Experimental studies on preparation of the porous and small-diameter poly(ε-caprolactone) external vascular scaffold and its degradability and biocompatibility.

IF 2 Regenerative Medicine Research Pub Date : 2018-01-01 Epub Date: 2018-06-01 DOI:10.1051/rmr/180001
Qingyun Chen, Xia Jiang, Li Feng
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引用次数: 2

Abstract

Aim: This study was aim to prepare a porous poly(ε-caprolactone) (PCL) biodegradable external vascular scaffold by dipping and leaching method, and to assess its mechanical property, degradability and biocompatibility.

Methods: We used the PCL-1, PCL-2 as the raw materials and NaCl particles as the pore-forming agents to construct a porous PCL external vascular scaffold. We tested the mechanical property of the porous PCL external vascular scaffold. The degradability of the scaffold was studied in the presence of thermomyces lanuginosus lipase (TL lipase). After 1, 3, and 5, 7 days, the samples were taken out, and the pH of the media was measured. The form-stability of the scaffold was investigated by macroscopic observation and the microstructure of it was observed by SEM. The cytotoxicity of the scaffold was evaluated by CCK-8 assay.

Results: PCL-1 could make a white integrated external vascular scaffold with uniform texture. When the concentration of NaCl was less than or equal to 50%, the tensile strength of the porous PCL-1 external vascular scaffolds were higher than 4.2 Mpa, which meet the demand of clinical vascular transplantation. With the degradation of the scaffold in the lipase media, the form-stability of the scaffold was seriously destroyed, the surface of the scaffold began to degrade with some honeycomb holes, and the pH of the media values were lower than the initial reading of 7.4. Rat adipose-derived stem cells (rADSCs) cultured in the extractions of the porous PCL external vascular scaffold had good proliferation and cell morphology compared to the control group.

Conclusion: The porous PCL-1-50 external vascular scaffold, with the 50% concentration of NaCl, had the maximum porosity on the basis of enough mechanical strength which meets the demand of clinical vascular transplantation. Moreover, it had good biocompatibility with rADSCs and the degradation mechanism of the scaffold was surface degradation.

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多孔小直径聚(ε-己内酯)体外血管支架的制备及其可降解性和生物相容性的实验研究。
目的:采用浸渍浸出法制备多孔聚ε-己内酯(PCL)可生物降解的体外血管支架,并对其力学性能、可降解性和生物相容性进行评价。方法:以PCL-1、PCL-2为原料,以NaCl颗粒为成孔剂,构建多孔PCL体外血管支架。我们测试了多孔PCL体外血管支架的力学性能。研究了该支架在热酵素脂肪酶(TL脂肪酶)存在下的可降解性。1、3、5、7天后取出样品,测定培养基pH值。通过宏观观察和扫描电镜观察支架的微观结构,研究了支架的形态稳定性。CCK-8法评价支架的细胞毒性。结果:PCL-1可制成质地均匀的白色完整血管外支架。NaCl浓度小于或等于50%时,多孔PCL-1体外血管支架的抗拉强度均大于4.2 Mpa,满足临床血管移植的需要。随着支架在脂肪酶培养基中的降解,支架的形态稳定性被严重破坏,支架表面开始降解,出现一些蜂窝状孔洞,培养基pH值低于初始读数7.4。与对照组相比,多孔PCL体外血管支架提取物培养的大鼠脂肪干细胞(rADSCs)具有良好的增殖和细胞形态。结论:NaCl浓度为50%时,多孔PCL-1-50体外血管支架在具有足够机械强度的基础上具有最大孔隙度,满足临床血管移植的需要。与radsc具有良好的生物相容性,支架的降解机制为表面降解。
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来源期刊
Regenerative Medicine Research
Regenerative Medicine Research MEDICINE, RESEARCH & EXPERIMENTAL-
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