通过在小型猪模型中使用完全自体去细胞导管再生新的动脉：一项初步研究。

Regeneration of a neoartery through a completely autologous acellular conduit in a minipig model: a pilot study.

机构信息

Department of Cardiovascular Surgery, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, 430022, China.

Department of Thoracic and Cardiovascular Surgery, Central Hospital of Zhuzhou, Zhuzhou, 412000, Hunan, China.

出版信息

J Transl Med. 2019 Jan 11;17(1):24. doi: 10.1186/s12967-018-1763-5.

DOI:10.1186/s12967-018-1763-5

PMID:30634983

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6330492/

Abstract

BACKGROUND

Vascular grafts are widely used as a treatment in coronary artery bypass surgery, hemodialysis, peripheral arterial bypass and congenital heart disease. Various types of synthetic and natural materials were experimented to produce tissue engineering vascular grafts. In this study, we investigated in vivo tissue engineering technology in miniature pigs to prepare decellularized autologous extracellular matrix-based grafts that could be used as vascular grafts for small-diameter vascular bypass surgery.

METHODS

Autologous tissue conduits (3.9 mm in diameter) were fabricated by embedding Teflon tubings in the subcutaneous pocket of female miniature pigs (n = 8, body weight 25-30 kg) for 4 weeks. They were then decellularized by CHAPS decellularization solution. Heparin was covalently-linked to decellularized tissue conduits by Sulfo-NHS/EDC. We implanted these decellularized, completely autologous extracellular matrix-based grafts into the carotid arteries of miniature pigs, then sacrificed the pigs at 1 or 2 months after implantation and evaluated the patency rate and explants histologically.

RESULTS

After 1 month, the patency rate was 100% (5/5) while the inner diameter of the grafts was 3.43 ± 0.05 mm (n = 5). After 2 months, the patency rate was 67% (2/3) while the inner diameter of the grafts was 2.32 ± 0.14 mm (n = 3). Histological staining confirmed successful cell infiltration, and collagen and elastin deposition in 2-month samples. A monolayer of endothelial cells was observed along the inner lumen while smooth muscle cells were dominant in the graft wall.

CONCLUSION

A completely autologous acellular conduit with excellent performance in mechanical properties can be remodeled into a neoartery in a minipig model. This proof-of-concept study in the large animal model is very encouraging and indicates that this is a highly feasible idea worthy of further study in non-human primates before clinical translation.

摘要

背景

血管移植物被广泛用作冠状动脉旁路手术、血液透析、外周动脉旁路和先天性心脏病的治疗方法。各种类型的合成和天然材料被用于实验，以生产组织工程血管移植物。在这项研究中，我们在小型猪体内进行了组织工程技术研究，以制备去细胞化的自体细胞外基质基移植物，可用于小直径血管旁路手术的血管移植物。

方法

通过将特氟龙管嵌入雌性小型猪（体重 25-30 公斤）的皮下袋中 4 周来制备自体组织导管（直径 3.9 毫米）。然后，用 CHAPS 去细胞化溶液对其进行去细胞化处理。通过 Sulfo-NHS/EDC 将肝素共价连接到去细胞化的组织导管上。我们将这些去细胞化的、完全自体细胞外基质基移植物植入小型猪的颈动脉中，然后在植入后 1 或 2 个月处死猪，并通过组织学评估评估通畅率和移植物的组织学。

结果

1 个月后，通畅率为 100%（5/5），移植物的内径为 3.43±0.05 毫米（n=5）。2 个月后，通畅率为 67%（2/3），移植物的内径为 2.32±0.14 毫米（n=3）。组织学染色证实了 2 个月样本中细胞浸润和胶原及弹性蛋白的成功沉积。在内腔表面观察到单层内皮细胞，而平滑肌细胞在移植物壁中占主导地位。

结论

一种具有优异机械性能的完全自体去细胞导管可以在小型猪模型中重塑为新的动脉。这项大型动物模型中的概念验证研究非常令人鼓舞，表明这是一个非常可行的想法，值得在非人类灵长类动物中进一步研究，然后再进行临床转化。

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通过在小型猪模型中使用完全自体去细胞导管再生新的动脉：一项初步研究。

Regeneration of a neoartery through a completely autologous acellular conduit in a minipig model: a pilot study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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