Alpha 2.0
Login Register
» Articles » PMID: 16491329

Microfluidic Alignment of Collagen Fibers for in Vitro Cell Culture

Overview
Journal Biomed Microdevices
Specialty Biomedical Engineering
Date 2006 Feb 24
PMID 16491329
Citations 73
Authors
Philip Lee
Rob Lin
James Moon
Luke P Lee
Affiliations
Soon will be listed here.
Abstract

Three dimensional gels of aligned collagen fibers were patterned in vitro using microfluidic channels. Collagen fiber orientation plays an important role in cell signaling for many tissues in vivo, but alignment has been difficult to realize in vitro. For microfluidic collagen fiber alignment, collagen solution was allowed to polymerize inside polydimethyl siloxane (PDMS) channels ranging from 10-400 microm in width. Collagen fiber orientation increased with smaller channel width, averaging 12+/-6 degrees from parallel for channels between 10 and 100 microm in width. In these channels 20-40% of the fibers were within 5 degrees of the channel axis. Bovine aortic endothelial cells expressing GFP-tubulin were cultured on aligned collagen substrate and found to stretch in the direction of the fibers. The use of artificially aligned collagen gels could be applied to the study of cell movement, signaling, growth, and differentiation.

Citing Articles

On-chip non-contact mechanical cell stimulation - quantification of SKOV-3 alignment to suspended microstructures.

Onal S, Alkaisi M, Nock V Heliyon. 2025; 11(1):e41433.

PMID: 39844975 PMC: 11751512. DOI: 10.1016/j.heliyon.2024.e41433.

Microfluidic 3D cell culture: potential application of collagen hydrogels with an optimal dose of bioactive glasses.

Ghobadi F, Saadatmand M, Simorgh S, Brouki Milan P Sci Rep. 2025; 15(1):569.

PMID: 39747624 PMC: 11696724. DOI: 10.1038/s41598-024-84346-8.

Bioprinting Cell-Laden Hydrogels for Studies of Epithelial Tissue Morphogenesis.

Nerger B, Nelson C Methods Mol Biol. 2024; 2805:113-124.

PMID: 39008177 DOI: 10.1007/978-1-0716-3854-5_7.

Using Microfluidics to Align Matrix Architecture and Generate Chemokine Gradients Promotes Directional Branching in a Model of Epithelial Morphogenesis.

Lichtenberg J, Leonard C, Sterling H, Santos Agreda V, Hwang P ACS Biomater Sci Eng. 2024; 10(8):4865-4877.

PMID: 39007451 PMC: 11322918. DOI: 10.1021/acsbiomaterials.4c00245.

The importance of 3D fibre architecture in cancer and implications for biomaterial model design.

Ashworth J, Cox T Nat Rev Cancer. 2024; 24(7):461-479.

PMID: 38886573 DOI: 10.1038/s41568-024-00704-8.