Accelerated in vitro recellularization of decellularized porcine pericardium for cardiovascular grafts.

Adipose Tissue / cytology Animals Bioprosthesis Cell Proliferation Collagen / chemistry Decellularized Extracellular Matrix / chemistry Endothelial Cells / cytology Extracellular Matrix / metabolism Fibrinogen / chemistry Fibronectins / chemistry Heart Valves Human Umbilical Vein Endothelial Cells Humans In Vitro Techniques Lipectomy Microscopy, Fluorescence Pericardium / metabolism Stem Cells Swine Thrombin / chemistry Tissue Engineering / methods Tissue Scaffolds / chemistry Vascular Endothelial Growth Factor A / metabolism

Journal

Biomedical materials (Bristol, England)
ISSN: 1748-605X
Titre abrégé: Biomed Mater
Pays: England
ID NLM: 101285195

Informations de publication

Date de publication:
25 02 2021
Historique:
entrez: 25 2 2021
pubmed: 26 2 2021
medline: 28 12 2021
Statut: epublish

Résumé

An ideal decellularized allogenic or xenogeneic cardiovascular graft should be capable of preventing thrombus formation after implantation. The antithrombogenicity of the graft is ensured by a confluent endothelial cell layer formed on its surface. Later repopulation and remodeling of the scaffold by the patient's cells should result in the formation of living autologous tissue. In the work presented here, decellularized porcine pericardium scaffolds were modified by growing a fibrin mesh on the surface and inside the scaffolds, and by attaching heparin and human vascular endothelial growth factor (VEGF) to this mesh. Then the scaffolds were seeded with human adipose tissue-derived stem cells (ASCs). While the ASCs grew only on the surface of the decellularized pericardium, the fibrin-modified scaffolds were entirely repopulated in 28 d, and the scaffolds modified with fibrin, heparin and VEGF were already repopulated within 6 d. Label free mass spectrometry revealed fibronectin, collagens, and other extracellular matrix proteins produced by ASCs during recellularization. Thin layers of human umbilical endothelial cells were formed within 4 d after the cells were seeded on the surfaces of the scaffold, which had previously been seeded with ASCs. The results indicate that an artificial tissue prepared by in vitro recellularization and remodeling of decellularized non-autologous pericardium with autologous ASCs seems to be a promising candidate for cardiovascular grafts capable of accelerating in situ endothelialization. ASCs resemble the valve interstitial cells present in heart valves. An advantage of this approach is that ASCs can easily be collected from the patient by liposuction.

Identifiants

DOI: 10.1088/1748-605X/abbdbd PMID: 33629665
pubmed: 33629665
doi: 10.1088/1748-605X/abbdbd
doi:

Substances chimiques

Decellularized Extracellular Matrix 0
Fibronectins 0
VEGFA protein, human 0
Vascular Endothelial Growth Factor A 0
Fibrinogen 9001-32-5
Collagen 9007-34-5
Thrombin EC 3.4.21.5

Types de publication

Journal Article Research Support, Non-U.S. Gov't

Langues

eng

Sous-ensembles de citation

IM

Pagination

025024

Auteurs

Elena Filova (E)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.
ORCID: 0000-0001-6215-197X

Marie Steinerova (M)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.

Martina Travnickova (M)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.
ORCID: 0000-0002-6348-3607

Jarmila Knitlova (J)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.
ORCID: 0000-0003-4607-4497

Jana Musilkova (J)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.

Adam Eckhardt (A)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.

Daniel Hadraba (D)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.
ORCID: 0000-0001-8745-1258

Roman Matejka (R)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.
Department of Biomedical Technology, Faculty of Biomedical Engineering, Czech Technical University in Prague, Sitna sq. 3105, 27201 Kladno, Czech Republic.
ORCID: 0000-0001-9596-3069

Simon Prazak (S)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.
Department of Biomedical Technology, Faculty of Biomedical Engineering, Czech Technical University in Prague, Sitna sq. 3105, 27201 Kladno, Czech Republic.

Jana Stepanovska (J)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.
Department of Biomedical Technology, Faculty of Biomedical Engineering, Czech Technical University in Prague, Sitna sq. 3105, 27201 Kladno, Czech Republic.

Johanka Kucerova (J)

Institute of Macromolecular Chemistry of the Czech Academy of Sciences, Heyrovskeho sq. 1888, 162 00 Prague, Czech Republic.

Tomáš Riedel (T)

Institute of Macromolecular Chemistry of the Czech Academy of Sciences, Heyrovskeho sq. 1888, 162 00 Prague, Czech Republic.

