Abstract
As a gel scaffold for chondrocyte tissue engineering, agarose concentration plays a significant role in the relationship between porosity and nutrition. In this work, the effect of concentration and period cultured on Glycosaminoglycan (GAG) and mechanical properties have been studied. A bovine chondrocytes have been isolated and seeded in different agarose gel scoffed concentrations, about 4% and 6%, for different period cultured, 0 and 7 days. The MTS machine and Spectrophotometric with calibration curve method were used to measure mechanical properties, and GAG concentration of the prepared samples, respectively. The results of mechanical tests and GAG contents shown that there are a wide range of dispersion in the most of the samples, which attribute to different factors. For mechanical properties, these factors could be attributed to anisotropic of the produced chondrocyte with agarose scaffolds, insufficient cells' dispersion within the gel scaffold during seeding and cultured time, and some test procedure condition, such as EBSS hydration. While for GAG results, those factors could be the differences of the cell growth environment between in-vitro and in vivo media.
Highlights
There are many factors that have an effect on mechanical and regenerative properties to regenerate articular cartilage, especially scaffold design and cultured period [1, 2, 3]
Huber and et al (2000) pointed that the period of cell cultured and nutrition and oxygen supplies play an important role in the regenerative ability of tissue engineering of chondrocytes, which are the main content to survive the extracellular matrix (ECM) [6]
(A) and (B), the five individual and mean values of the total GAG of cells/gel scaffolds were plotted in a histogram form, respectively
Summary
As a gel scaffold for chondrocyte tissue engineering, agarose concentration plays a significant role in the relationship between porosity and nutrition. The results of mechanical tests and GAG contents have shown that there are a wide range of dispersion in the most of the samples, which attribute to different factors. For mechanical properties, these factors could be attributed to anisotropic of the produced chondrocyte with agarose scaffolds, insufficient cells' dispersion within the gel scaffold during seeding and cultured time, and some test procedure condition, such as Earle's Balanced Salt Solution (EBSS) hydration. While for GAG results, those factors could be the differences of the cell growth environment between in-vitro and in vivo media.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
