AI Article Synopsis
- A combined method utilizing floating and anchored collagen gel effectively produced oriented collagen fibrils in fibroblast-populated collagen matrices (FPCMs).
- This technique resulted in fibroblasts aligning with the oriented fibrils, contrasting with the lack of orientation in traditionally contracted matrices.
- The method showed improved elasticity and strength of FPCMs, with mechanical properties influenced by initial cell densities, positioning it as a valuable bioreactor for studying fibroblast behaviors in ligament or tendon-like tissues.
Article Abstract
In this study, a simple combined method consisting of floating and anchored collagen gel in a ligament or tendon equivalent culture system was used to produce the oriented fibrils in fibroblast-populated collagen matrices (FPCMs) during the remodeling and contraction of the collagen gel. Orientation of the collagen fibrils along single axis occurred over the whole area of the floating section and most of the fibroblasts were elongated and aligned along the oriented collagen fibrils, whereas no significant orientation of fibrils was observed in normally contracted FPCMs by the floating method. Higher elasticity and enhanced mechanical strength were obtained using our simple method compared with normally contracted floating FPCMs. The Young's modulus and the breaking point of the FPCMs were dependent on the initial cell densities. This simple method will be applied as a convenient bioreactor to study cellular processes of the fibroblasts in the tissues with highly oriented fibrils such as ligaments or tendons.
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| http://dx.doi.org/10.1002/jbm.a.30835 | DOI Listing |
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