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Soft Materials Volume 11, 2013 - Issue 2
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Original Articles

Laser Patterning of Bacterial Cellulose Hydrogel and its Modification With Gelatin and Hydroxyapatite for Bone Tissue Engineering

Wang Jing School of Materials Science and Engineering, Tianjin University, Tianjin, P.R. China; Key Laboratory for Advanced Textile Composites of Ministry of Education, Composites Research Institute, Tianjin Polytechnic University, Tianjin, P.R. ChinaCorrespondence[email protected]
,
Yang Chunxi Department of Orthopedics, Ninth People's Hospital, Shanghai JiaoTong University School of Medicine, Shanghai, P.R. China; Department of Orthopedics, Shanghai tenth People's Hospital, Tongji University School of Medicine, Shanghai, P.R. China
,
Wan Yizao School of Materials Science and Engineering, Tianjin University, Tianjin, P.R. China
,
Luo Honglin School of Materials Science and Engineering, Tianjin University, Tianjin, P.R. China
,
He Fang School of Materials Science and Engineering, Tianjin University, Tianjin, P.R. China
,
Dai Kerong Key Laboratory for Advanced Textile Composites of Ministry of Education, Composites Research Institute, Tianjin Polytechnic University, Tianjin, P.R. China
&
Huang Yuan School of Materials Science and Engineering, Tianjin University, Tianjin, P.R. China
 show all
Pages 173-180 | Received 28 Mar 2011, Accepted 02 Aug 2011, Published online: 04 Jan 2013
 
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Abstract

Bacterial cellulose (BC) is considered a promising and cost-efficient nanoscaffold for tissue engineering; however, the absence of large pores for cell ingrowth and enough biological properties restricts its practical use as tissue engineering scaffold. In this work, a novel porous BC membrane with regular vertical pore arrays was obtained via laser patterning technique. Then, this porous BC membrane was modified with gelatin (Gel) and hydroxyapatite (HAp), respectively, to enhance its activity. After the modification, thin Gel and HAp coatings formed on the surfaces of nanofibers in the pore wall, which had no influence on the original refined network structures. In order to review the cytocompatibility of the obtained scaffolds, chondrogenic rat cells were seeded on scaffolds. The results showed that chondrogenic rat cell could keep viability on scaffolds, and the scaffolds support chondrogenic rat cell attachment and proliferation.

Acknowledgments

Wang Jing and Yang Chunxi contributed equally to this work.

This work was supported by the National Basic Research Program (973 Program) (Grant no. 2007CB936101) and the Fund for Key Disciplines of Shanghai Municipal Education Commission (J50206).

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