Fabrication of Porous Collagen Scaffolds Containing Embedded Channels with Collagen Membrane Linings.
basement membrane
collagen scaffold
enclosed microchannel
interstitial matrix
vesicle
Journal
Micromachines
ISSN: 2072-666X
Titre abrégé: Micromachines (Basel)
Pays: Switzerland
ID NLM: 101640903
Informations de publication
Date de publication:
14 Aug 2024
14 Aug 2024
Historique:
received:
14
07
2024
revised:
06
08
2024
accepted:
07
08
2024
medline:
31
8
2024
pubmed:
31
8
2024
entrez:
29
8
2024
Statut:
epublish
Résumé
Tissues and organs contain an extracellular matrix (ECM). In the case of blood vessels, endothelium cells are anchored to a specialized basement membrane (BM) embedded inside the interstitial matrix (IM). We introduce a multi-structural collagen-based scaffold with embedded microchannels that mimics in vivo structures within vessels. Our scaffold consists of two parts, each containing two collagen layers, i.e., a 3D porous collagen layer analogous to IM lined with a thin 2D collagen film resembling the BM. Enclosed microchannels were fabricated using contact microprinting. Microchannel test structures with different sizes ranging from 300 to 800 µm were examined for their fabrication reproducibility. The heights and perimeters of the fabricated microchannels were ~20% less than their corresponding values in the replication PDMS mold; however, microchannel widths were significantly closer to their replica dimensions. The stiffness, permeability, and pore size properties of the 2D and 3D collagen layers were measured. The permeability of the 2D collagen film was negligible, making it suitable for mimicking the BM of large blood vessels. A leakage test at various volumetric flow rates applied to the microchannels showed no discharge, thereby verifying the reliability of the proposed integrated 2D/3D collagen parts and the contact printing method used for bonding them in the scaffold. In the future, multi-cell culturing will be performed within the 3D porous collagen and against the 2D membrane inside the microchannel, hence preparing this scaffold for studying a variety of blood vessel-tissue interfaces. Also, thicker collagen scaffold tissues will be fabricated by stacking several layers of the proposed scaffold.
Identifiants
pubmed: 39203682
pii: mi15081031
doi: 10.3390/mi15081031
pmc: PMC11356104
pii:
doi:
Types de publication
Journal Article
Langues
eng
Subventions
Organisme : Ontario Ministry of Colleges and Universities
ID : 2019-0086
Organisme : Natural Sciences and Engineering Research Council of Canada
ID : RGPIN 2020-06140
Organisme : Natural Sciences and Engineering Research Council of Canada
ID : RGPIN-2019-06349
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