Table 1.
Preclinical studies with tissue-engineered grafts.
| Study | Animal model | Cells seeded | Scaffold used | Outcome |
|---|---|---|---|---|
| Matsumura et al., 2003b | Dog | Allogenic BMMNCs | Copolymer of LA/CL covered by PLLA | TE-grafts were implanted into the vena cava. After up to 8 weeks, no stenosis was observed and cells on the grafts expressed endothelial and VSMc markers |
| Vincentelli et al., 2007 | Lamb | Allogenic BMMNCs or MSCs | Decellularized porcine pulmonary conduits | TE-grafts were implanted into the pulmonary artery. After 4 months, both the valves were recolonized and re-endothe-lialized. BMMNC-valves were thicker and showed inflammatory cell infiltration, while MSC-valves displayed extracellular matrix and cell disposition close to those of native pulmonary valves |
| Brennan et al., 2008 | Lamb | Autologous BMMNCs | PGA scaffolds covered by LA/CL | TE-grafts implanted as inferior vena cava (IVC) interposition grafts. After 6 months, grafts were patent and increased in volume, with no evidence of aneurysmal dilatation. They were histologically comparable to the native IVC |
| Roh et al., 2010 | SCID/beige mice | Xenogenic human BMMNCs | PGA scaffolds covered by LA/CL | TE-grafts were implanted as inferior vena cava interposition grafts. After 24 weeks the original scaffold was degraded and substituted by organized layers of ECM, endothelial and smooth muscle cells, resembling the native IVC |
| Sutherland et al., 2005 | Sheep | Autologous BM-MSCs | PGA/PLLA | The pulmonary valve was resected and TE-valve was implanted into the pulmonary artery. After 4 and 8 months grafts were histologically comparable to the native valve |
| Shinoka et al., 1995 | Lamb | Allogenic ovine artery fibroblasts and ECs | PGA leaflets | The right posterior leaflet of the pulmonary valve was resected and replaced with a TE-valve leaflet. Absence of stenosis. Development of ECM with appropriate cellular architecture |
| Dohmen et al., 2006b | Sheep | Autologous ECs from jugular vein | Decellularized valve | Scaffold was implanted into the RVOT. After 6 months, there was no calcification, and histologically ECs and fibroblasts were observed |
| He et al., 2010 | Rat | Xenogenic human skeletal muscle pericytes | Poly(ester-urethane) urea scaffolds | TE-grafts were implanted end-to-end into the abdominal aorta. After 8 weeks, pericytes evenly populated the graft. TE-grafts presented extensive tissue remodeling with organized layers of endothelial and smooth muscle cells, and collagen and elastin, resembling the native arterial conduit |