用于小直径血管组织工程结构的多孔管状支架

Perspektivnye Materialy Pub Date : 2022-01-01 DOI:10.30791/1028-978x-2022-11-36-46

E. A. Nemets, V. A. Surguchenko, Y. Belov, A. I. Xajrullina, V. Sevastyanov

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引用次数: 0

摘要

研究了一种以聚己内酯(PCL)为材料制备多孔管状聚合物支架(PTPS)的技术，该支架具有必要的物理力学特性(杨氏模量5.5±1.1 MPa，断裂力10.9±1.6 N，最大伸长率477±38%)。用2 ml的10% PCL溶液在二氯甲烷中静电纺丝获得的样品(电极间电压25 kV，溶液输送速率4 ml/h，到收集器的距离100 mm，基板棒旋转速度1000 rpm)显示，最小手术渗透率为30.4±1.5 ml/(cm2·min)。实验证明，基于肝素和血小板裂解液的生物活性涂层不会影响支架的表面结构和物理力学特性。体外实验表明，修饰后的PTPS样品不表现出细胞毒性和溶血活性，血液相容性的改善是由于粘附血小板的数量和活化程度的减少而发生的。

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Porous tubular scaffolds for tissue engineering structures of small diameter blood vessels

A technology fo the formation of porous tubular polymer scaffolds (PTPS) made of polycaprolactone (PCL) with the necessary physical and mechanical characteristics (Young’s modulus 5.5 ± 1.1 MPa, breaking force 10.9 ± 1.6 N and maximum elongation 477 ± 38 %) has been developed. Samples obtained by electrospinning from 2 ml of a 10 % PCL solution in dichloromethane (voltage between electrodes 25 kV, solution delivery rate 4 ml/h, distance to the collector 100 mm, rotation speed of the substrate rod 1000 rpm) showed a minimum surgical permeability of 30.4 ± 1.5 ml/(cm2·min). It is proved that the proposed bioactive coating based on heparin and platelet lysate does not affect the surface structure and physical and mechanical characteristics of the scaffold. It has been shown in vitro that samples of modified PTPS do not exhibit cytotoxicity and hemolytic activity, and improvement of hemocompatible properties occurs due to a decrease in the number and degree of activation of adhered platelets.

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