Pritzker Institute of Biomedical Science & Engineering and Department of Biomedical Engineering, Illinois Institute of Technology, 3255 South Dearborn St, Chicago, IL 60616, USA.
Biomaterials. 2010 Apr;31(10):2816-26. doi: 10.1016/j.biomaterials.2009.12.053. Epub 2010 Jan 18.
Engineered vascularized adipose tissue could serve as an alternative to traditional tissue reconstruction procedures. Adipose formation occurs in a coordinated fashion with neovascularization. Previous studies have shown that extracellular matrix-based materials supplemented with factors that stimulate neovascularization promote adipogenesis in a number of animal models. The present study examines the ability of fibroblast growth factor (FGF-1) delivered from alginate microbeads to induce neovascularization and adipogenesis in type I collagen gels in a vascular pedicle model of adipose tissue engineering. FGF-1 loaded microbeads stimulated greater vascular network formation in an in vitro 3D co-culture model than a single bolus of FGF-1. In in vivo studies, FGF-1 loaded beads suspended in collagen and implanted in a chamber surrounding the exposed femoral pedicle of a rat resulted in a significant increase in vascular density at 1 and 6 weeks in comparison to bolus administration of FGF-1. Staining for smooth muscle actin showed that over 48% of vessels had associated mural cells. While an increase in neovascularization was achieved, there was less than 3% adipose under any condition. These results show that delivery of FGF-1 from alginate beads stimulated a more persistent neovascularization response than bolus FGF-1 both in vitro and in vivo. However, unlike previous studies, this increased neovascularization did not result in adipogenesis. Future studies need to provide a better understanding of the relationship between neovascularization and adipogenesis in order to design advanced tissue engineering therapies.
工程化的血管化脂肪组织可以作为传统组织重建程序的替代方法。脂肪形成与新生血管化以协调的方式发生。先前的研究表明,在补充了刺激新生血管化的因子的基于细胞外基质的材料中,在许多动物模型中促进了脂肪生成。本研究检查了在脂肪组织工程的血管蒂模型中,从藻酸盐微球中递送来的成纤维细胞生长因子 (FGF-1) 诱导 I 型胶原蛋白凝胶中的新生血管形成和脂肪生成的能力。与 FGF-1 的单次推注相比,负载 FGF-1 的微球在体外 3D 共培养模型中刺激了更大的血管网络形成。在体内研究中,负载 FGF-1 的微球悬浮在胶原蛋白中并植入大鼠暴露的股骨干骺周围的腔室中,与 FGF-1 的单次推注相比,在 1 周和 6 周时血管密度显著增加。平滑肌肌动蛋白染色显示,超过 48%的血管有相关的壁细胞。虽然实现了新生血管化的增加,但在任何情况下,脂肪的含量都不到 3%。这些结果表明,与单次推注 FGF-1 相比,藻酸盐珠粒中 FGF-1 的递释在体外和体内均刺激了更持久的新生血管化反应。然而,与先前的研究不同,这种增加的新生血管化并没有导致脂肪生成。未来的研究需要更好地了解新生血管化和脂肪生成之间的关系,以便设计先进的组织工程治疗方法。