自凝磷灰石水泥。6. 作为骨替代物的可能性]。

Y Takezawa, Y Doi, S Shibata, K Uno, T Horiguchi, N Wakamatsu, H Kamemizu, T Gyotoku, M Adachi, Y Moriwaki
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引用次数: 16

摘要

研究了自固化磷灰石骨水泥作为大鼠股骨骨替代物的可行性。术后每隔12周恢复种植体部位,并通过x射线衍射、接触显微摄影、光学和电子显微镜进行观察。通过x射线衍射分析,发现骨水泥在大鼠髓管内放置至少一天后,完全转化为羟基磷灰石的固定相,类似于骨的主要无机相。在植入后1、4、12周制备的任何标本中,均未观察到固定水泥周围组织中明显的异物反应。植入四周后,固定骨水泥与新形成的骨紧密接触,骨陷窝内的骨细胞和骨表面的成骨细胞均参与其中。在植入后12周,新形成的骨倾向于生长到固定骨水泥的内部。通过扫描电子显微镜,发现新形成的骨直接沉积在固定的水泥上。新形成的骨头由细小的针状晶体组成。这些结果强烈表明,骨水泥作为骨替代物使用时,骨组织和骨生成具有良好的耐受性。该材料作为一种很有前途的骨替代物,其优点是可以作为浆料或膏状填充外科或外伤性骨缺损。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Self-setting apatite cement. 6. Possibility as bone substitute].

Self-setting apatite cement was investigated to evaluate its use as a possible bone substitute in the rat femur. The implant sites were recovered at intervals up 12 weeks postoperatively and investigated by the use of x-ray diffraction, contact microradiography, light and electron microscopy. By x-ray diffraction analysis, the cement placed for at least one day in the medullary canal of rats was found to be completely converted to a set phase of hydroxyapatite resembling the main inorganic phase of bone. In any specimens prepared at 1, 4, 12 weeks after implantation, no appreciable foreign body response was observed in the tissue around the set cement. At four weeks after implantation the set cement was in tight contact with the newly formed bone which appeared to involve osteocytes in lacunae and osteoblastic cells on its surface. At twelve weeks after implantation, the newly formed bone tended to grow into the interior of the set cement. With scanning electron microscopy, the newly formed bone was found to be directly deposited on the set cement. The newly formed bone consisted of fine needle-like crystals. These results strongly suggest that this cement is well tolerated by bone tissue and osteogenesis when used as a bone substitute. The advantage of the present material as a promising bone substitute is that it can be filled in surgical or traumatic bone defect as a slurry or paste.

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