Evaluation of custom posts and cores fabricated by two digital technologies in core and post space dimensions.

Abstract

To evaluate the adaptability between posts and post spaces and the rationality of cores fabricated by two digital custom post-and-core processes. Titanium post-and-cores were fabricated by digital scanning impression technology or digital scanning wax-pattern technology on tooth defect molds of incisors, premolars, and molars, with traditional lost-wax casts of these teeth as the controls. Micro-CT and a laboratory scanner were used to determine intervals between post wall and root canal wall of the root apex, middle, and cervix of each sample in cross-, sagittal, and coronal sections; intervals between the end of post and tooth; diameters of cervical, middle, and incisal part at cross-, sagittal, and coronal sections of each sample, as well as shoulder widths. The three fabrication processes showed significant differences in intervals between post-and-core prostheses and root canal wall, diameters of all parts of cores, and shoulder widths. Scanning impressions showed significant advantages in the main part of post-and-cores in incisors and premolars, while the scanning wax-pattern process showed obvious inferiorities in premolars and molars. As to core spatial size, values of measured sites in the scanning impression process were closer to the standard than those of the traditional process, while differences between the measured value of the scanning wax-pattern process were much more obvious than in the traditional process. The use of digital custom post-and-core scanning impressions improved the rationality and precision of post-and-core dimensions compared with two other processes. This article is protected by copyright. All rights reserved.