Implant-abutment leaking of replace conical connection nobel biocare® implant system. An in vitro study of the microbiological penetration from external environment to implant-abutment space.

Elias El Haddad, A. Giannì, G. Mancini, F. Cura, F. Carinci
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引用次数: 18

Abstract

PURPOSE The aim of our study is to value the microbial contamination in the implant-abutment connections (IAC) of a Nobel Replace Conical Connection implant system [Nobel Biocare®, Vimercate (MB), Italy]. MATERIALS AND METHODS To identify the capability of the implant to protect the internal space from the external environment, the passage of genetically modified bacteria across IAC was evaluated. Four Nobel Replace Conical Connection implants (Nobel Biocare®, Vimercate (MB), Italy) were immerged in a bacterial culture for twenty-four hours and then bacteria amount was measured inside and outside IAC with Real-time PCR. Bacterial quantification was performed by Real-Time Polymerase Chain Reaction using the absolute quantification with the standard curve method. RESULTS In all tested implants, bacteria were found in the inner side, with a median percentage of 10.9%. The analysis revealed that in both cases (internally and externally), bacteria grew for the first 48 hours but subsequently they started to dye, probably as a consequence of nutrient consumption. Moreover, the difference between outer and inner bacteria concentration was statistically significant at each time point. CONCLUSIONS Implant's internal contamination shows that IAC is not sealing. The reported results are similar to those of previous studies carried out on different implant systems. Until now, no IAC has been proven to seal the gap between implant and abutment.
诺贝尔biocare®种植体系统的锥形连接导致种植体-基台泄漏。微生物从外界环境渗透到种植基牙空间的体外研究。
目的:本研究的目的是评估Nobel Replace锥形连接种植体系统(Nobel Biocare®,Vimercate (MB), Italy)种植体-基台连接(IAC)中的微生物污染。材料和方法为了确定种植体保护内部空间免受外部环境影响的能力,我们评估了转基因细菌在IAC上的传代。4个Nobel Replace Conical Connection种植体(Nobel Biocare®,Vimercate (MB), Italy)浸泡在细菌培养液中24小时,然后用Real-time PCR检测IAC内外的细菌数量。细菌定量采用Real-Time聚合酶链式反应,标准曲线法绝对定量。结果所有种植体中,细菌均位于种植体内侧,中位数为10.9%。分析显示,在这两种情况下(内部和外部),细菌在最初的48小时内生长,但随后它们开始染色,可能是营养消耗的结果。各时间点外、内菌浓度差异均有统计学意义。结论植物内部污染表现为IAC不密封。报告的结果与以前在不同种植系统上进行的研究相似。到目前为止,还没有IAC被证明可以密封种植体和基台之间的间隙。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ORAL and Implantology
ORAL and Implantology Dentistry-Dentistry (all)
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