一种用于即刻填充拔牙窝骨缺损的新型可注射磷酸钙生物材料：犬类初步研究

A new injectable calcium phosphate biomaterial for immediate bone filling of extraction sockets: a preliminary study in dogs.

作者信息

Gauthier O, Boix D, Grimandi G, Aguado E, Bouler J M, Weiss P, Daculsi G

机构信息

Laboratoire de Chirurgie, Ecole Nationale Vétérinaire de Nantes, France.

出版信息

J Periodontol. 1999 Apr;70(4):375-83. doi: 10.1902/jop.1999.70.4.375.

DOI:10.1902/jop.1999.70.4.375

PMID:10328648

Abstract

BACKGROUND

Many different bone substitutes, such as autografts, allografts or synthetic biomaterials have been proposed to restore alveolar bone loss and support efficient placement of dental implants. This experimental study evaluated the osteoconductive properties of an injectable bone substitute (IBS) composed of a polymeric carrier and a calcium phosphate mineral phase, used to fill mandibular and maxillary canine extraction sockets.

METHODS

The polymer was a cellulose derivative (methyl-hydroxy-propyl-cellulose, MHPC), and the mineral phase consisted of granules of biphasic calcium phosphate (BCP) ceramics 200 to 500 microm in diameter. Mandibular and maxillary premolars extracted from 3 dogs (a total of 60 extraction sites) were immediately treated with the IBS or left unfilled as control sites. Animals were sacrificed 3 months after implantation and all extraction sockets were prepared for histological evaluation.

RESULTS

Qualitative histological studies showed that the IBS was able to support the extensive apposition of well-mineralized newly formed lamellar bone over the entire socket surface and appeared to prevent alveolar ridge bone loss in treated extraction sites. Quantitative evaluation showed that the amount of newly formed bone was significantly higher in mandibular than maxillary extraction sockets for both treated and control sites.

CONCLUSIONS

An injectable bone substitute composed of a polymeric carrier and calcium phosphate was effective in enhancing the bone fill of extraction sockets. This approach may prove promising for periodontal lesions. The material expressed osteoconductive capacities, and the biological properties of the mineral phase were conserved.

摘要

背景

已经提出了许多不同的骨替代物，如自体骨、异体骨或合成生物材料，以修复牙槽骨缺损并支持牙种植体的有效植入。本实验研究评估了一种由聚合物载体和磷酸钙矿物相组成的可注射骨替代物（IBS）的骨传导特性，该替代物用于填充下颌和上颌犬齿拔牙窝。

方法

聚合物为纤维素衍生物（甲基羟丙基纤维素，MHPC），矿物相由直径为200至500微米的双相磷酸钙（BCP）陶瓷颗粒组成。从3只狗身上拔除的下颌和上颌前磨牙（共60个拔牙位点）立即用IBS处理或不填充作为对照位点。植入3个月后处死动物，所有拔牙窝均准备进行组织学评估。

结果

定性组织学研究表明，IBS能够支持新形成的矿化良好的板层骨在整个牙槽窝表面广泛附着，并似乎能防止治疗拔牙位点的牙槽嵴骨吸收。定量评估表明，无论是治疗位点还是对照位点，下颌拔牙窝中新形成的骨量均显著高于上颌拔牙窝。

结论

由聚合物载体和磷酸钙组成的可注射骨替代物在增加拔牙窝骨填充方面有效。这种方法可能对牙周病变有前景。该材料表现出骨传导能力，且矿物相的生物学特性得以保留。

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一种用于即刻填充拔牙窝骨缺损的新型可注射磷酸钙生物材料：犬类初步研究

A new injectable calcium phosphate biomaterial for immediate bone filling of extraction sockets: a preliminary study in dogs.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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