Extraction of γ-chitosan from insects and fabrication of PVA/γ-chitosan/kaolin nanofiber wound dressings with hemostatic properties.

IF 6.7 0 MATERIALS SCIENCE, MULTIDISCIPLINARY Discover nano Pub Date : 2024-05-02 DOI:10.1186/s11671-024-04016-6
Hakyong Lee, Jinkyeong Kim, Suwan Myung, Tae-Gon Jung, Dong-Wook Han, Bongju Kim, Jae-Chang Lee
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Abstract

A nanofiber-based composite nonwoven fabric was fabricated for hemostatic wound dressing, integrating polyvinyl alcohol (PVA), kaolin, and γ-chitosan extracted from three type of insects. The γ-chitosan extracted from Protaetia brevitarsis seulensis exhibited the highest yield at 21.5%, and demonstrated the highest moisture-binding capacity at 535.6%. In the fabrication process of PVA/kaolin/γ-chitosan nonwoven fabrics, an electrospinning technique with needle-less and mobile spinneret was utilized, producing nanofibers with average diameters ranging from 172 to 277 nm. The PVA/kaolin/γ-chitosan nonwoven fabrics demonstrated enhanced biocompatibility, with cell survival rates under certain compositions reaching up to 86.9% (compared to 74.2% for PVA). Furthermore, the optimized fabric compositions reduced blood coagulation time by approximately 2.5-fold compared to PVA alone, highlighting their efficacy in hemostasis. In other words, the produced PVA/kaolin/γ-chitosan nonwoven fabrics offer potential applications as hemostatic wound dressings with excellent biocompatibility and improved hemostatic performance.

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从昆虫中提取γ-壳聚糖并制成具有止血性能的 PVA/γ-Citosan/kaolin 纳米纤维伤口敷料。
将聚乙烯醇(PVA)、高岭土和从三种昆虫中提取的γ-壳聚糖结合在一起,制成了一种用于止血伤口敷料的纳米纤维基复合无纺布。从Protaetia brevitarsis seulensis中提取的γ-壳聚糖产量最高,达21.5%,吸湿能力最强,达535.6%。在 PVA/高岭土/γ-壳聚糖非织造布的制造过程中,采用了无针移动喷丝板电纺技术,生产出平均直径为 172 至 277 nm 的纳米纤维。PVA/kaolin/γ-chitosan 非织造布显示出更强的生物相容性,在特定成分下细胞存活率高达 86.9%(PVA 为 74.2%)。此外,与单独使用 PVA 相比,优化后的织物成分可将血液凝固时间缩短约 2.5 倍,突出了其止血功效。换句话说,生产出的 PVA/kaolin/γ-chitosan 非织造布具有作为止血伤口敷料的潜在应用价值,具有良好的生物相容性和更高的止血性能。
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