三种骨颗粒填充剂在兔模型中的成骨性能比较：同种异体骨、碳酸钙（Biocoral®）和 S53P4 生物活性玻璃。

Comparison of the osteoconductive properties of three particulate bone fillers in a rabbit model: allograft, calcium carbonate (Biocoral®) and S53P4 bioactive glass.

机构信息

University of Turku, Turku, Finland.

出版信息

Acta Odontol Scand. 2013 Sep;71(5):1238-42. doi: 10.3109/00016357.2012.757642. Epub 2013 Jan 7.

DOI:10.3109/00016357.2012.757642

PMID:23294163

Abstract

AIM

The aim of this study was to compare the osteoconductivity and suitability of three biomaterials used as particulate fillers; S53P4 bioactive glass, allogeneic fresh frozen bone and coral-derived calcium carbonate.

MATERIALS AND METHODS

Materials were implanted into drill-holes in the femoral condyles of adult rabbits. Follow-ups were performed at 3, 6, 12 and 24 weeks. Host-response, osteoconductivity, bonding and filler-effect were evaluated by SEM, EDXA and histology and histomorphometry to evaluate.

RESULTS

All three materials were found to be biocompatible and osteoconductive. Defects filled with allograft seemed to have more bone at 24 weeks, although no statistically significant difference in new bone growth was found. In earlier time points, coral, however, was observed to degrade more quickly, leaving more empty space in the defects, thus making it a less suitable filler for cavitary defects.

CONCLUSION

At all time points there was less filler material (i.e. biomaterial and new bone) in coral-filled defects than in BAG or allograft filled defects (p < 0.05).

摘要

目的

本研究旨在比较作为颗粒状填充物使用的三种生物材料的骨诱导性和适用性；S53P4 生物活性玻璃、同种异体新鲜冷冻骨和珊瑚衍生碳酸钙。

材料和方法

将材料植入成年兔股骨髁的钻孔中。在 3、6、12 和 24 周时进行随访。通过 SEM、EDXA 和组织学及组织形态计量学评估，评估宿主反应、骨诱导性、结合和填充物效果。

结果

三种材料均具有生物相容性和骨诱导性。在 24 周时，用同种异体骨填充的缺陷似乎有更多的骨，但新骨生长没有统计学上的显著差异。然而，在早期阶段，珊瑚被观察到更快地降解，在缺陷中留下更多的空洞，因此珊瑚不太适合用于腔隙性缺陷。

结论

在所有时间点，珊瑚填充缺陷中的填充物（即生物材料和新骨）均少于 BAG 或同种异体骨填充缺陷（p<0.05）。

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三种骨颗粒填充剂在兔模型中的成骨性能比较：同种异体骨、碳酸钙（Biocoral®）和 S53P4 生物活性玻璃。

Comparison of the osteoconductive properties of three particulate bone fillers in a rabbit model: allograft, calcium carbonate (Biocoral®) and S53P4 bioactive glass.

机构信息

出版信息

AIM

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料和方法

结果

结论

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