Microbial Leakage through Three Different Implant-Abutment Interfaces on Morse Taper Implants In Vitro.

IF 2.5 Q2 DENTISTRY, ORAL SURGERY & MEDICINE Dentistry Journal Pub Date : 2024-07-19 DOI:10.3390/dj12070226

Ricardo Faria Ribeiro, Victor Barboza da Mata, Lucas de Oliveira Tomaselli, Anselmo Agostinho Simionato, Emerson de Souza Santos, Adriana Cláudia Lapria Faria, Renata Cristina Silveira Rodrigues, Cássio do Nascimento

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Abstract

The objective of this study was to evaluate microbial leakage by means of genome counts, through the implant-abutment interface in dental implants with different Morse taper abutments. Fifty-six samples were prepared and divided in four groups: CMC TB (14 Cylindrical Implants-14 TiBase Abutments), CMX TB (14 Conical Implants-14 TiBase Abutments), CMX PU (14 Conical Implants-14 Universal Abutment) and CMX U (14 Tapered Implants-14 UCLA Abutments). Assemblies had their interface submerged in saliva as the contaminant. Samples were subjected either to thermomechanical cycling (2 × 10⁶ mechanical cycles with frequency of 5 Hz and load of 120 N simultaneously with thermal cycles of 5-55 °C) or thermal cycling (5-55 °C). After cycling, the contents from the inner parts of assemblies were collected and analyzed using the Checkerboard DNA-DNA hybridization technique. Significant differences in the total genome counts were found after both thermomechanical or thermal cycling: CMX U > CMX PU > CMX TB > CMC TB. There were also significant differences in individual bacterial counts in each of the groups (p < 0.05). Irrespective of mechanical cycling, the type of abutment seems to influence not only the total microbial leakage through the interface, but also seems to significantly reflect differences considering individual target species.

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莫尔斯锥度种植体上三种不同种植体-基台界面的微生物体外渗漏。

这项研究的目的是通过基因组计数来评估微生物通过带有不同莫尔斯锥度基台的种植体与基台界面的渗漏情况。研究人员制备了 56 个样本，并将其分为四组：CMC TB（14 个圆柱形种植体-14 个钛基台）、CMX TB（14 个锥形种植体-14 个钛基台）、CMX PU（14 个锥形种植体-14 个通用基台）和 CMX U（14 个锥形种植体-14 个 UCLA 基台）。组件的界面浸没在唾液中作为污染物。对样品进行热机械循环（2×106 次机械循环，频率为 5 Hz，载荷为 120 N，同时进行 5-55 °C 的热循环）或热循环（5-55 °C）。循环结束后，收集组装体内部的内容物，并使用棋盘式 DNA-DNA 杂交技术进行分析。在热机械或热循环后，发现基因组总数存在显著差异：cmx u > cmx pu > cmx tb > cmc tb。各组的单个细菌数量也存在明显差异（p < 0.05）。无论机械循环如何，基台的类型似乎不仅会影响通过界面的微生物总渗漏量，而且似乎也会显著反映个别目标物种的差异。

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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