Fatigue lifetime of reduced-diameter implants placed in different bone models.

This study assessed the fatigue lifetime of reduced-diameter implants placed in either bovine rib or polymer-based bone model. Bovine ribs were classified according to the criteria proposed by Lekholm and Zarb and were analyzed for bone fraction. Fourteen dental implants (3.25 mm in diameter × 15 mm in length) were placed in bovine ribs used as a bone model. They were subjected to resonance frequency analysis. Stainless steel loading hemisphere caps were bonded on the abutments position at 30-degree angle and with a moment arm of 11 mm. Accelerated life testing using the step-stress method was conducted at 2 Hz with a stress ratio of 0.1 until fracture on a servo-hydraulic load frames machine (MTS). Results were compared with those of a previous study wherein implants were placed in a polymer-based bone model. Fatigue lifetime statistics (characteristic lifetime and Weibull modulus) of physical specimens were estimated in a reliability analysis software (ALTA PRO). Fractured specimens were examined under an electron scanning microscope to determine the failure mode. The implants exhibited high stability quotient values (75.07 ± 3.81). Implants placed in bovine ribs showed better data dispersion and longer fatigue lifetime than those placed in polymer-based bone models, with no significant difference between groups. All fractures occurred in the implant body near the bone level and were indicative of fatigue fractures. Bovine ribs appear to be a more suitable material for accelerated life testing than the polymer-based material because of better data dispersion. • Fatigue is an adequate method to simulate the oral service of dental implants. • The density and quality of bovine ribs are similar to human bone tissue. • Bovine ribs showed high resistance to fatigue. [ABSTRACT FROM AUTHOR]