Eduard Brynda (E)

Institute of Macromolecular Chemistry of the Czech Academy of Sciences, Heyrovskeho sq. 1888, 162 00 Prague, Czech Republic.

Alena Lodererova (A)

Institute for Clinical and Experimental Medicine, Videnská 1958/9, 140 21 Prague, Czech Republic.

Eva Honsova (E)

Institute for Clinical and Experimental Medicine, Videnská 1958/9, 140 21 Prague, Czech Republic.

Jan Pirk (J)

Institute for Clinical and Experimental Medicine, Videnská 1958/9, 140 21 Prague, Czech Republic.

Miroslav Konarik (M)

Institute for Clinical and Experimental Medicine, Videnská 1958/9, 140 21 Prague, Czech Republic.

Lucie Bacakova (L)

Laboratory of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences, Videnska 1083, 142 20 Prague, Czech Republic.

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Classifications MeSH

questionsmedicales.fr Tissus Tissu conjonctif Tissu adipeux Accelerated in vitro recellularization of...
questionsmedicales.fr Eucaryotes Animaux Accelerated in vitro recellularization of...
questionsmedicales.fr Équipement et fournitures Prothèses et implants Bioprothèse Accelerated in vitro recellularization of...
questionsmedicales.fr Phénomènes physiologiques Croissance et développement Croissance Processus de croissance cellulaire Prolifération cellulaire Accelerated in vitro recellularization of...
questionsmedicales.fr Acides aminés, peptides et protéines Protéines Scléroprotéines Protéines de la matrice extracellulaire Collagène Accelerated in vitro recellularization of...
questionsmedicales.fr Technologie, industrie et agriculture Produits manufacturés Matériaux biomédicaux et dentaires Matériaux biocompatibles Matrice extracellulaire décellularisée Accelerated in vitro recellularization of...
questionsmedicales.fr Cellules Cellules épithéliales Cellules endothéliales Accelerated in vitro recellularization of...
questionsmedicales.fr Cellules Structures cellulaires Espace extracellulaire Matrice extracellulaire Accelerated in vitro recellularization of...
questionsmedicales.fr Facteurs biologiques Facteurs de la coagulation sanguine Fibrinogène Accelerated in vitro recellularization of...
questionsmedicales.fr Acides aminés, peptides et protéines Protéines Scléroprotéines Protéines de la matrice extracellulaire Fibronectines Accelerated in vitro recellularization of...
questionsmedicales.fr Système cardiovasculaire Coeur Valves cardiaques Accelerated in vitro recellularization of...
questionsmedicales.fr Cellules Cellules épithéliales Cellules endothéliales Cellules endothéliales de la veine ombilicale humaine Accelerated in vitro recellularization of...
questionsmedicales.fr Eucaryotes Animaux Chordés Vertébrés Mammifères Eutheria Primates Haplorhini Catarrhini Hominidae Humains Accelerated in vitro recellularization of...
questionsmedicales.fr Techniques d'investigation Techniques in vitro Accelerated in vitro recellularization of...
questionsmedicales.fr Procédures de chirurgie opératoire Procédures de chirurgie reconstructive Lipectomie Accelerated in vitro recellularization of...
questionsmedicales.fr Techniques d'investigation Microscopie de fluorescence Accelerated in vitro recellularization of...
questionsmedicales.fr Tissus Membranes Séreuse Péricarde Accelerated in vitro recellularization of...
questionsmedicales.fr Cellules Cellules souches Accelerated in vitro recellularization of...
questionsmedicales.fr Eucaryotes Animaux Chordés Vertébrés Mammifères Eutheria Artiodactyla Suidae Accelerated in vitro recellularization of...
questionsmedicales.fr Facteurs biologiques Facteurs de la coagulation sanguine Thrombine Accelerated in vitro recellularization of...
questionsmedicales.fr Technologie, industrie et agriculture Ingénierie Bioingénierie Ingénierie cellulaire Ingénierie tissulaire Accelerated in vitro recellularization of...
questionsmedicales.fr Équipement et fournitures Prothèses et implants Structures d'échafaudage tissulaires Accelerated in vitro recellularization of...
questionsmedicales.fr Facteurs biologiques Protéines et peptides de signalisation intercellulaire Protéines angiogéniques Facteurs de croissance endothéliale vasculaire Facteur de croissance endothéliale vasculaire de type A Accelerated in vitro recellularization of...