Chitosan selectively promotes adhesion of myoblasts over fibroblasts.

Treatment of ventral hernias frequently makes use of synthetic and biological meshes, often resulting in scar tissue formation and incomplete muscle regeneration. Chitosan has been shown to promote a regenerative response than a fibrotic response. The objective of this study is to determine the effects of chitosan on myoblast and fibroblast adhesion and the underlying mechanisms.

Effects of chitosan coatings on polypropylene mesh for implantation in a rat abdominal wall model.

Hernia repair and pelvic floor reconstruction are usually accompanied with the implantation of a surgical mesh, which frequently results in a foreign body response with associated complications. An ideal surgical mesh that allows force generation of muscle tissues without significant granulation tissue and/or fibrosis is of significant clinical interest. The objective of the present study was to evaluate the in vitro and in vivo responses of a chitosan coating on polypropylene mesh (Ch-PPM) in comparison with commercially available meshes.

Cell adhesion on polyelectrolyte multilayer coated polydimethylsiloxane surfaces with varying topographies.

This article demonstrates that the micro-topography of the surface with respect to the pattern size and pitch influences cell adhesion and proliferation. Extensive research has shown the dependence of cell proliferation on substrate chemistry, but the influence of substrate topography on cell attachment has only recently been appreciated. To evaluate the effect of substrate physical properties (i.