Department of Mechanical Engineering, University of Colorado at Boulder, Boulder, CO, United States.
Department of Mechanical Engineering, University of Colorado at Boulder, Boulder, CO, United States.
Acta Biomater. 2021 Apr 15;125:172-182. doi: 10.1016/j.actbio.2021.02.028. Epub 2021 Feb 24.
Small-caliber vascular grafts are used in a wide range of clinical conditions. However, there remains a substantial unfulfilled need for readily-available, synthetic vascular grafts with high long-term patency rate. To fulfill the translational goal for bioengineered vascular grafts, important considerations for the pre-clinical evaluation include the graft design, cell incorporation and selection of an animal model. To assess the three factors, we used vascular grafts consisting of core/shell-structured microfibers of polycaprolactone/gelatin with a thin polycaprolactone overlay. The respective influences of the heparin release mode, animal age, and allogeneic bone marrow-derived stromal cells (MSCs) seeded in the lumen on the graft remodeling were assessed after four-and-half-month implantation on an interposition graft of abdominal aorta model. Except two rats dying from graft-unrelated issues, all other rats (18 out of 20) showed good graft patency upon explantation. The cell phenotype, matrix content and structure in the neotissues around the graft, as well as the flow perfusion through the graft were examined. More grafts in the aged rats showed local narrowing and flow incongruence than the other grafts in young adult rats. Compared to acellular grafts, cellular grafts showed efficient recruitment of vascular cells to form more organized structures with elastin in the vascular wall. Endothelialization and α-smooth muscle actin-positive cells were shown in all four types of vascular grafts. This study revealed the significant effects of MSC and recipient age but not heparin release pattern on graft remodeling. STATEMENT OF SIGNIFICANCE: The vascular graft is a mainstream of surgical intervention to treat vascular diseases. Currently, vascular grafts, particularly small-diameter ones, still show high failure rates. This study has evaluated the respective impacts of heparin release pattern, allogeneic bone marrow-derived stromal cell seeding, and recipient age on the long-term remodeling of vascular grafts. There is a dearth of literature which considers the recipient age as an influencing factor for vascular grafting. However, adults particularly elderly constitute the majority of vascular graft recipients in the "real" clinical environment. While juvenile animals were widely used for graft evaluations, this study involved adult animals. The study outcomes provided important implications regarding graft designs and evaluation approaches.
小口径血管移植物在广泛的临床情况下得到应用。然而,对于易于获得、具有高长期通畅率的合成血管移植物,仍然存在着巨大的未满足的需求。为了实现生物工程血管移植物的转化目标,临床前评估的重要考虑因素包括移植物设计、细胞掺入和动物模型的选择。为了评估这三个因素,我们使用了由聚己内酯/明胶芯/壳结构的微纤维组成的血管移植物,其表面有一层薄薄的聚己内酯。在腹主动脉间置模型上植入四个半月后,评估了肝素释放模式、动物年龄和腔内置入的同种异体骨髓基质细胞(MSCs)对移植物重塑的各自影响。除了两名因移植物无关问题而死亡的大鼠外,所有其他大鼠(20 只中的 18 只)在取出时都显示出良好的移植物通畅性。检查了移植物周围新生组织中的细胞表型、基质含量和结构,以及通过移植物的血流灌注。与年轻成年大鼠的其他移植物相比,老年大鼠的移植物有更多的局部狭窄和血流不一致。与无细胞移植物相比,细胞移植物能够有效地招募血管细胞,在血管壁中形成更有组织的结构和弹性蛋白。所有四种类型的血管移植物都显示出内皮化和α-平滑肌肌动蛋白阳性细胞。这项研究揭示了 MSC 和受体年龄对移植物重塑的显著影响,但肝素释放模式没有影响。 意义声明:血管移植物是治疗血管疾病的手术干预的主流方法。目前,血管移植物,特别是小直径的血管移植物,仍然显示出较高的失败率。本研究评估了肝素释放模式、同种异体骨髓来源基质细胞接种和受体年龄对血管移植物长期重塑的各自影响。文献中很少考虑受体年龄作为血管移植的影响因素。然而,成年人,特别是老年人,在“真实”临床环境中构成了血管移植物接受者的大多数。虽然幼年动物被广泛用于移植物评估,但本研究涉及成年动物。研究结果对移植物设计和评估方法具有重要意义。