Preparation and evaluation the effects of retinoic acid loaded proliposomal nanofibers on microbial biofilm inhibition.

IF 2.6 4区 医学 Q2 PHARMACOLOGY & PHARMACY Pharmaceutical Development and Technology Pub Date : 2024-11-01 Epub Date: 2024-10-07 DOI:10.1080/10837450.2024.2411034
Serdar Tort, Ziya Canberk Öztürk, Fatma Kaynak-Onurdağ, N Başaran Mutlu-Ağardan
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Abstract

The electrospinning method involves the production of different drug delivery systems using various polymers. The production of proliposomes with electrospinning provides the hybridization of two novel drug delivery systems. Retinoic acid, also known as all-trans retinoic acid (ATRA), is a common and effective drug for acne therapy. This study aimed to prepare ATRA-loaded proliposomal nanofibers and evaluate their effectiveness on microbial biofilm inhibition. Blank and ATRA-loaded proliposomal nanofiber formulations were fabricated in various polyvinylpyrrolidone, phosphatidylcholine and cholesterol ratios. TEM images verified the rapid formation of the liposomes after the hydration of nanofibers. The vesicle size, polydispersity index and zeta potential values of self-assembled liposomes were measured. The vesicle size values were found to be 321.9-363.8 nm with PDI values varying between 0.332 and 0.511 and zeta potential values of (-16.8) to (-20.5)mV. ATRA-loaded proliposomal nanofibers provided higher bioadhesion (0.25 mJ/cm2) than the commercial cream (0.07 mJ/cm2). The short-term stability results showed that the initial characteristics remained for three months at 4 °C. The proposed ATRA-loaded self-assembled proliposomal system provided antibacterial, fungistatic or fungicidal effects superior to retinoic acid itself and inhibited biofilm formation in lower concentrations. This approach can combine the stability advantage of nanofibers in the dry state with the high effectiveness of liposomes in acne treatment presenting antibacterial and anti-biofilm-forming activity against Candida albicans and Cutibacterium acnes.

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制备并评估维甲酸负载的脂质体纳米纤维对微生物生物膜的抑制作用。
电纺丝方法涉及使用各种聚合物生产不同的药物输送应用。利用电纺丝法生产的脂质体实现了两种新型给药系统的杂交。维甲酸又称全反式维甲酸(ATRA),是治疗痤疮的常用有效药物。本研究旨在制备载ATRA的脂质体纳米纤维,并评估其抑制生物膜的效果。研究人员以不同的聚乙烯吡咯烷酮、磷脂酰胆碱和胆固醇比例制备了空白和负载 ATRA 的脂质体纳米纤维制剂。TEM 图像验证了纳米纤维水合后脂质体的快速形成。测量了自组装脂质体的囊泡大小、多分散指数和 zeta 电位值。结果发现,囊泡大小为 321.9-363.8nm,PDI 值在 0.332-0.511 之间变化,zeta 电位值为 (-16.8)-(-20.5)mV。与商用乳膏(0.07mJ/cm2)相比,ATRA 负载的脂质体纳米纤维具有更高的生物粘附性(0.25mJ/cm2)。短期稳定性结果表明,在 4 °C 下三个月仍能保持初始特性。拟议的 ATRA 负载自组装脂质体系统的抗菌、抑菌或杀真菌效果优于维甲酸本身,并能在较低浓度下抑制生物膜的形成。这种方法可以将纳米纤维在干燥状态下的稳定性优势与脂质体在痤疮治疗中的高效性结合起来,对白色念珠菌和痤疮棒状杆菌具有抗菌和抗生物膜形成的活性。
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来源期刊
CiteScore
5.90
自引率
2.90%
发文量
82
审稿时长
1 months
期刊介绍: Pharmaceutical Development & Technology publishes research on the design, development, manufacture, and evaluation of conventional and novel drug delivery systems, emphasizing practical solutions and applications to theoretical and research-based problems. The journal aims to publish significant, innovative and original research to advance the frontiers of pharmaceutical development and technology. Through original articles, reviews (where prior discussion with the EIC is encouraged), short reports, book reviews and technical notes, Pharmaceutical Development & Technology covers aspects such as: -Preformulation and pharmaceutical formulation studies -Pharmaceutical materials selection and characterization -Pharmaceutical process development, engineering, scale-up and industrialisation, and process validation -QbD in the form a risk assessment and DoE driven approaches -Design of dosage forms and drug delivery systems -Emerging pharmaceutical formulation and drug delivery technologies with a focus on personalised therapies -Drug delivery systems research and quality improvement -Pharmaceutical regulatory affairs This journal will not consider for publication manuscripts focusing purely on clinical evaluations, botanicals, or animal models.
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