Table 2.
Tissue engineering-based pre-vascularization strategies
| Mechanical stimulation | ||||
|---|---|---|---|---|
| Biomaterial | Cell type | Strategy | Application | Reference |
| Collagen hydrogel | Rat microvessel fragments | Static external loader cyclic external load | Angiogenic microvessel | Krishnan et al. (2008) |
| Fibrin gel | Human blood outgrowth endothelial cells | Cell-induced gel compaction | Aligned microvessels | Morin et al. (2013); Herrera-Vizcaíno et al. (2019) |
| Electrical stimulation | ||||
| Biomaterial | Cell type | Strategy | Application | Reference |
| Matrigel | Human mammary epithelial cells, HUVECs | DC electric field | Directional migration of cells | Bai et al. (2004) |
| Surface topography | ||||
| Biomaterial | Cell type | Strategy | Application | Reference |
| Silk fibroin and fibrin | HUVECs + human foreskin fibroblasts | 3D porous scaffolds | Capillary‐like structure formation | Samal et al. (2015) |
| Silk fibroin fibers in poly (d,l-lactic acid) porous scaffolds | Human endothelial cells | 3D salt-leached scaffolds | In vitro endothelial and to promote vascularization in vivo | Stoppato et al. (2013) |
| Gelatin methacrylate hydrogels | Human blood-derived endothelial colony-forming cells and bone marrow-derived mesenchymal stem cells | 3D porous scaffolds | The functional human vascular network | Chen et al. (2012) |
| Silk fibroin | Human microvascular endothelial and osteoblast cells | 3D fibrous scaffolds | Anastomosis of neo-microcapillaries with the host vasculature | Unger et al. 92010) |
| Collagen | Endothelial colony-forming cells and endothelial progenitor cells | 3D fibrous scaffolds (varied collagen concentration) | Guiding in vivo vascularization | Critser et al. (2010) |
| Decellularized fibroblasts derived ECM | Human mesenchymal stem cells | 3D nanofibrous scaffolds | Engineering organized tissues | Xing et al. (2014) |