Abstract
Objectives
The cementation process and cementation materials have an influence on the marginal adaptation of restorations. The gap could be affected by thermal and mechanical loading (TCML). The computerized x-ray microtomography (μCT) method offers the possibility of measuring the marginal gap without destruction of the restoration. The aim of this study was to evaluate the marginal gap (MG) and the absolute marginal discrepancy (AMD) before and after TCML.
Materials and methods
Thirty-nine human premolars were prepared for full ceramic crowns made of lithium disilicate. The crowns were cemented by three different resins—Panavia F 2.0, Variolink II, and Relyx Unicem. The MG and AMD were evaluated by μCT before and after TCML.
Results
Panavia F 2.0 had the lowest MG (before 118 μm–after TMCL 124 μm) and AMD (before 145 μm–after TMCL 154 μm), followed by Relyx Unicem (MG: before 164 μm–after TCML 155 μm; AMD: before 213 μm–after TMCL 209 μm) and Variolink II (MG: before 317 μm–after TMCL 320 μm; AMD: before 412 μm–after TMCL 406 μm). The differences were statistically significant before and after TCML. Rather than TCML, it appeared the resin cement was responsible for differences between the MG and AMD before and after TCML.
Conclusions
μCT is an accurate technique for assessing cemented restorations. Panavia F 2.0 has the lowest MG and AMD before and after TCML.
Clinical relevance
The resin material that features a three-step protocol (Variolink II) produced higher MG and AMG values than the Panavia or Relyx Unicem varieties with less or no intermediate steps at all.
https://ift.tt/2vmdfE4
Δεν υπάρχουν σχόλια:
Δημοσίευση σχολίου