Department of Oral and Maxillofacial Surgery, Hannover Medical School, Carl-Neuberg-Straße 1, 30625 Hannover, Germany.
Microvasc Res. 2020 Jan;127:103925. doi: 10.1016/j.mvr.2019.103925. Epub 2019 Sep 12.
Tissue survival in regenerative tissue engineering requires rapid vascularization, which is influenced by scaffold material and seeded cell selection. Poly-l-lactide-co-glycolide (PLGA) and beta-tricalcium phosphate (β-TCP) are well-established biomaterials with angiogenic effects because of their material properties. Given the importance of the seeded cell type as a co-factor for vascularization, mesenchymal stem cells (MSCs) are known to have high angiogenic potential. We hypothesized that PLGA and β-TCP scaffolds seeded with MSCs would effectively induce a potent angiogenic response. Therefore, we studied the angiogenic effects after implanting PLGA and β-TCP scaffolds seeded with isogeneic MSCs in vivo. Fifty-six BALB/c mice were equally divided into seven groups and underwent implantation of the dorsal skinfold chambers. Two MSC groups were seeded on collagen-coated PLGA or β-TCP scaffolds, whereas groups 3-6 received collagen-coated or uncoated scaffolds without MSCs. No scaffold implantation was performed for group 7, which served as the control. Angiogenesis was assessed in vivo via intravital fluorescence microscopy. Angiogenic responses were noted on all scaffolds, whereupon MSC angiogenic response was significantly enhanced on days 6 and 10. Additionally, a comparison of biomaterials indicated increased angiogenic activity for β-TCP scaffolds compared with PLGA scaffolds. In conclusion, seeding β-TCP scaffolds with MSCs can accelerate vitalization and a combination of both significantly improves angiogenesis.
组织在再生组织工程中的存活需要快速的血管生成,这受到支架材料和接种细胞选择的影响。聚-l-乳酸-co-乙醇酸(PLGA)和β-磷酸三钙(β-TCP)是具有血管生成作用的成熟生物材料,这归因于它们的材料特性。鉴于接种细胞类型作为血管生成的协同因素的重要性,间充质干细胞(MSCs)具有高血管生成潜力。我们假设 PLGA 和β-TCP 支架上接种 MSCs 会有效地诱导强烈的血管生成反应。因此,我们研究了在体内植入 PLGA 和β-TCP 支架上接种同种 MSCs 后的血管生成效应。56 只 BALB/c 小鼠被平均分为 7 组,并进行了背部皮褶室植入。两组 MSC 接种在胶原包被的 PLGA 或β-TCP 支架上,而第 3-6 组则接受了没有 MSCs 的胶原包被或未包被的支架。第 7 组没有植入支架,作为对照。通过活体荧光显微镜评估体内血管生成。所有支架上均观察到血管生成反应,随后在第 6 和第 10 天观察到 MSC 血管生成反应显著增强。此外,对生物材料的比较表明,β-TCP 支架的血管生成活性高于 PLGA 支架。总之,在β-TCP 支架上接种 MSCs 可以加速血管化,两者的组合可以显著改善血管生成。
