Surface modification of poly(l-lactic acid) affects initial cell attachment, cell morphology, and cell growth

The fabrication and surface modification of a porous cell scaffold are very important in tissue engineering. Of most concern are high-density cell seeding, nutrient and oxygen supply, and cell affinity. In the present study, poly(L-lactic acid) and poly(L-lactic-co-glycolic acid) (70/30) cell scaffo

## Abstract We have studied the influence of oxygen radio frequency glow discharge (RfGD) on the surface and bulk properties of poly(D,L‐lactic acid) (PDLLA) and the effect of this surface modification on both protein adsorption and bone cell behavior. PDLLA films were characterized before and afte

## Abstract The aptitude of a cell to adhere, migrate, and differentiate on a compact substrate or scaffold is important in the field of tissue engineering and biomaterials. It is well known that cell behavior can be controlled and guided through the change in micro‐ and nano‐scale topographic feat

## Abstract A novel PAA__‐b‐__PLGA diblock copolymer is synthesized and characterized that has excellent cell adhesion and biocompatibility. Fluorescent DiO labeling is used to monitor the attachment and growth of hASCs on the film surface, and cell proliferation over time is studied. Results show

The adhesion of marrow stromal osteoblasts and the adsorption of fetal bovine serum (FBS) proteins to endcapped poly(D,L-lactic acid) 50:50 (PLA50) of molecular weight 17,000 (PLA50 17 ), non-end-capped PLA50 of molecular weight 11,000 (PLA50 11h ), and a diblock copolymer made of poly(ethylene glyc

Interactions between cultured nerve cells and surfaces are of importance for the implantation of biocompatible electrode materials such as glassy carbon (GC). Since implants serve as recording sensors in prosthetic neuroscience, we investigated whether coating electrodes with certain laminin derivat