电气石纳米颗粒对聚（L-丙交酯-己内酯）电纺纤维膜抗凝性和细胞毒性的影响

Effect of tourmaline nanoparticles on the anticoagulation and cytotoxicity of poly(l-lactide--caprolactone) electrospun fibrous membranes.

作者信息

Zhao Tianyu, Zhang Hong, Li Pan, Liang Jinsheng

机构信息

Key Laboratory of Special Functional Materials for Ecological Environment and Information (Hebei University of Technology), Ministry of Education Tianjin 300130 China

Institute of Power Source and Ecomaterials Science, Hebei University of Technology Tianjin 300130 China.

出版信息

RSC Adv. 2019 Jan 4;9(2):704-710. doi: 10.1039/c8ra07700b. eCollection 2019 Jan 2.

DOI:10.1039/c8ra07700b

PMID:35517608

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9059544/

Abstract

Tourmaline nanoparticles (TM NPs) were well dispersed in poly(l-lactide--caprolactone) (PLCL) fibers electrospinning without a dispersant. Through the modification of TM NPs, the hydrophilicity and anticoagulant property of the composite electrospun fibrous membranes were improved. Compared with the PLCL membranes, the curve of dynamic clotting time in contact with the composite TM NPs/PLCL membranes descended more slowly. Particularly, the coagulation time of 8 wt% TM NPs/PLCL membrane was longer than 70 min, which was 174% higher than that of the PLCL membrane. At the same time, the cell compatibility and mechanical properties of TM NPs/PLCL membranes were analyzed. The cytotoxicity test showed that the grade of 8 wt% TM NPs/PLCL membrane was 0. The stretching experiments showed that the tensile strength of 8 wt% TM NPs/PLCL membrane (6.71 ± 0.30 MPa) was 267.33% higher than that of the PLCL membrane, and its elongation at break (141.83 ± 5.82%) was higher than the requirement of the coronary artery. These results indicated that the PLCL electrospun fibrous membranes modified with TM NPs have potential to be used in tissue engineering as small-caliber vascular grafts.

摘要

电气石纳米颗粒（TM NPs）在无分散剂的情况下通过静电纺丝很好地分散在聚（L-丙交酯-己内酯）（PLCL）纤维中。通过对TM NPs的改性，复合静电纺丝纤维膜的亲水性和抗凝血性能得到改善。与PLCL膜相比，与复合TM NPs/PLCL膜接触时的动态凝血时间曲线下降得更慢。特别是，8 wt% TM NPs/PLCL膜的凝血时间超过70分钟，比PLCL膜高出174%。同时，对TM NPs/PLCL膜的细胞相容性和力学性能进行了分析。细胞毒性测试表明，8 wt% TM NPs/PLCL膜的等级为0级。拉伸实验表明，8 wt% TM NPs/PLCL膜的拉伸强度（6.71±0.30 MPa）比PLCL膜高267.33%，其断裂伸长率（141.83±5.82%）高于冠状动脉的要求。这些结果表明，用TM NPs改性的PLCL静电纺丝纤维膜有潜力作为小口径血管移植物用于组织工程。

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电气石纳米颗粒对聚（L-丙交酯-己内酯）电纺纤维膜抗凝性和细胞毒性的影响

Effect of tourmaline nanoparticles on the anticoagulation and cytotoxicity of poly(l-lactide--caprolactone) electrospun fibrous membranes.

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