壳聚糖低聚物/银纳米粒子/PCL 复合电纺丝膜用于严重烧伤创面愈合

Anh Mai Que, Tuan Ngan Tang, Tam Phan Thi Thanh, Thanh Tu Duong, Thanh Binh Vu, Van Khiem Nguyen, Hoan Ngoc Doan, Hiep Thi Nguyen
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摘要

在烧伤伤口的处理中,抗菌和伤口愈合性能至关重要。在这项研究中,我们制备了一种用于烧伤创面敷料的三层电纺聚(ε-己内酯)(PCL)膜。疏水性电纺 PCL 层中嵌入了银纳米粒子(SNPs)(PCL-Ag),并在其上涂覆了另一层等离子体处理过的电纺 PCL-Ag,以增强膜的润湿性。这种增强是为了促进敷料第三层--亲水性壳聚糖低聚物(COS)的吸收。对制备出的膜进行了表征和不同性能的测试,以证明其作为伤口敷料材料的适用性。由于壳聚糖的愈合能力和 SNP 的抗菌活性,制作出的膜结合了壳聚糖和 SNP,可支持愈合过程并降低烧伤的严重程度,同时不影响机械强度。我们进行了多项体外和体内实验,以评估其在烧伤伤口愈合方面的适用性。PCL-Ag/COS 样品表现出出色的体外生物相容性和对金黄色葡萄球菌菌株的抗菌活性。我们在实验室中使用这种膜治疗兔子的烧伤,历时 30 天,观察结果一致良好。这项研究为开发用于伤口愈合的生物活性敷料提供了启示,并为 COS 嵌入材料的实际应用提供了机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chitosan oligomer/silver nanoparticles/PCL composite electrospun membrane for severe burn wound healing
In the management of burn wounds, antimicrobial and wound healing properties are crucial. In this study, we prepared a three-layer electrospun poly(ε-caprolactone) (PCL) membrane for burn wound dressing. The hydrophobic electrospun PCL layer, embedded with silver nanoparticles (SNPs) (PCL-Ag), was coated with another layer of electrospun plasma-treated PCL-Ag to enhance the wettability of the membrane. This enhancement was to facilitate the absorption of the hydrophilic chitosan oligomer (COS) - the third layer of the dressing. The resultant membranes were characterised and tested for different properties to demonstrate their applicability as wound dressing materials. The combination of COS and SNPs of the fabricated membrane supports the healing process and reduces burn severity due to the healing capacity of COS and the antibacterial activity of SNPs, without compromising mechanical strength. We conducted several in vitro and in vivo experiments to evaluate its applicability for burn wound healing. The PCL-Ag/COS sample demonstrated outstanding in vitro biocompatibility and excellent antibacterial activity against Staphylococcus aureus strains. We used the membrane to treat burns on rabbits in the laboratory over 30 days, and consistently observed positive outcomes. This research offers insights into the development of bioactive dressings for wound healing and opens up opportunities for practical applications of COS-incorporated materials.
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