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中华口腔医学研究杂志(电子版)

中华口腔医学研究杂志(电子版) ›› 2009, Vol. 3 ›› Issue (04) : 369 -375. doi: 10.3877 / cma.j.issn.1674-1366.2009-04-004

基础研究

新型骨支架材料复合物修复兔下颌骨缺损的实验研究
谢利娜1, 潘巨利1,(), 陈仁吉1, 黄欣1, 郭文锦1, 田欢1, 邢汝东1   
  1. 1.100050 北京,首都医科大学口腔医学院口腔颌面外科
  • 收稿日期:2009-04-12 出版日期:2009-08-01
  • 通信作者: 潘巨利
  • 基金资助:
    首都医学发展科研基金(07-06-04)首都医科大学基础临床合作项目(2006JL06)

Study on repair of mandibular defects with nano-hydroxyapatite/collagen/poly(lactic acid)/platelet-rich plasma compound in rabbits

Li-na XIE1, Ju-li PAN1,(), Ren-ji CHEN1, Xin HUANG1, Wen-jin GUO1, Huan TIAN1, Ru-dong XING1   

  1. 1.Department of Oral and Maxillo-facial Surgery,School of Stomatology Capital Medical University, Beijing 100050, China
  • Received:2009-04-12 Published:2009-08-01
  • Corresponding author: Ju-li PAN
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引用本文:

谢利娜, 潘巨利, 陈仁吉, 黄欣, 郭文锦, 田欢, 邢汝东. 新型骨支架材料复合物修复兔下颌骨缺损的实验研究[J/OL]. 中华口腔医学研究杂志(电子版), 2009, 3(04): 369-375.

Li-na XIE, Ju-li PAN, Ren-ji CHEN, Xin HUANG, Wen-jin GUO, Huan TIAN, Ru-dong XING. Study on repair of mandibular defects with nano-hydroxyapatite/collagen/poly(lactic acid)/platelet-rich plasma compound in rabbits[J/OL]. Chinese Journal of Stomatological Research(Electronic Edition), 2009, 3(04): 369-375.

目的

研究纳米羟基磷灰石/胶原/聚乳酸/富血小板血浆复合物(nHAC/PLA/PRP)在骨缺损修复过程中的成骨作用。

方法

制备兔下颌骨10 mm×8 mm 贯穿性缺损,按不添加材料A 组、单纯材料(nHAC/PLA)B 组、活性材料(nHAC/PLA/PRP)C 组加入相应材料,术后2、4、8、12 周处死动物,分别从大体、影像学、扫描电镜、组织学方面进行观察,计量新骨面积并进行方差分析。

结果

影像学观察B、C 组2、4、8、12 周缺损区密度均高于A 组,B、C组之间差异无统计学意义。 电镜观察3 个组边界区主要由纤维组织包绕,B 组边界区可见少量新生骨散在分布,C 组纤维组织更致密,可见少量新骨片状分布;组织学观察可见B、C 组各时间点骨缺损区新骨形成均优于A 组,C 组新生骨及新生血管的量较B 组多。 随着时间延长,各组新骨均有增多,残留的材料减少,有大量骨样组织长入活性材料,骨成熟度增高,残留材料逐渐被活跃生长的骨组织包围并替代。 以方差分析对组间新骨面积进行两两比较,结果显示第2、4 周两两组间差异有统计学意义,8、12 周时A 组与B、C 组间差异有统计学意义,后两组之间差异无统计学意义。

结论

由nHAC/PLA 和富血小板血浆(PRP)构建的复合材料具有良好的生物相容性、骨传导及骨诱导活性,有望应用于临床修复骨缺损。

关键词: nHAC/PLA, 富血小板血浆, 复合物, 颌骨缺损, 骨修复

Objective

To investigate the osteogenesis effect of nHAC/PLA /PRP in bone defects repair.

Methods

A 10 mm × 8 mm perfoliate defect in right mandible of rabbit was made in each animal. Two different kinds of bone grafts were implanted respectively. Group A: no grafts; Group B: nHAC/PLA; Group C: nHAC/PLA/PRP compound. Two rabbits in each group were sacrificed at the 2nd、4th、8th、12th weeks, postoperative. The defects were evaluated by gross observation, radiography, scanning electron microscopy (SEM), histology and image analysis. The new bone areas were calculated using ANOVA (Analysis of Variance).

Results

At the 2nd、4th、8th、12th weeks, X-ray showed that the regenerative bone density of Group B and C was higher than Group A, but it was obvious between Group B and C; SEM scanning indicated that the boundary was mostly circled by fibrin, but a little new bone dispersedly distributes in Group B and there was more penetrating into materials in Group C later; histoligical observation showed that the amount and maturity of new bone in Group B and C were much higher than those in Group A at each time, the volumes of bone trabecula and new blood vessel were larger in Group C than those in Group B. The amount of trabecula increased and became more mature with time but the amount of residual materials reduced, an increasing amount of osteoid tissue developed into the inner materials. The new bone area was calculated using ANOVA and further Multiple Comparison, final result indicated that there was significance difference between each 2 groups at postoperative 2, 4 weeks, it also had statistical significance while compared Group A with Group B and C at the 8th, 12th weeks, but no statistical difference between the latter 2.

Conclusion

The nHAC/PLA/PRP exhibited good biocompatibility and osteoinduction so that it might be extensively used in clinical practise.

Key words: Nano-hydroxyapatite/collagen/poly (lactic acid)nHAC/PLA, Platelet-rich plasma (PRP), Compound, Mandible defect, Repairment
图1 A 组4 周时X 线片示中央大面积透亮影,边界清楚
图2 B 组4 周时X 线片示缺损区与宿主骨交界处絮状高密度影,隐约可见材料影像
图3 C 组4 周时X 线片示缺损区整体密度较略B 组略增高,边缘模糊
图4 A 组4 周时的扫描电镜图(×200) 缺损边界主要由纤维组织充满
图5 B 组4 周时的扫描电镜图(×200) 边缘主要为纤维组织和材料、少量新骨
图6 C 组4 周时的扫描电镜图(×200) 边缘可见材料、新骨、纤维组织结合紧密
图7 A 组4 周时组织学改变(HE ×4) 缺损区纤维组织丰富,边缘线状新骨
图8 B 组4 周时组织学改变(HE ×4) 材料之间条索状新骨形成,不连续
图9 C 组4 周时组织学改变(HE ×4) 小梁骨形成,骨量增多,颗粒内新骨包绕
图10 A 组12 周时组织学改变(HE×4) 缺损中央少量成骨,边缘向中央延伸
图11 B 组12 周时组织学改变(HE×4) 材料间可见片状骨组织,成熟度增高,新骨替代材料
图12 C 组12 周时组织学改变(HE×4) 缺损区可见大面积片状新骨,成熟度增高,新骨轮廓与原材料基本一致
图13 C 组12 周时组织学改变(Goldner's 三色法×4) 绿色(成熟骨);亮蓝色(新矿化骨);紫红色(类骨质)
图14 C 组4 周缺损区整体观(Goldner's 三色法×4) 新骨以材料为支架延伸生长
表1 A、B、C 组各个时间段新骨面积(μm2
时间段 A组 B组 C组
2周 88 904.2±45 301.8 1 149 910.0±319 032.9 1 967 615.6±403 917.0
4周 572 511.6±364 182.6 2 335 306.0±58 027.0 4 150 426.6±1 087 733.0
8周 1 748 436.0±352 391.6 3 940 314.8±332 070.7 4 210 209.0±156 526.0
12周 1 756 702.5±156 737.1 4 363 671.0±1 300 176.0 4 970 360.2±680 675.8
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