Assessment of bacterial cellulose membrane produced by Acetobacter xylinum used as scaffold for mouse fibroblast culture
Author affiliations
DOI:
https://doi.org/10.15625/1811-4989/14/3/9854Keywords:
Acetobacter xylinum, bacterial cellulose, fibroblast, scaffold, tissue engineeringAbstract
In recent years, bacterial cellulose material has been considered as a potential biotechnological product for biomedical applications. Previous studies described some special properties of bacterial cellulose, such as water holding capacity, high polymerization, high crystallization, high purity, and strength. In this study, bacterial cellulose membrane produced by Acetobacter xylinum was examined for its possibility to use as a scaffold for cell to grow. Firstly, mechanical properties of bacterial cellulose membrane including strength, stress at break, strain at break, and modulus were analyzed. Secondly, cellulose fiber structure was observed with scanning electron microscope. Lastly, biocompatibility of bacterial cellulose membrane was investigated for application as scaffold for cell culture. The results showed that bacterial cellulose membrane had fine fibres arranged to form 3-D porous structured hydrogel. Also, the mechanical qualities of material were suitable for using as a biomaterial. Fibroblast cells isolated from mouse’s skin and tail bone were cultured in Dulbecco's Modified Eagle's Medium supplemented with 10% fetal bovine serum and 1% antibiotics. Cells then collected and sew into bacterial cellulose membrane placed in cell culture disk. At different time points at 1 day, 4 days, and 7 days after sowing the cells, it is clearly seen that cells can adhere, grow and expand on the surface of cellulose membrance placed on cell culture disk, as comparible as cells cultured in disk without cellulose membrance. In conclusion, bacterial cellulose membrane is a suitable material for cell culture as a scaffold. The results observed from this study might be suggestions for next investigations on using bacterial cellulose membrane as scaffold for tissue engineeringDownloads
Downloads
Published
How to Cite
Issue
Section
License
Vietnam Journal of Biotechnology is a peer-reviewed, open access journal dedicated to the dissemination of scientific knowledge and research findings in the field of biotechnology. All published articles are freely accessible and downloadable by readers worldwide without any subscription or access fees.
All articles published in Vietnam Journal of Biotechnology are distributed under the terms of the Creative Commons Attribution-ShareAlike 4.0 International (CC BY-SA 4.0) License. This license allows users to share, copy, redistribute, adapt, and reproduce the material in any medium or format, provided that appropriate credit is given to the original author(s) and source, and that any derivative works are distributed under the same license terms.
The copyright of each published article remains with the respective author(s) without restriction. By submitting and granting permission for publication through the journal’s submission system or other communication channels, authors authorize Vietnam Journal of Biotechnology to publish and identify itself as the original publisher of the work. Authors also acknowledge and agree to comply with the terms and conditions of the CC BY-SA 4.0 License and the policies established by the journal.
