改进构建后的全生物化组织工程血管的组织结构与生物力学特性
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国家自然科学基金(10272110)


Biomechanical properties and histological structure of the improve-constructed tissue engineered blood vessel with completely biomaterial
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    摘要:

    目的改进体外构建的生物化组织工程血管(TEBV),研究其生物力学特性,获得能承载生理血流力学作用的血管替代物。方法用酶消化法制备猪颈总动脉脱细胞支架,加压灌注结合散点注射种植犬胸主动脉平滑肌细胞(VSMC),用自制的血管自动旋转流体培养系统培养3周,随后再用加压灌注法种植犬胸主动脉内皮细胞(EC),继续培养至4周,取材做HE染色。光镜和电镜观察VSMC及EC在支架内的生长情况。用力学测试仪器检测TEBV的应力-应变关系、拉伸弹性回复率以及最大断裂强度和长度。结果在血管自动旋转流体培养系统,VSMC种植3周在中膜层已经大量均匀分布,EC种植7天后已形成连续完整的EC单层;而应用单独的加压灌注法VSMC种植3周时仍不能均匀分布,EC种植1周后仍分布不均匀,未能形成连续的EC单层。TEBV培养至第4周,中膜层有大量VSMC生长,内膜层则形成连续的EC单层;透射电镜下可见VSMC、EC亚微结构与生理状态的细胞结构相似,可见缝隙连接等细胞连接方式,VSMC可产生新的胶原蛋白。扫描电镜可见EC在支架上生长良好,细胞轮廓清晰,形成连续的单层。力学特性检测结果显示:TEBV的粘弹性、拉伸弹性回复率以及最大断裂强度均接近生理血管。结论血管自动旋转流体培养系统在脱细胞血管支架上联合种植VSMC和EC,有利于种子细胞在支架腔面和管壁内均匀生长,改进了TEBV的组织结构。改进构建的TEBV生物力学特性接近生理血管,将有利于TEBV更好地承载血流动力学的作用。

    Abstract:

    Objective To improve the biomechanics properties of completely biological tissue engineered blood vessel (TEBV). Methods Porcine common carotid arteries were used to make the decellularised vascular scaffolds by enzyme digestion, and then the scaffolds seeded with VSMC from canine thoracic aorta were cultured in the vascular culture system, vascular bioreactor with automatic rotation and the effect of mimic pulsatile flow for 3 weeks in vitro, and EC from canine thoracic aorta were seeded subsequently on the scaffolds in the same way and cultured for one more week. After TEBV had been cultured over 4 weeks, the micro-structure of TEBV was examined by histological staining. Meanwhile, the ultrastructure of VSMC and EC in TEBV was also investigated by TEM and SEM. After that, the biomechanics properties of the TEBV were measure by a multi-function mechanical instrument. Results Well-proportioned distribution of VSMC was acquired on the scaffolds in the vascular culture system after 3 weeks. However, there was not such a perfect result even after seeding and culturing for 4 weeks without using the culture system. Endothelization of scaffoldswas achieved in 7 days by using the culture system, but not by using the common pressure perfusion method. The improved TEBV had a histological structure similar to normal physiological one. Normal physiological connections between cells could be found under TEM. Plentiful collagens were also found from seeded VSMCs. The biomechanics properties, including viscoelasticity of TEBV were similar to that of the physiological vessels. Conclusion Both VSMC and EC could adhere or develop into the decellularized scaffolds easier and sooner by using the improved vascular culture system with the effect of automatic rotation and hydromechanics. The improved TEBV presented the better histological structure and biomechanics properties that should be advantageous and significant for TEBV substitute to bear the effect of hydromechanics in vivo.

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张秀花,张炎,李玉泉,杨向群,张林.改进构建后的全生物化组织工程血管的组织结构与生物力学特性[J].医用生物力学,2006,21(4):280-285

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