期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

明胶微粒粒径及含量对明胶微粒与磷酸钙骨水泥复合人工骨材料修复骨缺损的影响 被引量:4

Influence of gelatin particle size and gelatin/calcium phosphate cement ratio on repairing potency of composite artificial bone material
下载PDF
导出
摘要 目的:研究明胶微粒(GP)粒径及明胶与磷酸钙骨水泥(CPC)质量配比这两大因素对GP/CPC复合人工骨材料修复骨缺损的效果。方法:将不同GP粒径(100-200μm、200-300μm)及不同GP与CPC配比(5%GP、10%GP)两两配对后制备GP/CPC复合材料,比较GP/CPC复合材料的孔隙率、抗压强度、表面超微结构、体外生物相容性四大理化特性;构建新西兰兔颅骨缺损模型,在相同质控条件下将上述4组GP/CPC复合人工骨材料进行骨缺损填充,观察并比较其骨修复组织学差异及新骨形成率差异。结果:与粒径100-200μm的GP和5%GP配比组比较,粒径200-300μm的GP和10%GP配比制备的GP/CPC复合材料具有较大的孔径和较高的孔隙率( P<0.05),且在兔颅骨缺损修复中有更高的新骨形成量( P<0.05);而100-200μm粒径、5%GP配比组则具有较强的抗压强度( P<0.05)。结论:不同GP粒径和含量的GP/CPC复合材料理化特性和修复骨缺损的效果不同,其中GP 200-300μm粒径和10%质量比的GP/CPC复合新型材料更具成骨效果。 Objective:To investigate the influence of gelatin particle ( GP) size and gelatin/calcium phosphate cement ( GP/CPC) ratio on repairing potency of comparison artificial bone material .Methods:Composite GP/CPC materials with different GP size (100 -200 μm vs.200 -300 μm ) and ratio ( 5% vs.10%) were prepared . Physiochemical and biological properties , including porosity , resistance to compression , ultrastructure and biocompatibility were compared among 4 groups of GP/CPC materials.Different GP/CPC materials were used to repair the critical-size cranial bone defect in rabbit model , and the histology and newly formed bone inside scaffolds ( nBIS) were examined and compared among different groups .Results: GP/CPC with GP of 200 -300 μm possessed larger micropores than that with GP of 100 -200μm ( P〈0 .05 ) .The GP/CPC containing 10%GP had higher porosity than that containing 5%GP(P〈0.05).The animal model study showed that more new bone formed in those defects filled with GP/CPC containing 10% GP with 200 -300 μm in size compared with GP/CPC containing 5% GP with 100 -200 μm in size ( P 〈0.05 ) . While GP/CPC containing 5%GP with 100-200 μm in size showed a higher level of resistance to compression .Conclusion:Both the particle size of GP and its ratio in the GP/CPC affect the properties of the composite biomaterials and their role in bone repairing .In particular , the GP/CPC containing 10%GP with 200-300 μm in size is most suitable for repairing critical-size cranial bone defect in animal model .
作者 李耘 刘雁鸣 傅涛 李博
机构地区 浙江大学医学院附属第二医院口腔颌面外科 浙江大学医用高分子材料研究所
出处 《浙江大学学报(医学版)》 CAS CSCD 北大核心 2015年第3期293-300,共8页 Journal of Zhejiang University(Medical Sciences)
基金 国家自然科学基金(30901686) 浙江省自然科学基金(LY15H140005)
关键词 明胶/治疗应用 微球体 骨黏合剂/治疗应用 磷酸钙类/治疗应用 生物相容性材料/治疗应用 颅骨/损伤 颅骨/外科学 Gelatin/therapeutic use Microspheres Bone cements/therapeutic use Calcium phosphates/therapeutic use Biocompatible materials/therapeutic use Skull/injuries Skull/surgery
分类号 R783.1 [医药卫生—口腔医学]
  • 相关文献

参考文献22

  • 1RUH P Q, KROESE-DEUTMAN H C, WOLKE J G, et al. Bone inductive properties of rhBMP-2 loaded porous calcium phosphate cement implants in cranial defects in rabbits [J]. Biomaterials, 2004,25(11):2123-2132.
  • 2BOSE S, TARAFDER S. Calcium phosphate ceramic systems in growth factor and drug delivery for bone tissue engineering: a review [J]. Acta Biomater,2012,8(4):1401-1421.
  • 3KEMPEN D H, LU L, HEFFERAN T E, et al. Retention of in vitro and in vivo BMP-2 bioactivities in sustained delivery vehicles for bone tissue engineering [J]. Biomaterials,2008,29(22):3245-3252.
  • 4VLAD M D, SINDILAR E V, MARINOSO M L, et al. Osteogenic biphasic calcium sulphate dihydrate/iron-modified alpha-tricalcium phosphate bone cement for spinal applications: in vivo study [J]. Acta Biomater,2010,6(2):607-616.
  • 5DEL REAL R P, OOMS E, WOLKE J G, et al. In vivo bone response to porous calcium phosphate cement [J]. J Biomed Mater Res A,2003,65(1):30-36.
  • 6MOONEY D J, BALDWIN D F, SUH N P, et al. Novel approach to fabricate porous sponges of poly(D,L-lactic-co-glycolic acid) without the use of organic solvents [J]. Biomaterials,1996,17(14):1417-1422.
  • 7THOMSON R C, MIKOS A G, BEAHM E, et al. Guided tissue fabrication from periosteum using preformed biodegradable polymer scaffolds [J]. Biomaterials, 1999,20(21):2007-2018.
  • 8NARAYAN D, VENKATRAMAN S S. Effect of pore size and interpore distance on endothelial cell growth on polymers [J]. J Biomed Mater Res A,2008,87(3):710-718.
  • 9OH S H, PARK I K, KIM J M, et al. In vitro and in vivo characteristics of PCL scaffolds with pore size gradient fabricated by a centrifugation method [J]. Biomaterials,2007,28(9):1664-1671.
  • 10KARAGEORGIOU V, KAPLAN D. Porosity of 3D biomaterial scaffolds and osteogenesis [J]. Biomaterials,2005,26(27):5474-5491.

同被引文献32

引证文献4

二级引证文献2

浙江大学学报(医学版)
2015年 第3期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部