Abstract
ObjectiveEvaluate the effect of implant connection designs on reliability and failure modes of screw-retained all-ceramic crowns. MethodsCentral incisor ceramic crowns in zirconia abutments were screwed and torqued down to external hexagon (EH), internal hexagon (IH) and Morse taper (MT) implant systems. Single-load-to-fracture (SLF) test (n=4 per group) determined three step-stress fatigue profiles with specimens assigned in the ratio of 3:2:1. Fatigue test was performed under water at 10Hz. Use level probability Weibull curves and reliability for missions of 50,000 cycles at 400N and 200N were calculated (90% confidence bounds-CB). Weibull probability distribution (90% CB) was plotted (Weibull modulus vs characteristic strength) for comparison between the groups. Fractographic analyses were conducted under polarized-light microscopy and SEM. ResultsUse level Weibull probability calculation indicated that failure was not associated with fatigue in groups EH (β=0.63), IH (β=0.97) and MT (β=0.19). Reliability data for a mission of 50,000 cycles at 400N revealed significant reliability differences between groups EH (97%), IH (46%) and MT (0.5%) but no significant difference at 200N between EH (100%) and IH (98%), and IH and MT (89%). Weibull strength distribution (figure) revealed β=13.1/η=561.8 for EH, β=5.8/η=513.4 for IH and β=5.3/η=333.2 for MT. Groups EH and IH exhibited veneer cohesive and adhesive failures. Group IH also presented adhesive failure at zirconia/titanium abutment insert while MT showed fracture at abutment neck. SignificanceAlthough group EH presented higher reliability and characteristic strength followed by IH and MT, all groups withstood reported mean anterior loads.
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