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. 2014 Jan 16:(83):e50918.
doi: 10.3791/50918.

Observing and quantifying fibroblast-mediated fibrin gel compaction

Aribet M De Jesús  1 Edward A Sander
Affiliations

Observing and quantifying fibroblast-mediated fibrin gel compaction

Aribet M De Jesús et al. J Vis Exp. .

Abstract

Cells embedded in collagen and fibrin gels attach and exert traction forces on the fibers of the gel. These forces can lead to local and global reorganization and realignment of the gel microstructure. This process proceeds in a complex manner that is dependent in part on the interplay between the location of the cells, the geometry of the gel, and the mechanical constraints on the gel. To better understand how these variables produce global fiber alignment patterns, we use time-lapse differential interference contrast (DIC) microscopy coupled with an environmentally controlled bioreactor to observe the compaction process between geometrically spaced explants (clusters of fibroblasts). The images are then analyzed with a custom image processing algorithm to obtain maps of the strain. The information obtained from this technique can be used to probe the mechanobiology of various cell-matrix interactions, which has important implications for understanding processes in wound healing, disease development, and tissue engineering applications.

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