壳聚糖微球复合丝素基硫酸钙骨水泥的理化特性

被引：10

作者：

王鹏

皮斌

王金宁

朱雪松

杨惠林

机构：

[1] 苏州大学附属第一医院骨科

来源：

中国组织工程研究 | 2014年 / 18卷 / 12期

关键词：

生物材料; 骨生物材料; 硫酸钙; 骨水泥; 微球; 壳聚糖; 丝素; 力学强度; 理化特性; 国家自然科学基金;

D O I：

暂无

中图分类号：

R318.08 [生物材料学];

学科分类号：

100103 [病原生物学];

摘要：

背景:脊柱成形和脊柱后凸成形治疗中采用的硫酸钙骨水泥理化性质好,对人体无毒性作用,同时具有降解性能,但单独使用降解较快。目的:研制具有载药缓释功能的壳聚糖微球丝素基硫酸钙骨水泥。方法:采用三聚磷酸钠乳化交联法制备壳聚糖微球。采用浓度分别为3%,6%,9%的丝素溶液与CaSO4·0.5H2O混合,通过万能力学试验机确定骨水泥力学性能最佳时的丝素浓度,在此浓度下,按壳聚糖微球占CaSO4·0.5H2O的质量比分别为0.5%,1%,5%的比例制备壳聚糖微球丝素基硫酸钙骨水泥,测定其抗压强度,并通过X射线多晶衍射仪及傅里叶红外光谱明确达到最佳抗压强度组的骨水泥成分,电镜观察复合骨水泥中壳聚糖微球的形态。结果与结论:当丝素溶液浓度为6%,壳聚糖微球含量为0.5%时,复合骨水泥的抗压强度最大,为(39.17±1.96)MPa,此时复合骨水泥的初凝时间为(12.99±1.63)min,终凝时间为(21.55±0.54)min;骨水泥中主要晶相组成为硫酸钙,傅里叶红外光谱结果证实复合骨水泥中含有丝素及壳聚糖;复合骨水泥中的微球表面稍有皱缩,但球形仍然完整,未见明显破坏,可见在制备复合骨水泥的过程中微球能保持稳定而不被破坏。

引用

页码：1831 / 1838

页数：8

共 26 条

[1]

Silk ionomers for encapsulation and differentiation of human MSCs [J].

Calabrese, Rossella ;

Kaplan, David L. .

BIOMATERIALS, 2012, 33 (30) :7375-7385

[2]

Study on the new bone cement based on calcium sulfate and Mg, CO3 doped hydroxyapatite [J].

Zima, Aneta ;

Paszkiewicz, Zofia ;

Siek, Dominika ;

Czechowska, Joanna ;

Slasarczyk, Anna .

CERAMICS INTERNATIONAL, 2012, 38 (06) :4935-4942

[3]

Preparation and characterization of crosslinked chitosan microspheres for the colonic delivery of 5-fluorouracil [J].

Bhat, Subramanya K. ;

Keshavayya, J. ;

Kulkarni, Venkatrao H. ;

Reddy, Venugoapala K. R. ;

Kulkarni, Preeti V. ;

Kulkarni, Anandrao R. .

JOURNAL OF APPLIED POLYMER SCIENCE, 2012, 125 (03) :1736-1744

[4]

Preparation; characterization and biocompatibility of electrospinning heparin-modified silk fibroin nanofibers.[J].Shudong Wang;Youzhu Zhang;Hongwei Wang;Zhihui Dong.International Journal of Biological Macromolecules.2010, 2

[5]

Preparation and characteristics of chitosan microspheres in different acetylation as drug carrier system [J].

Wang, Ai Hong ;

Chen, Xi Guang ;

Liu, Cheng Sheng ;

Meng, Xiang Hong ;

Yu, Le Jun ;

Wang, Hua .

JOURNAL OF MICROENCAPSULATION, 2009, 26 (07) :593-602

[6]

Preparation and blood coagulation evaluation of chitosan microspheres [J].

Wang, Qi Zhao ;

Chen, Xi Guang ;

Li, Zi Xiang ;

Wang, Song ;

Liu, Cheng Sheng ;

Meng, Xiang Hong ;

Liu, Chen Guang ;

Lv, Ying Hui ;

Yu, Le Jun .

JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE, 2008, 19 (03) :1371-1377

[7]

Microspheres containing lipid/chitosan nanoparticles complexes for pulmonary delivery of therapeutic proteins.[J]..European Journal of Pharmaceutics and Biopharmaceutics.2007, 1

[8]

The calcium-sensing receptor (CaR) is involved in strontium ranelate-induced osteoblast proliferation [J].

Chattopadhyay, Naibedya ;

Quinn, Stephen J. ;

Kifor, Olga ;

Ye, Chianping ;

Brown, Edward M. .

BIOCHEMICAL PHARMACOLOGY, 2007, 74 (03) :438-447

[9]

Effect of gypsum on proliferation and differentiation of MC3T3-E1 mouse osteoblastic cells.[J].áron Lazáry;Bernadett Balla;János P. Kósa;Krisztián Bácsi;Zsolt Nagy;István Takács;Péter P. Varga;Gábor Speer;Péter Lakatos.Biomaterials.2006, 3

[10]

Novel chitosan/collagen scaffold containing transforming growth factor-β1 DNA for periodontal tissue engineering [J].

Zhang, YF ;

Cheng, XR ;

Wang, JW ;

Wang, YN ;

Shi, B ;

Huang, C ;

Yang, XC ;

Liu, TJ .

BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 2006, 344 (01) :362-369

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