去细胞血管支架重建小直径动脉。

Q4 Dentistry

Journal of Medical and Dental Sciences Pub Date : 2014-03-19 DOI:10.11480/610105

Yuki Nagaoka, H. Yamada, Tsuyoshi Kimura, A. Kishida, T. Fujisato, K. Takakuda

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引用次数: 15

摘要

虽然对于大直径动脉有人工血管，但是对于< 4mm的小直径动脉没有人工血管。我们制作了一个脱细胞血管支架(长度，10mm;外径:1.5 mm;内径，1.3 mm)取自大鼠腹部动脉。我们测量了支架的生物力学特性，将其植入大鼠颈动脉缺损，并评估其通畅性和内皮细胞衬里。硅胶移植物作为对照。脱细胞支架表现出与正常动脉相似的力学特性。所有对照移植物均闭塞。血栓内可见成纤维细胞样细胞，纤维组织明显。相比之下，12只动物中有10只在植入后4周观察到移植物通畅。支架内腔完全被内皮样细胞衬砌。因此，证明了使用去细胞支架重建小动脉的可能性。

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Reconstruction of small diameter arteries using decellularized vascular scaffolds.

Although artificial vessels are available for large diameter arteries, there are no artificial vessels for small diameter arteries of < 4 mm. We created a decellularized vascular scaffold (length, 10 mm; outer diameter, 1.5 mm; inner diameter, 1.3 mm) from rat abdominal arteries. We measured the biomechanical characteristics of the scaffolds, implanted them to defects made in rat carotid arteries, and evaluated their patency and the endothelial cell linings. Silastic grafts were implanted as controls. The decellularized scaffolds demonstrated similar mechanical characteristics to normal arteries. All of the control grafts were occluded. Fibroblast-like cells were discovered in the thrombus, and fibrous organization was apparent. In contrast, patency of the grafts in 10 of 12 animals was observed 4 weeks after implantation. The internal cavity of the patent scaffold was completely lined by endotheliallike cells. Thus, the possibility of small artery reconstruction using decellularized scaffolds was demonstrated.

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来源期刊

Journal of Medical and Dental Sciences Dentistry-Dentistry (all)

CiteScore

0.30

自引率

0.00%

发文量

期刊介绍： "Journal of Medical and Dental Sciences" publishes the results of research conducted at Tokyo Medical and Dental University. The journal made its first appearance in 1954. We issue four numbers by the year.