In Vitro Biomineralization of Chitosan

机译：壳聚糖的体外生物矿化

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The influence of chemical treatments of porous and non-porous chitosan membranes on biomineralization was studied. These treatments are: 1) the crosslinking using glutaraldehyde and 2) the adsorption of poly(acrylic acid) (PAA) on chitosan. The first one blocks chitosan amino groups, inducing a more hydrophobic character to the substrate, and the second one turns the membrane surface polyanionic instead of the polycationic natural character of chitosan. Substrates (membranes) of chitosan treated in both ways were used to undergo mineralization by soaking them in simulated body fluids (SBF), with 1x or 1.5x the concentration of ions found in human serum, for 7 at 36.5 deg C. SEM_EDS and FTIR-ATR techniques showed that glutaraldehyde tens to inhibit calcium compound deposition on substrates while PAA induces a more homogeneous and intense deposition.

机译：研究了多孔和无孔壳聚糖膜化学处理对生物矿化的影响。这些处理是：1）使用戊二醛进行交联，以及2）聚（丙烯酸）（PAA）在壳聚糖上的吸附。第一个封闭壳聚糖的氨基基团，对底物产生更多的疏水性，第二个封闭膜表面的聚阴离子而不是壳聚糖的聚阳离子天然特性。通过将两种方式处理的壳聚糖底物（膜）浸泡在模拟体液（SBF）中，在36.5摄氏度下，以7倍于人体血清中离子浓度的1x或1.5x进行离子化。SEM_EDS和FTIR -ATR技术表明戊二醛能抑制钙化合物在底物上的沉积，而PAA则诱导更均匀和强烈的沉积。

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《13th International Symposium on Ceramics in Medicine and the Annual Meeting of the International Society for Ceramics in Medicine 22-26 November 2000 Bologna, Italy》|2000年|p.31-34|共4页
会议地点 Bologna(IT);Bologna(IT);Bologna(IT);Bologna(IT)
作者
M.M. Beppu; C.C. Santana;
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原文格式 PDF
正文语种 eng
中图分类基础医学;
关键词
calcification; chitin; chitosan; glutaraldehyde; mineralisation; PAA;

机译：钙化;甲壳素壳聚糖戊二醛矿化； PAA;

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In Vitro Biomineralization of Chitosan

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