BACKGROUND: To overcome the limitations of tissue-engineered heart valves, which require cell seeding before implantation, a growth factor for in situ recellularization may be an important strategy. We developed a new decellularized valve containing a fusion protein combined fibronectin and hepatocyte growth factor. Here, we tested the hypothesis that our valve might accelerate in situ recellularization by inducing the proliferation of endothelial cells. METHODS: Porcine aortic valves were decellularized using detergent. Fibronectin-hepatocyte growth factor was introduced into the decellularized valves. The decellularized valves with fibronectin-hepatocyte growth factor were implanted into the pulmonary arterial trunk of dogs (F group: n = 15). As controls, decellularized valves without the growth factor (C group: n = 12), and with hepatocyte growth factor (H group: n = 12) were implanted in the same manner. Histologic examinations were performed 1 week and 1 month after implantation. RESULTS: One week after implantation, endothelial cells partially covered the surface of the graft in the F group but not the C and H groups. Although the C and H groups had inadequate recellularization 1 month after implantation, the F group showed a monolayer of endothelial cells, underneath which were areas of additional cell layers, which were vimentin positive. Quantitative evaluation demonstrated the amount of vimentin in the F group was 71% of the native control, and it was much lower in the other groups (C, 2.8%; H, 16.8%) 1 month after implantation. CONCLUSIONS: This study demonstrated that fibronectin-hepatocyte growth factor enhanced early in situ recellularization in decellularized valves.
BACKGROUND: To overcome the limitations of tissue-engineered heart valves, which require cell seeding before implantation, a growth factor for in situ recellularization may be an important strategy. We developed a new decellularized valve containing a fusion protein combined fibronectin and hepatocyte growth factor. Here, we tested the hypothesis that our valve might accelerate in situ recellularization by inducing the proliferation of endothelial cells. METHODS: Porcine aortic valves were decellularized using detergent. Fibronectin-hepatocyte growth factor was introduced into the decellularized valves. The decellularized valves with fibronectin-hepatocyte growth factor were implanted into the pulmonary arterial trunk of dogs (F group: n = 15). As controls, decellularized valves without the growth factor (C group: n = 12), and with hepatocyte growth factor (H group: n = 12) were implanted in the same manner. Histologic examinations were performed 1 week and 1 month after implantation. RESULTS: One week after implantation, endothelial cells partially covered the surface of the graft in the F group but not the C and H groups. Although the C and H groups had inadequate recellularization 1 month after implantation, the F group showed a monolayer of endothelial cells, underneath which were areas of additional cell layers, which were vimentin positive. Quantitative evaluation demonstrated the amount of vimentin in the F group was 71% of the native control, and it was much lower in the other groups (C, 2.8%; H, 16.8%) 1 month after implantation. CONCLUSIONS: This study demonstrated that fibronectin-hepatocyte growth factor enhanced early in situ recellularization in decellularized valves.
Authors: Qiufen Tu; Zhilu Yang; Ying Zhu; Kaiqin Xiong; Manfred F Maitz; Jin Wang; Yuancong Zhao; Nan Huang; Jian Jin; Yuechang Lei Journal: Tissue Eng Part A Date: 2012-10-04 Impact factor: 3.845
Authors: Emanuela S Fioretta; Sarah E Motta; Valentina Lintas; Sandra Loerakker; Kevin K Parker; Frank P T Baaijens; Volkmar Falk; Simon P Hoerstrup; Maximilian Y Emmert Journal: Nat Rev Cardiol Date: 2020-09-09 Impact factor: 32.419
Authors: Takeyoshi Ota; Thomas W Gilbert; David Schwartzman; Charles F McTiernan; Takashi Kitajima; Yoshihiro Ito; Yoshiki Sawa; Stephen F Badylak; Marco A Zenati Journal: J Thorac Cardiovasc Surg Date: 2008-09-14 Impact factor: 5.209
Authors: Matthew J Robertson; Jessica L Dries-Devlin; Stefan M Kren; Jana S Burchfield; Doris A Taylor Journal: PLoS One Date: 2014-02-27 Impact factor: 3.240