In vitro test of slow-release magnesium chloride of anti-calcification small caliber tissue engineering blood vessels
10.3760/cma.j.cn112434-20200620-00301
- VernacularTitle:氯化镁缓释抗钙化组织工程小口径血管体外性能测试
- Author:
Yangyang LI
;
Yingjie YANG
;
Jie LIU
;
Zhao YANG
;
Pengchong DU
;
Liang ZHAO
;
Wenbin LI
- From:
Chinese Journal of Thoracic and Cardiovascular Surgery
2021;37(5):303-308
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To construct tissue engineering small-caliber anti-calcifiction blood vessels with micron slow-release magnesium chloride.Methods:After decellularizing sheep carotid artery by combining Triton X-100+ deoxycholate sodium salt and DNA/RNA ribozyme, tissue engineering small-caliber vascular scaffold was made, HE staining of elastic fiber and collagen were carried out at the same time, and scanning electron microscope was used to observe the decellularization and the performance of vascular stent. The microemulsion anti-calcification slow-release microsphere particles loaded with magnesium chloride(MgCl 2) were prepared by double emulsion method, ultrasonic breaking, high speed stirring and evaporation method. Detected the particle size, encapsulation rate, drug loading(rate) of the sustained-release microspheres and measured the sustained-release curve. After the artificial small-caliber blood vessel was cross-linked with carbodiimide hydrochloride/succinic imine(EDC/NHS), freeze-drying technology was used to combine the micron slow-release microspheres loaded with MgCl 2 with the vascular scaffold. Observed the combination under the electron microscope, and tested the thickness and tensile strength of the specimen blood vessels. Results:After decellularization, the sheep carotid artery could remove all kinds of cells and maintain the original performance of the scaffold. The averaged particle size of micro-calcium-resistant slow-release microspheres loaded with MgCl 2 was(1.31±0.02)μm, which was relatively uniform. The encapsulation rate of microsphere particles was 82.79%, and the drug loading(rate) was 2.98%, which existed within 25 days slow release, the release rate reached 81.08%. The slow-release microsphere particles loaded with chlorinase could be effectively and tightly combined with small-caliber tissue engineering blood vessels. Conclusion:The slow-release microsphere particles loaded with magnesium chloride made of PLGA as a carrier have the effect of slow-release magnesium ions. It laid the foundation for the construction of anti-calcification tissue engineering small-caliber blood vessels.
