Comparison of Fibroblast and Vascular Cell Adhesion to Nano-Structured Poly(lactic-co-glycolic acid) Films

Abstract: Abstract:The success of small diameter vascular grafts may be attributed to the ability to accurately mimic the nano-structured topography of extra-cellular matrix components of natural vascular tissue. Using this knowledge, the goal of the present study was to develop synthetic biomaterials that promote vascular cell adhesion and growth, while subsequently limiting fibrous tissue formation. For this purpose, poly(lactic-co-glycolic acid) (PLGA) with increased nanometer surface roughness was created by treatin… Show more

“…Fibroblasts adhesion has been shown to be lower on nanoscale surface compared to conventional surfaces [ 56 ]. Moreover, nanometer size features have been shown to decrease fibroblast adhesion and proliferation [ 57 , 58 ]. The micro- and nanoscale surface properties of metal implant, including chemistry, roughness, and wettability, could affect bone formation [ 59 ].…”

Nanotechnology and Dental Implants

“…Fibroblasts adhesion has been shown to be lower on nanoscale surface compared to conventional surfaces [ 56 ]. Moreover, nanometer size features have been shown to decrease fibroblast adhesion and proliferation [ 57 , 58 ]. The micro- and nanoscale surface properties of metal implant, including chemistry, roughness, and wettability, could affect bone formation [ 59 ].…”

Nanotechnology and Dental Implants

Nano Surface and Stem Cells for Implants

Impact of nanotechnology on dental implants