In Vitro Survival and Fracture Force of Lithium-Disilicate Hybrid Abutment Crowns.

Abstract

To evaluate the behavior of hybrid abutment crowns fabricated from monolithic lithium disilicate ceramic (LDC) and to compare the influence of different in-vitro artificial aging protocols. 32 monolithic hybrid abutment crowns of monolithic LDC were fabricated. 24 were artificially aged applying 3 different protocols up to a 20 year-simulation (1.2 × 106, 2.4 × 106, 4.8 × 106 chewing cycles, thermocycling), one control group underwent no artificial aging (N=32, n=8). Load-to-failure tests were conducted for all specimens and failure values were compared (p<0.05). All specimens passed in-vitro aging. Mean failure load values between 532.6 and 562.8 N were found but did neither differ significantly among the test groups nor from the control group. Within the limitations of this in-vitro pilot study, hybrid abutment crowns manufactured from monolithic LDC seem to offer appropriate long-lasting mechanical stability over a simulation period up to 20 years. The failure values and complication pattern seem to be independent of several aging protocols in this test set-up.