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TLFL: Cardiology & Vascular Medicine最新文献

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Tissue Engineered Bovine Saphenous Vein Extracellular Matrix Scaffolds Produced Via Antigen Removal Achieve High In Vivo Patency Rates 通过抗原去除制备的组织工程牛隐静脉细胞外基质支架在体内获得高通畅率
Pub Date : 2021-06-01 DOI: 10.2139/ssrn.3793932
M. L. Higuita, Juan Fernando Lopera Giraldo, Tiffany L. Sarrafian, L. Griffiths
Diseases of small diameter blood vessels encompass the largest portion of cardiovascular diseases, with over 4.2 million people undergoing autologous vascular grafting every year. However, approximately one third of patients are ineligible for autologous vascular grafting due to lack of suitable donor vasculature. Acellular extracellular matrix (ECM) scaffolds derived from xenogeneic vascular tissue have potential to serve as ideal biomaterials for production of off-the-shelf vascular graft capable of eliminating the need for autologous vessel harvest. A modified antigen removal tissue (AR) process, employing aminosulfabetaine-16 (ASB-16) was used to create off-the-shelf small diameter (< 3 mm) vascular graft from bovine saphenous vein ECM scaffolds with significantly reduced antigenic content, while retaining native vascular ECM protein structure and function. Elimination of native tissue antigen content conferred graft-specific adaptive immune avoidance, while retention of native ECM protein macromolecular structure resulted in pro-regenerative cellular infiltration, ECM turnover and innate immune self-recognition in a rabbit subpannicular model. Finally, retention of the delicate vascular basement membrane protein integrity conferred endothelial cell repopulation and 100% patency rate in a rabbit jugular interposition model, comparable only to Autograft implants. Alternatively, the lack of these important basement membrane proteins in otherwise identical scaffolds yielded a patency rate of only 20%. We conclude that acellular antigen removed bovine saphenous vein ECM scaffolds have potential to serve as ideal off-the-shelf small diameter vascular scaffolds with high in vivo patency rates due to their low antigen content, retained native tissue basement membrane integrity and preserved native ECM structure, composition and functional properties.
小直径血管疾病在心血管疾病中所占比例最大,每年有超过420万人接受自体血管移植。然而,由于缺乏合适的供体血管,大约三分之一的患者不适合自体血管移植。来源于异种血管组织的脱细胞细胞外基质(ECM)支架具有作为生产现成血管移植物的理想生物材料的潜力,能够消除对自体血管收获的需要。采用改良的抗原去除组织(AR)工艺,采用氨基巯基乙基胺-16 (ASB-16),从牛隐静脉ECM支架中制备出现成的小直径(< 3 mm)血管移植物,其抗原含量显著降低,同时保留了天然血管ECM蛋白的结构和功能。在兔胰腺下模型中,消除天然组织抗原含量可产生移植物特异性适应性免疫回避,而保留天然ECM蛋白大分子结构可导致促再生细胞浸润、ECM转换和先天免疫自我识别。最后,在兔颈静脉间置模型中,精细的血管基底膜蛋白完整性的保留使内皮细胞再生和100%的通畅率,只有自体移植物可与之媲美。另外,在其他方面相同的支架中,缺乏这些重要的基底膜蛋白仅产生20%的通畅率。我们得出结论,脱细胞抗原去除的牛隐静脉ECM支架由于其低抗原含量,保留了天然组织基底膜的完整性,保留了天然ECM的结构,组成和功能特性,有潜力成为理想的现成的小直径血管支架,具有较高的体内通畅率。
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引用次数: 9
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TLFL: Cardiology & Vascular Medicine
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