采用溶液反应方法制备含5%(原子分数)锶的羟磷灰石(Sr-HA)原料,经干压成型、烧结后制得孔隙率约35%的圆片状多孔体,植入新西兰大白兔脊柱两侧背脊肌中,以纯羟磷灰石试样作为实验对照;通过扫描电镜、四环素荧光标记法观察种植体试样表面生物降解性和与周围软组织之间界面状况以及四环素荧光分布,评价锶磷灰石多孔陶瓷在动物软组织内的生物降解性、对组织生长的引导性等生物学行为.结果显示,锶磷灰石种植试样3个月时表面可见由于晶体降解而呈现出大量凹陷结构,凹陷结构的边缘较中心点的降解更为明显和快速;6个月时可观察到凹陷样结构处外围有明显的从外向内吸收特征,并且可观察到大量的强亮色条索状、团状荧光带,连成一片.而羟磷灰石对照组材料表面仅见少量的降解,四环素荧光呈点状弥散样,荧光强度较低.说明锶磷灰石具有良好的组织亲和性和组织引导性;与羟磷灰石相比,锶磷灰石的降解速度快,降解程度高.锶磷灰石可能具有诱导骨基质形成的作用.
参考文献
[1] | Shinobu Y .[J].Journal of Dental Materials and Devices,1997,16(05):415-419. |
[2] | Kingery W D;清华大学.陶瓷导论[M].北京:中国建筑工业出版社,1982:130-142. |
[3] | Ekelund A;Brosjo O;Nilsson O S.[J].Clinical Orthopaedics and Related Research,1991(263):102-112. |
[4] | Noshi T.;Yoshikawa T. .Enhancement of the in vivo osteogenic potential of marrow/hydroxyapatite composites by bovine bone morphogenetic protein[J].Journal of biomedical materials research, Part B. Applied biomaterials,2000(4):621-630. |
[5] | Scgmitt J M;Hwaang K;Winn S R et al.[J].Journal of Orthopaedic Research,1999,17:267-278. |
[6] | Wlodarski K H.[J].Clinical Orthopaedics and Related Research,1982(171):210-212. |
[7] | Williams,JT;Southerland,SS;Souza,J;Calcutt,AF;Cartledge,RG .Cells isolated from adult human skeletal muscle capable of differentiating into multiple mesodermal phenotypes.[J].American Surgeon,1999(1):22-26. |
[8] | Christoffersen J;Christoffersen M R;Kolthoff et al.[J].Bone,1997,20(01):47. |
[9] | 陈德敏,傅远飞,顾国珍,钱云芳,顾云峰.掺锶羟磷灰石固溶体的制备及离解度测定[J].中国生物医学工程学报,2001(03):278-280. |
[10] | Marie P J;Hott M;Modrowski D et al.[J].Journal of Bone and Mineral Research,1993,8(05):607-615. |
[11] | Dahl S G;Allain P;Marie P J et al.[J].Bone,2001,28(04):446-453. |
[12] | Nielsen S P;Slosman D;Sorensen O H et al.[J].Journal of Clinical Densitometry,1999,2(04):371-379. |
[13] | Grynpas M D;Hamilton E;Cheng R et al.[J].Bone,1996,18(03):253-258. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%