Análise da acurácia e precisão em protocolos de escaneamento digital intraoral em duas angulações do plano oclusal

Abstract

Digital intraoral scanning has been widely used in dentistry as an alternative to conventional molding methods, making it relevant to study the process of obtaining images in order to improve it. Thus, the present in vitro study aimed to analyze the accuracy and precision of intraoral digital scanning protocols in upper and lower complete arches at 90° and 120° angles of the occlusal plane in relation to the ground. For this purpose, a dental model was initially scanned by a laboratory scanner, Ceramill Map400, to create a reference model of both arches. Subsequently, 10 intraoral digital scanning protocols, n= 10, were performed using an intraoral digital scanner: TRIOS 3, 3 SHAPE; in both arches of the same model mentioned above, but now mounted on a patient simulator. The files obtained from each protocol group were compared by overlaying the reference file in the 3D Geomagic Design X software, resulting in a mean square error (RMS) value for both the lower arch and the upper arch. Statistical analysis was performed using Jamovi software, with regression test by linear models with post hoc adjusted with Bonferroni, p value 0.05. In the upper arch, the angulation showed no influence on RMS. Only P1 showed a significant difference in relation to the protocol, with higher RMS values. In the scanning time, P4 was greater than P1, P2 and P3. Already P2, smaller than P4 and P5. In the lower arch P1 showed higher RMS, in both inclinations. On the other hand, P2 at 120° revealed higher RMS compared to P3, P4 and P5 at 90°; as well as that of P3 at 120°. P2 showed the lowest time values and P5 the highest number of images. It is concluded that there was an influence of the scanning protocol and the angulation of the occlusal plane on the accuracy of the digital models, in particular cases. With the analysis, P4 at 90° proved to be interesting to be performed in the mandible and P2 in the maxilla. There was no difference in precision of the analyzed protocols.