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Impact of dynamic loading on the implant-abutment interface using a gas-enhanced permeation test in vitro

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Details

Original languageEnglish
Pages (from-to)112-119
Number of pages8
JournalTHE OPEN DENTISTRY JOURNAL
Volume9
Issue number1
Publication statusPublished - 2015
Publication typeA1 Journal article-refereed

Abstract

Purpose: To assess implant leakage under static conditions as well as during and after dynamic loading. Materials and methods: Implants (Astra Tech (A), Biomet 3i (B) and Nobel Biocare (C)) were evaluated for leakage (n=8/group). Testing to assess the gas pressure change over time (hPa/min) and infiltrated fluid volume, was performed in a Gas Enhanced Permeation Test (GEPT) to qualify embedding. Implant apexes were then drilled, abutments were mounted and resin build-ups were fabricated. GEPT was reassessed. Samples were afterward mounted in a computercontrolled masticator while tested to bacterial leakage, they were daily observed for turbidity. Samples were then reassessed using GEPT. Dunnett's and Fisher's exact tests were utilized to compare implant and to analyze bacterial leakage. Results: Significant differences in GEPT values were shown after loading (p=0.034). Leakage resistance was best for B when compared to C (p=0.023). Samples with higher GEPT values demonstrated earlier bacterial leakage, occurring after 1 or 2 days (A=4, B=0, C=6) and showing favorability for implant system B (p=0.009). Conclusion: Implants leaking under static conditions had increased potential for bacterial leakage under dynamic conditions. As strongly correlating to sophisticated analytical methods, GEPT is a promising technique for assessing the overall implant system leakage resistance.

ASJC Scopus subject areas

Keywords

  • Dynamic loading, Implants leakage, Static implants leakage