Influence of the orientation of the Osstell^® transducer during measurement of dental implant stability using resonance frequency analysis: A numerical approach

Abstract 

Stability of dental implants is measured by means of the Osstell^® device using a method of resonance frequency analysis. The aim of the study was to evaluate the role of direction-dependence of the Osstell^® transducer. For this purpose, a set of parametrical finite element analyses has been used.

When rotating the transducer around the vertical axis the crucial phenomenon is the change in behavior of the system, which occurs in positions between 30° and 80° to the long axis of the alveolar crest. It seems from the presented results that, when measuring approximately perpendicularly to this long axis, the deviation from the ideal perpendicular position must not exceed 30°. In this case, the first resonance frequency is recorded. When measuring in the approximately parallel position to the long axis of the alveolar crest, the second resonance frequency is recorded. The deviation from the ideal parallel position must not exceed 10°. These values are not comparable with the previous ones.

Keywords: Resonance frequency analysis, Dental implants, Stability, Finite element analysis, Resonance frequency, Eigenfrequency