The Morphology of the Peri-Implantitis Defects: A Cone-Beam Computed Analysis

Nowadays, several radiographic techniques are available to investigate the peri-implant bone morphology by two-dimensional radiographs such as panoramic radiography and intraoral radiography, or three-dimensional techniques such as computer tomography and cone beam computer tomography (CBCT) (Harris et al. 2012). CBCT provides high-contrast 3D visualization of bone beds; however, artifacts caused by the metallic character of implants could disguise information around implants. The diagnostic outcomes of CBCT imaging of peri-implant bone loss have been related to the type of study and defect morphology (Pelekos et al., 2018). The ex vivo studies (cadaver models), considering sensitivity and specificity reported good values for both circumferential and infrabony defects but lower for dehiscences (de-Azevedo-Vaz et al., 2013, Kamburoglu et al., 2013). Contrastingly, CBCT imaging for defect analysis in animal studies showed positive correlation with histology but tend to overestimate (Fienitz et al., 2012, Golubovic et al., 2012) or underestimate (Corpas Ldos et al., 2011, Ritter et al., 2014) the size of the defect. This variability in the measurement is mainly dependent on the different configuration, location or size of the defect. and also by the scattering, beam hardening artifacts, energy settings, exposure time, field of view.

Hence, it is aimed at assessing the morphology of the peri-implant defects using CBCT