Journal of Advances in Biomedical Engineering and Technology  (Volume 2 Issue 1)
 Fabrication of Asymmetric Polysaccharide Composite Membranes as Guided Bone Regeneration Materials biomedical
Pages 51-61

Na Li, Mingyan Zhao, Bihua Ye, Lihua Li, Lu Lu, Shan Ding, Changren Zhou, Hong Li, Yanpeng Jiao and Mingxian Liu

DOI: http://dx.doi.org/10.15379/2409-3394.2015.02.01.7
Published: 6 May 2015
Abstract
Periodontal regeneration can be achieved by guided tissue and guided bone regeneration (GTR/GBR) membranes, which act as a physical barrier to exclude migration of connective and epithelium, favoring the repopulation of periodontal ligament cells. Asymmetric polysaccharide GBR membranes with two different surfaces were developed in this study. Positive chitosan (CS), negative hyluronaic acid (HA) and konjac glucomannan (KGM) were composited by electrostatic interaction, forming smooth and dense membranes as upper surface to inhibit the ingrowth of cells from gingiva. The lower porous and coarse surface was obtained by gel freeze-drying and mineralization to improve the regeneration of the bone tissue. The performance of the membranes was characterized by Infrared Radiation (IR), X-ray diffraction (XRD), scanning electron microscope (SEM), tensile strength and biological evaluation. It was found that the composite membranes with chitosan content of 56.7 wt%in the dry state possess the highest tensile strength, with elongation 10 times more higher than that of the pure CS ones. Additionaly, open pores with diameter of 10-100 µm and homogenouse distributed nano-hydroxyapatite (HAP) were investigated on the coarse part. Cell studies demonstrated that the porous surface promoted the growth of the preosteoblast. Overall, the composite membranes may be useful for regeneration of periodontal regeneration.
Keywords
Periodontal regeneration, Guided bone regeneration, Chitosan, Asymmetric membrane, Mineralization.
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