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Title: Adhesion contact dynamics of 3T3 fibroblasts on poly (lactide-co-glycolide acid) surface modified by photochemical immobilization of biomacromolecules. Author: Zhu AP, Fang N, Chan-Park MB, Chan V. Journal: Biomaterials; 2006 Apr; 27(12):2566-76. PubMed ID: 16375966. Abstract: A simple and effective method of biomacromolecule immobilization on biomaterial surface for direct tuning of biophysical parameters such as the initial cell deformation rate, degree of cell spreading and adhesion kinetics is important for tissue engineering. The photochemical immobilization of azide-chitosan (Az-CS) on poly (lactide-co-glycolide) acid (PLGA) is applied here. Chitosan immobilization on PLGA through the photoactive azide group further facilitates subsequent grafting of other biocompatible biomacromolecules like gelatin (Gel) through the active amine groups on CS. This study quantitatively compares the 3T3 fibroblast adhesion dynamics on three PLGA surfaces (Gel-CS-PLGA, CS-PLGA and unmodified PLGA surfaces) using Confocal-Reflectance Interference Contrast Microscopy (C-RICM) together with phase contrast imaging. CS-PLGA and Gel-CS-PLGA surfaces developed were confirmed by X-ray photoelectron spectroscopy, atomic force microscopy and water contact angle and cell adhesion contact dynamics measurements. The cell adhesion was strongest on the Gel-CS-PLGA surface and lowest on unmodified PLGA. The steady state adhesion energy attained by the cells on gelatin modified PLGA surface is determined as 4.0 x 10(-8) J/m(2), which is about 400 times higher than that on PLGA surface (1.1 x 10(-10) J/m(2)). Significantly increased cell adhesion with Gel-CS-PLGA is postulated to result in increased cell spreading. Our integrated biophysical method can quantify the transient contact dynamics and is sufficiently accurate to discriminate even between Gel and CS modified surfaces.[Abstract] [Full Text] [Related] [New Search]