Arterial Decellularized Scaffolds Produced Using an Innovative Automatic System

Autor:	Filippo Ballo, Silvia Maestroni, M. Adelaide Asnaghi, Sara Mantero, Alessandro Filippo Pellegata, Gianpaolo Zerbini, Tommaso Dominioni, Sandro Zonta
Rok vydání:	2014
Předmět:	Scaffold Histology Sus scrofa Extracellular matrix Endothelial cell Tissue engineering Blood vessel prosthesis In vivo medicine Animals Humans Decellularization Tissue Engineering Tissue Scaffolds Chemistry Endothelial Cells Arteries Equipment Design Anatomy Artery Blood Vessel Prosthesis Endothelial stem cell medicine.anatomical_structure Biomedical engineering
Zdroj:	Cells Tissues Organs. 200:363-373
ISSN:	1422-6421 1422-6405
DOI:	10.1159/000439082
Popis:	There is still an unmet clinical need for small-caliber artery substitution. Decellularized scaffolds in tissue engineering represent a promising solution. We have developed an innovative system for the automatic decellularization of blood vessels, used to process pig arteries. The system is able to automatically drive a decellularization process in a safe and reliable environment, with complex time patterns, using up to three different decellularization solutions, and providing at the same time a physical stress to improve the decellularization. The decellularization of pig arteries was evaluated by means of histology, DNA quantification and mechanical testing. Outcomes showed scaffolds with no cellular or nuclear remnants and a well-preserved tissue structure, corroborated by mechanical properties similar to native tissue. Decellularized scaffolds were seeded on the inner layer with human endothelial cells and implanted as iliac artery replacement in 4 pharmacologically immune-compromised pigs. This chimeric model was performed as a very preliminary evaluation to investigate the performances of these scaffolds in vivo, and to investigate the fate of seeded cells. Recipients were sacrificed on day 14 and day 70 after surgery, and vessels were found to be patent and with no evidence of thrombi formation. The inner layer was covered by endothelial cells, and the migration of cells positive for α-smooth-muscle actin was observed from the outer layer towards the tunica media. Intriguingly, the endothelial cells on explanted vessels were entirely derived from the host while the seeded cells were lost. In conclusion, this work presents a novel tool for a safe and controlled production of arterial scaffolds, with good decellularization outcomes and a good performance in a short-term, large-animal implantation.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::636199f04ff352dbc3e178ba4e227011 https://doi.org/10.1159/000439082 Zobrazit plný text záznamu