受建筑工程启发的用于动脉置换和动静脉移植的机械增强生物管。

Mechanically reinforced biotubes for arterial replacement and arteriovenous grafting inspired by architectural engineering.

作者信息

Zhi Dengke, Cheng Quhan, Midgley Adam C, Zhang Qiuying, Wei Tingting, Li Yi, Wang Ting, Ma Tengzhi, Rafique Muhammad, Xia Shuang, Cao Yuejuan, Li Yangchun, Li Jing, Che Yongzhe, Zhu Meifeng, Wang Kai, Kong Deling

机构信息

Key Laboratory of Bioactive Materials, Ministry of Education, College of Life Sciences, State Key Laboratory of Medicinal Chemical Biology, Nankai University, Tianjin 300071, China.

Urban Transport Emission Control Research Centre, College of Environmental Science and Engineering, Nankai University, Tianjin 300071, China.

出版信息

Sci Adv. 2022 Mar 18;8(11):eabl3888. doi: 10.1126/sciadv.abl3888. Epub 2022 Mar 16.

DOI:10.1126/sciadv.abl3888

PMID:35294246

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8926343/

Abstract

There is a lack in clinically-suitable vascular grafts. Biotubes, prepared using in vivo tissue engineering, show potential for vascular regeneration. However, their mechanical strength is typically poor. Inspired by architectural design of steel fiber reinforcement of concrete for tunnel construction, poly(ε-caprolactone) (PCL) fiber skeletons (PSs) were fabricated by melt-spinning and heat treatment. The PSs were subcutaneously embedded to induce the assembly of host cells and extracellular matrix to obtain PS-reinforced biotubes (PBs). Heat-treated medium-fiber-angle PB (hMPB) demonstrated superior performance when evaluated by in vitro mechanical testing and following implantation in rat abdominal artery replacement models. hMPBs were further evaluated in canine peripheral arterial replacement and sheep arteriovenous graft models. Overall, hMPB demonstrated appropriate mechanics, puncture resistance, rapid hemostasis, vascular regeneration, and long-term patency, without incidence of luminal expansion or intimal hyperplasia. These optimized hMPB properties show promise as an alternatives to autologous vessels in clinical applications.

摘要

临床上适用的血管移植物存在短缺。利用体内组织工程制备的生物管显示出血管再生的潜力。然而，它们的机械强度通常较差。受隧道建设中混凝土钢纤维增强结构设计的启发，通过熔融纺丝和热处理制备了聚（ε-己内酯）（PCL）纤维骨架（PSs）。将PSs皮下植入以诱导宿主细胞和细胞外基质的组装，从而获得PS增强生物管（PBs）。通过体外力学测试以及在大鼠腹主动脉置换模型中植入后评估，热处理的中纤维角PB（hMPB）表现出优异的性能。hMPBs在犬外周动脉置换和绵羊动静脉移植模型中进一步评估。总体而言，hMPB表现出合适的力学性能、抗穿刺性、快速止血、血管再生和长期通畅性，没有管腔扩张或内膜增生的发生。这些优化的hMPB特性有望在临床应用中作为自体血管的替代品。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c9f8/8926343/72cc86166e5e/sciadv.abl3888-f1.jpg

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受建筑工程启发的用于动脉置换和动静脉移植的机械增强生物管。

Mechanically reinforced biotubes for arterial replacement and arteriovenous grafting inspired by architectural engineering.

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