% speckled from 60.40±0.28% to 88.02±0.01% for the former and 174.64±0.93 to 1174.50±3.54 nm for the latter. In-vitro release% after 8 hours ranged from 63.25±5.47% to 84.79±3.75%. The optimized formula (F4) illustrated desirability =1, with 630.09±3.53 µg/cm2 of Bac permeated over 8 hours, which equates to 100% of Bac. Bac post-trauma treatment restored brain expression of GABAB and PKC-α, while decreasing FAK. Besides enhancing the histological findings, the anti-inflammatory effect was clear by decreasing TNF-α and NF-κB p65. Consequently, significant antioxidant sequelae were revealed herein by diminishing MDA levels and restoring SOD activity. Conclusion: Transdermal delivery of Bac-loaded niosomes confirmed neuroprotection and succeeded in surpassing skin-to-brain barriers, which makes it a promising therapeutic option for repeated traumas.

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超越传统治疗：纳米微粒在重复性脑外伤中用于透皮巴氯芬给药的治疗潜力

目的：研究人员正计划对以前批准的药物进行重新定位。巴氯芬（Bac）具有公认的神经保护能力，因此成为我们的候选药物，我们建议以非离子表面活性剂为基础的纳米颗粒（NISNV）配方对大鼠的轻度重复性脑损伤（mRTBI）进行高效给药，从而减少口服或注射药物的数量，尤其是对严重昏迷的患者或儿科患者。研究方法采用（23）因子设计来限制Bac加载的NISNV配方，其中考察了一系列变量。进行了一项体内实验，以测试所制备配方的透皮疗效。实验测量了以下参数：大脑中γ氨基丁酸B（GABAB）、蛋白激酶C-α（PKC-α）、局灶粘附激酶（FAK）、TNF-α和核因子卡巴B（NF-κB）p65、MDA、SOD和组织病理学的表达。结果前者的 PS 和 EE 百分比从 60.40±0.28% 到 88.02±0.01%，后者的 PS 和 EE 百分比从 174.64±0.93 到 1174.50±3.54 nm。8 小时后的体外释放率为 63.25±5.47% 至 84.79±3.75%。优化配方（F4）的可取性=1，8 小时内渗透了 630.09±3.53 µg/cm2 的 Bac，相当于 100%的 Bac。Bac 创伤后处理可恢复大脑中 GABAB 和 PKC-α 的表达，同时降低 FAK 的表达。除了增强组织学结果外，抗炎效果也很明显，因为 TNF-α 和 NF-κB p65 均有所下降。因此，通过降低 MDA 水平和恢复 SOD 活性，抗氧化效果显著。结论经皮给药的含 Bac 的生物胶体证实了对神经的保护作用，并成功超越了皮肤到大脑的屏障，这使其成为治疗反复创伤的一种有前途的选择。

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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来源期刊

Advanced pharmaceutical bulletin PHARMACOLOGY & PHARMACY-

CiteScore

6.80

自引率

2.80%

发文量

审稿时长

12 weeks