Exploring cellular adhesion and differentiation in a micro‐/nano‐hybrid polymer scaffold |
| |
Authors: | Ke Cheng William S Kisaalita |
| |
Institution: | Dept. of Biological and Agricultural Engineering, University of Georgia, Athens, GA 30605 |
| |
Abstract: | Polymer scaffolds play an important role in three dimensional (3‐D) cell culture and tissue engineering. To best mimic the archiecture of natural extracellular matrix (ECM), a nano‐fibrous and micro‐porous combined (NFMP) scaffold was fabricated by combining phase separation and particulate leaching techniques. The NFMP scaffold possesses architectural features at two levels, including the micro‐scale pores and nano‐scale fibers. To evaluate the advantages of micro/nano combination, control scaffolds with only micro‐pores or nano‐fibers were fabricated. Cell grown in NFMP and control scaffolds were characterized with respect to morphology, proliferation rate, diffentiation and adhesion. The NFMP scaffold combined the advantages of micro‐ and nano‐scale structures. The NFMP scaffold nano‐fibers promoted neural differentiation and induced “3‐D matrix adhesion”, while the NFMP scaffold micro‐pores facilitated cell infiltration. This study represents a systematic comparison of cellular activities on micro‐only, nano‐only and micro/nano combined scaffolds, and demonstrates the unique advantages of the later. © 2010 American Institute of Chemical Engineers Biotechnol. Prog., 2010 |
| |
Keywords: | tissue engineering scaffold stem cell micro‐/nano‐fabrication adhesion |
|
|