Bioengineered Gastrointestinal Tissue: Bioengineered Gastrointestinal Tissues with Fibroblast‐Induced Shapes (Adv. Funct. Mater. 6/2021)
Advanced Functional Materials2021Vol. 31(6)
Linna Zhou, Carlos Ruiz‐Puig, Brittany‐Amber Jacobs, Xiaoyue Han, Richard J. Lisle, Hagan Bayley, Xin Lü
Abstract
Bioengineered gastrointestinal tracts have potential applications both in regenerative medicine and disease modelling. In article number 2007514, Hagan Bayley, Xin Lu, and co-workers produce collagen tubes with designed shapes by using a lipid bilayer supported droplet networks. Complex shapes are generated by controlling the seeding density of fibroblasts. Furthermore, when seeded with fibroblasts and epithelial cells, the tubular structures form sub-epithelial and epithelial layers that line their lumens.
Related Papers
- → Interaction of an Antimicrobial Peptide with a Model Lipid Bilayer Using Molecular Dynamics Simulation(2009)28 cited
- → Effect of the structural difference between Bax-α5 and Bcl-xL-α5 on their interactions with lipid bilayers(2013)6 cited
- To Study the Height and Topography of Lipid Bilayer by AFM(2007)
- → The Role of Bilayer Edges in Supported Lipid Bilayer Formation at Low Lipid Concentrations(2009)
- → Interdependence of cholesterol distribution and conformational order in lipid bilayers(2023)