[骨形态发生蛋白-2在假体非骨水泥固定中的实验研究]

[Experimental study of bone morphogenetic protein-2 in noncemented fixation of prosthesis].

作者信息

Wang Yan, Wang Song-tao, Cui Jian, Zhou Yong-gang, Mu Ming-wei

机构信息

Department of Orthopeadic, The General Hospital of People's Liberation Army, Beijing 100853, China.

出版信息

Zhonghua Wai Ke Za Zhi. 2004 Feb 22;42(4):240-3.

PMID:15062046

Abstract

OBJECTIVE

To study on the method of combining rhBMP(2) with porous-coated implants, and compared the histological and biomechanical results of 4 types of implants by being inserted into the femur of canine.

METHODS

4 types of implants which are porous-coated implants (PCA), PCA implants combined with BMP, PCA implants coated with hydroxyapatite and HA coated cylindrical implants had been inserted into the femur of 16 canines. After 4, 8, 12 and 24 weeks the femur of the canines with the implants were retrieved. Bone ingrowth and shear strength of the interface was studied and analysed by the means of X-ray, soft X-ray, fluorescence tag, non-decalcification bone ground section, computer-aided image analysis procedure and biomechanical test.

RESULTS

X-ray, soft X-ray, fluorescence tag, non-decalcification bone ground section and computer-aided image analysis procedure was used in histological study, and it showed that bony ingrowth into interface more than the other groups, even the maturation of newly formed bone. Non-decalcification bone ground section observation and computer aided image analysis showed the results: the new bone formation ratio of BMP group was 26.58% +/- 4.56% at 4 weeks post-implantation, which was much higher than the other groups, and there was significant difference between BMP group and each of the other group statistically (P < 0.05). Results of biomechanical study using push-out test showed that shear strength of each group appeared to rise with time. Shear strength of BMP group reached a high level at 4 weeks which was 18.94 +/- 5.11Mpa and almost twice of the other group, and there was also statistical difference between BMP group and each of the other group (P < 0.05). And the new bone formation ratio and shear strength of BMP group at 8, 12, 24 weeks post-implantation was still higher than the other group, but there was no statistically difference.

CONCLUSIONS

Porous-coated implants combined with rhBMP can enhance bone ingrowth at bone-implant interface especially at the early period post-implantation. Porous-coated implants combined with rhBMP(2) can not only shorten the time of new bone formation and bone ingrowth but also enhance shear strength of bone-implant interface.

摘要

目的

研究重组人骨形态发生蛋白2（rhBMP(2)）与多孔涂层植入物相结合的方法，并通过将4种类型的植入物植入犬股骨，比较其组织学和生物力学结果。

方法

将4种类型的植入物，即多孔涂层植入物（PCA）、与BMP结合的PCA植入物、涂有羟基磷灰石的PCA植入物和HA涂层圆柱形植入物，植入16只犬的股骨。在4、8、12和24周后取出植入有植入物的犬的股骨。通过X射线、软X射线、荧光标记、不脱钙骨磨片、计算机辅助图像分析程序和生物力学测试等方法研究和分析界面的骨长入和剪切强度。

结果

组织学研究采用了X射线、软X射线、荧光标记、不脱钙骨磨片和计算机辅助图像分析程序，结果显示骨长入界面的情况优于其他组，甚至新形成骨已成熟。不脱钙骨磨片观察和计算机辅助图像分析结果显示：植入后4周，BMP组的新骨形成率为26.58%±4.56%，远高于其他组，且BMP组与其他各组之间在统计学上有显著差异（P<0.05）。采用推出试验的生物力学研究结果表明，各组的剪切强度均随时间升高。BMP组在4周时剪切强度达到较高水平，为18.94±5.11Mpa，几乎是其他组的两倍，且BMP组与其他各组之间也有统计学差异（P<0.05）。植入后8、12、24周时，BMP组的新骨形成率和剪切强度仍高于其他组，但无统计学差异。