OBJECTIVE: We compared 3 different decellularization protocols in porcine heart valves for efficiency of complete cell removal and potential for recellularization. METHODS: Porcine aortic and pulmonary roots were treated with trypsin, sodium-dodecyl-sulphate, or a new method using 0.25% tert-octylphenyl-polyoxyethylen in combination with sodium-deoxycholate. After a subsequent ribonuclease digestion, specimens were seeded with in vitro expanded human saphenous vein endothelial cells and myofibroblasts. RESULTS: After treatment with trypsin and subsequent ribonuclease digestion, endothelial attachment took place; however, xenogenic cells were still visible within the matrix. Unexpectedly, when human cells were seeded onto specimens that had been decellularized with sodium-dodecyl-sulphate, the matrices were surrounded by nonviable endothelial cell fragments, indicating a toxic influence of the ionic detergent; 0.25% tert-octylphenyl-polyoxyethylen together with sodium-deoxycholate completely removed porcine cells and enabled host recellularization. CONCLUSION: Compared with trypsin and sodium-dodecyl-sulphate involving decellularization procedures, reported to be effective in cell removal and susceptible to recellularization with human cells, only the porcine matrix treated with a new detergent-based decellularization method using 0.25% tert-octylphenyl-polyoxyethylen/sodium-deoxycholate followed by nuclease digestion presented an excellent scaffold for recellularization with human cells.
OBJECTIVE: We compared 3 different decellularization protocols in porcine heart valves for efficiency of complete cell removal and potential for recellularization. METHODS: Porcine aortic and pulmonary roots were treated with trypsin, sodium-dodecyl-sulphate, or a new method using 0.25% tert-octylphenyl-polyoxyethylen in combination with sodium-deoxycholate. After a subsequent ribonuclease digestion, specimens were seeded with in vitro expanded human saphenous vein endothelial cells and myofibroblasts. RESULTS: After treatment with trypsin and subsequent ribonuclease digestion, endothelial attachment took place; however, xenogenic cells were still visible within the matrix. Unexpectedly, when human cells were seeded onto specimens that had been decellularized with sodium-dodecyl-sulphate, the matrices were surrounded by nonviable endothelial cell fragments, indicating a toxic influence of the ionic detergent; 0.25% tert-octylphenyl-polyoxyethylen together with sodium-deoxycholate completely removed porcine cells and enabled host recellularization. CONCLUSION: Compared with trypsin and sodium-dodecyl-sulphate involving decellularization procedures, reported to be effective in cell removal and susceptible to recellularization with human cells, only the porcine matrix treated with a new detergent-based decellularization method using 0.25% tert-octylphenyl-polyoxyethylen/sodium-deoxycholate followed by nuclease digestion presented an excellent scaffold for recellularization with human cells.
Authors: Bryan N Brown; John M Freund; Li Han; J Peter Rubin; Janet E Reing; Eric M Jeffries; Mathew T Wolf; Stephen Tottey; Christopher A Barnes; Buddy D Ratner; Stephen F Badylak Journal: Tissue Eng Part C Methods Date: 2011-02-05 Impact factor: 3.056
Authors: Janet E Reing; Bryan N Brown; Kerry A Daly; John M Freund; Thomas W Gilbert; Susan X Hsiong; Alexander Huber; Karen E Kullas; Stephen Tottey; Matthew T Wolf; Stephen F Badylak Journal: Biomaterials Date: 2010-08-21 Impact factor: 12.479
Authors: Stephen Tottey; Scott A Johnson; Peter M Crapo; Janet E Reing; Li Zhang; Hongbin Jiang; Christopher J Medberry; Brandon Reines; Stephen F Badylak Journal: Biomaterials Date: 2010-09-25 Impact factor: 12.479
Authors: Benedikt Weber; Maximilian Y Emmert; Roman Schoenauer; Chad Brokopp; Laura Baumgartner; Simon P Hoerstrup Journal: Semin Immunopathol Date: 2011-01-29 Impact factor: 9.623