Antoine Berberi, George Tehini, Khaldoun Rifai, Farah Bou Nasser Eddine, Bassam Badran, Haidar Akl
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引用次数: 21
Abstract
Leakage has been addressed as a major contributing factor to inflammatory reactions at the implant-abutment connection, leading to problems such as oral malodor, inflammation, and marginal bone loss. The aim of this study was to investigate in vitro the leakage at implant-abutment interface of OsseoSpeed™ implants connected to original and compatible abutments. A total of 28 OsseoSpeed implants were divided into four groups (n = 7). Each group was connected to four different abutments according to manufacturers' recommendations: group A (TiDesign™); group B (Natea™); group C (Dual™); and group D (Implanet™) abutments. The inner volume of each implant-abutment combination was calculated and leakage was detected for each group with spectrophotometric analysis at 1 h (D0) and 48 h (D1) of incubation time using Rhodamine B. At 1 h, leakage volume was significantly lower in TiDesign and Dual than in Natea and Implanet (P < 0.001). At 48 h, however, leakage was significantly lower between TiDesign and all other systems (P < 0.005). Compatible abutments do not fit internal connection of OsseoSpeed implants perfectly, which increases the leakage of the final assembly.
渗漏是引起种植体-基台连接处炎症反应的主要因素,导致口腔异味、炎症和边缘骨质流失等问题。本研究的目的是在体外研究osospeed™种植体与原基台和兼容基台连接时种植体-基台界面的渗漏。将28个osospeed种植体分为4组(n = 7)。根据制造商的建议,每组连接到四个不同的基台:A组(TiDesign™);B组(Natea™);C组(Dual™);D组(Implanet™)基台。在罗丹明b孵育1 h (D0)和48 h (D1)时,计算每个种植体-基台组合的内部体积,并采用分光光度法检测各组的渗漏情况
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