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Biomimetic hemocompatible nanofibrous scaffolds as potential small-diameter blood vessels by bilayering electrospun technique

机译：Bilayering Electrome技术的仿生血液相容性纳米纤维支架作为潜在的小直径血管

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In this paper, we prepared a scaffold composed of a polyurethane (PU) fibrous outside-layer and a gelatin-heparin fibrous inner-layer with mimicking morphology and mechanical properties of a native blood vessel by sequential bilayering electrospinning technology on a rotating mandrel-type collector. The scaffolds achieved the appropriate breaking strength (3.7 ± 0.13 MPa) and elongation at break (110 ± 8%). When the scaffolds were immersed in water for 1 h, the breaking strength decreased slightly to 2.2 ± 0.3 MPa, but the elongation at break increased up to 145 ± 21%. Heparin was released from the scaffolds at substantially uniform rate until the 9th day. The scaffolds were expected to mimic the complex matrix structure of native arteries, and had good hemocompatibility as an artificial blood vessel owing to the heparin release.

机译：在本文中，我们制备了由聚氨酯（PU）纤维外层和明胶 - 肝素纤维内层组成的支架，其通过在旋转心轴型上通过连续的双层静电纺丝技术模仿天然血管的形态和机械性能集电极。支架达到适当的断裂强度（3.7±0.13MPa）和断裂伸长（110±8％）。当支架浸入水中1小时时，断裂强度略微降至2.2±0.3MPa，但断裂的伸长率增加至145±21％。肝素以基本均匀的速率从支架中释放到第9天。预期支架是模拟原生动脉的复杂基质结构，并且由于肝素释放而具有作为人造血管的良好的血液振动性。

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《International conference on advanced materials》|2011年||共4页
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Heyun Wang; Yakai Feng; Haiyang Zhao;
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中图分类 TB3-532;
关键词
electrospinning; artificial blood vessels; scaffold; small-diameter; hemocompatible;

机译：静电纺丝;人工血管;脚手架;小直径;血液互相;
入库时间 2022-08-20 21:48:38

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专利

1. Electrospun hemocompatible PU/gelatin-heparin nanofibrous bilayer scaffolds as potential artificial blood vessels [J] . Heyun Wang, Yakai Feng, Haiyang Zhao, Macromolecular Research . 2012,第4期

机译：电纺血液相容性PU /明胶-肝素纳米纤维双层支架作为潜在的人造血管
2. Electrospun Hemocompatible PU/ Gelatin-Heparin Nanofibrous Bilayer Scaffolds as Potential Artificial Blood Vessels [J] . Heyun Wang, Yakai Feng, Haiyang Zhao Macromolecular Research . 2012,第4期

机译：电纺血相容性PU /明胶-肝素纳米纤维双层支架作为潜在的人造血管
3. Heparinized PLLA/PLCL nanofibrous scaffold for potential engineering of small-diameter blood vessel: Tunable elasticity and anticoagulation property [J] . Wang Weizhong, Hu Jinwei, He Chuanglong, Journal of biomedical materials research, Part A . 2015,第5期

机译：肝素化的PLLA / PLCL纳米纤维支架可用于小直径血管的潜在工程：可调节的弹性和抗凝性
4. Biomimetic hemocompatible nanofibrous scaffolds as potential small-diameter blood vessels by bilayering electrospun technique [C] . Heyun Wang, Yakai Feng, Haiyang Zhao International conference on advanced materials . 2011

机译：Bilayering Electrome技术的仿生血液相容性纳米纤维支架作为潜在的小直径血管
5. Electrospun Polycaprolactone Scaffolds for Small-Diameter Tissue Engineered Blood Vessels. [D] . Lee, Carol Hsiu-Yueh. 2013

机译：用于小直径组织工程血管的静电纺丝聚己内酯支架。
6. Electrospun Fibrous Scaffolds for Small-Diameter Blood Vessels: A Review [O] . Nasser K. Awad, Haitao Niu, Usman Ali, 2018

机译：用于小直径血管的静电纺丝纤维支架：综述
7. Electrospun Fibrous Scaffolds for Small-Diameter Blood Vessels: A Review [O] . Nasser Awad, Haitao Niu, Usman Ali, 2018

机译：用于小直径血管的Electromun纤维支架：综述
8. Determination of J-Integral R-Curves for the Pressure Vessel Material A 533 B1 Using the Potential Drop Technique and the Multi-Specimen Method [R] . Krompholz, K., Ullrich, G. 1985

机译：利用势滴技术和多样本方法确定压力容器材料a 533 B1的J积分R曲线

Biomimetic hemocompatible nanofibrous scaffolds as potential small-diameter blood vessels by bilayering electrospun technique

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