Fortified electrospun collagen utilizing biocompatible Poly Glycerol Sebacate prepolymer (PGSp) and zink oxide nanoparticles (ZnO NPs) for diabetics wound healing: Physical, biological and animal studies

IF 3.4 3区 环境科学与生态学 Q3 CELL & TISSUE ENGINEERING
Ghazaleh Larijani , Kazem Parivar , Nasim Hayati Roodbari , Parichehr Yaghmaei , Naser Amini
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Abstract

Collagen, a naturally occurring fibrous protein, is a potential resource of biological materials for tissue engineering and regenerative medicine because it is structurally biocompatible, has low immunogenicity, is biodegradable, and is biomimetic. Numerous studies have documented in the literature how Collagen nanofibers exhibit limited cell adhesion, poor viscosity, and no interior fibril structure. The biomedical industry is using Poly Glycerol Sebacate prepolymer(PGSp), a biodegradable and biocompatible polyester with high adhesion and very viscous appearance, more often. Here, unique electrospun Collagen/PGSp/ZnO/NPs blend nanofibers for skin tissue application were developed and described with varied PGSp percent. Additionally, when ternary blends of Collagen, PGSp, and Zink Oxide Nanoparticles (ZnO NPs) are used, the antibacterial properties of the scaffolds are improved. The bead-free electrospun nanofibers were produced by raising the PGSp concentration to 30%w/w. SEM, EDS, tensile, MTT, FTIR, SDS-page, swelling test, contact-angle, antimicrobial, biodegradation, XRD, and cell attachment procedures were used to characterize the crosslinked nanofibers. The ternary blend nanofibers with a weight ratio of Collagen/PGSp 30%/ZnONPs 1% had higher stress/strain strength (0.25 mm/mm), porosity (563), cell survival, and degradation time. Moreover, after applying for wound healing in diabetic rats, Collagen/PGSp 30%/could be show improving wound healing significantly compared to other groups.

Abstract Image

利用生物相容性聚甘油癸二酸酯预聚物(PGSp)和氧化锌纳米粒子(ZnO NPs)强化电纺胶原蛋白,用于糖尿病患者的伤口愈合:物理、生物和动物研究
胶原蛋白是一种天然的纤维状蛋白质,是组织工程和再生医学的潜在生物材料资源,因为它在结构上具有生物相容性,免疫原性低,可生物降解,并且具有生物仿生性。大量研究文献记载了胶原蛋白纳米纤维如何表现出有限的细胞粘附性、低粘度和无内部纤维结构。聚甘油癸二酸酯预聚物(PGSp)是一种可生物降解、生物相容性好的聚酯,具有高粘附性和非常粘稠的外观。在此,我们开发并描述了用于皮肤组织应用的独特电纺胶原蛋白/PGSp/ZnO/NPs 混合物纳米纤维,其 PGSp 含量各不相同。此外,当使用胶原蛋白、PGSp 和氧化锌纳米颗粒(ZnO NPs)的三元混合物时,支架的抗菌性能也得到了改善。将 PGSp 的浓度提高到 30%w/w 后,可制得无珠电纺纳米纤维。利用扫描电镜、EDS、拉伸、MTT、傅立叶变换红外光谱、SDS-page、溶胀试验、接触角、抗菌性、生物降解、XRD 和细胞附着等方法对交联纳米纤维进行了表征。胶原蛋白/PGSp 30%/ZnONPs 1% 重量比的三元共混纳米纤维具有更高的应力/应变强度(0.25 mm/mm)、孔隙率(563)、细胞存活率和降解时间。此外,将胶原蛋白/PGSp 30%/ZnONP 1%应用于糖尿病大鼠的伤口愈合后,与其他组相比,胶原蛋白/PGSp 30%/ZnONP 1%能明显改善伤口愈合。
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来源期刊
Regenerative Therapy
Regenerative Therapy Engineering-Biomedical Engineering
CiteScore
6.00
自引率
2.30%
发文量
106
审稿时长
49 days
期刊介绍: Regenerative Therapy is the official peer-reviewed online journal of the Japanese Society for Regenerative Medicine. Regenerative Therapy is a multidisciplinary journal that publishes original articles and reviews of basic research, clinical translation, industrial development, and regulatory issues focusing on stem cell biology, tissue engineering, and regenerative medicine.
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