Development of rotating perfusion bioreactor system and application for bone tissue engineering.
- Author:
Xiang LI
1
;
Dichen LI
;
Lin WANG
;
Zhen WANG
;
Bingheng LU
Author Information
1. State Key Lab for Manufacturing Systems Engineering, Xi'an Jiaotong University, Xi'an 710049, China.
- Publication Type:Journal Article
- MeSH:
Animals;
Animals, Newborn;
Bioreactors;
Cell Culture Techniques;
instrumentation;
methods;
Cell Differentiation;
Osteoblasts;
cytology;
Rabbits;
Skull;
cytology;
Tissue Engineering;
methods;
Tissue Scaffolds
- From:
Journal of Biomedical Engineering
2007;24(1):66-70
- CountryChina
- Language:Chinese
-
Abstract:
A rotating perfusion bioreactor system has recently been developed in our laboratory to produce 3D dynamic culture condition, and the critical-sized scaffolds with interconnected microchennels were fabricated. Gas exchange occurs by semipermeable membrane covered on each side of bioreactor and gas-permeable peristaltic pump tube. Rotation and perfusion of culture media through large scaffolds enhance well mixing and mass transport of oxygen and nutrients in the bioreactor. Osteoblastic cells attached to microchennels are exposed to a low fluid flow-induced shear stress level. This bioreactor system overcomes several defects exited in static culture condition, improves the culture environment, facilitates osteoblast proliferation, differntiation, significant matrix production and mineralization, and the controllability of culture process is enhanced. Large scaffolds/osteoblast constructs were cultured in the bioreactor system for 14 days. Osteoblastic cells attached to microchannels of scaffolds were observed under scanning electron microscope (SEM). The results indicated that cells grew extensively in the microchennels of large scaffolds.
