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Regen Biomater. 2023 Jun 2;10:rbad056. doi: 10.1093/rb/rbad056. eCollection 2023.
2
Challenges and advances in materials and fabrication technologies of small-diameter vascular grafts.小口径血管移植物的材料与制造技术的挑战与进展
Biomater Res. 2023 Jun 8;27(1):58. doi: 10.1186/s40824-023-00399-2.
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Recent advances in regenerative biomaterials.再生生物材料的最新进展
Regen Biomater. 2022 Dec 5;9:rbac098. doi: 10.1093/rb/rbac098. eCollection 2022.
4
Viscosity characterization and flow simulation and visualization of polytetrafluoroethylene paste extrusion using a green and biofriendly lubricant.使用绿色环保润滑剂对聚四氟乙烯糊剂挤出进行粘度表征、流动模拟及可视化
Polym Eng Sci. 2021 Apr;61(4):1050-1065. doi: 10.1002/pen.25632. Epub 2021 Jan 4.
5
Future Perspectives in Small-Diameter Vascular Graft Engineering.小直径血管移植工程的未来展望
Bioengineering (Basel). 2020 Dec 10;7(4):160. doi: 10.3390/bioengineering7040160.
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Mechanical guidelines on the properties of human healthy arteries in the design and fabrication of vascular grafts: experimental tests and quasi-linear viscoelastic model.血管移植物设计与制造中人体健康动脉特性的力学指南:实验测试与准线性粘弹性模型
Acta Bioeng Biomech. 2019;21(3):13-21.
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Wavy small-diameter vascular graft made of eggshell membrane and thermoplastic polyurethane.蛋壳膜和热塑性聚氨酯制成的波浪形小直径血管移植物。
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Fabrication and modification of wavy multicomponent vascular grafts with biomimetic mechanical properties, antithrombogenicity, and enhanced endothelial cell affinity.具有仿生力学性能、抗血栓形成和增强内皮细胞亲和性的波浪形多组分血管移植物的制造和修饰。
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Development of biomimetic thermoplastic polyurethane/fibroin small-diameter vascular grafts via a novel electrospinning approach.通过一种新颖的静电纺丝方法开发仿生热塑性聚氨酯/丝素小直径血管移植物。
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一种用于提高管状血管移植物应用中机械顺应性的双膨胀聚四氟乙烯制造方法。

A Double-Expanded Polytetrafluoroethylene Fabrication Method for Increased Mechanical Compliance in Tubular Vascular Graft Applications.

作者信息

Chen Edward, Turng Lih-Sheng

机构信息

Department of Mechanical Engineering, University of Wisconsin-Madison, Madison, WI 53706, USA.

Wisconsin Institute for Discovery, University of Wisconsin-Madison, Madison, WI 53715, USA.

出版信息

Polym Eng Sci. 2024 Apr;64(4):1756-1769. doi: 10.1002/pen.26652. Epub 2024 Feb 13.

DOI:10.1002/pen.26652
PMID:39184016
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11343504/
Abstract

A novel manufacturing technique has been developed to enhance the compliance of expanded polytetrafluoroethylene (ePTFE) for vascular graft applications. This new method involves modifying the existing processing procedures by introducing an additional expansion step while using a lower temperature during the first expansion stage. The new process results in the production of highly compliant ePTFE grafts without the need for supplementary additives or inherent material alterations. Tensile testing in both the longitudinal and circumferential directions as well as cyclical tensile testing were conducted to characterize the mechanical properties of double-expanded ePTFE grafts prepared using varying expansion ratios. The double-expanded ePTFE grafts consistently outperformed the prevailing, single-expanded counterparts in both tensile stress tests and cyclical assessments of its elastic compliance. Notably, the double-expanded ePTFE samples exhibited the desirable, biomimetic "toe-region" and an elastic strain capacity of up to 50%, comparable to native vascular materials. Scanning electron microscopy (SEM) imaging was used to examine the morphological characteristics of the wavy fibers within the double-expanded PTFE samples, which contributed to the enhanced compliance that is needed for vascular graft applications.

摘要

一种新型制造技术已被开发出来,以提高用于血管移植的膨体聚四氟乙烯(ePTFE)的顺应性。这种新方法包括通过在首次膨胀阶段使用较低温度的同时引入额外的膨胀步骤来修改现有加工工艺。新工艺无需添加辅助添加剂或改变材料本身,就能生产出顺应性高的ePTFE移植物。对使用不同膨胀比制备的双膨胀ePTFE移植物进行纵向和周向拉伸试验以及循环拉伸试验,以表征其力学性能。在拉伸应力试验和弹性顺应性的循环评估中,双膨胀ePTFE移植物的性能始终优于现有的单膨胀同类产品。值得注意的是,双膨胀ePTFE样品表现出理想的、仿生的“趾部区域”以及高达50%的弹性应变能力,与天然血管材料相当。扫描电子显微镜(SEM)成像用于检查双膨胀PTFE样品中波浪状纤维的形态特征,这有助于提高血管移植应用所需的顺应性。