Accuracy Improvement of Intraoral Scanning and Buccal Bite Registration Using Healing Abutment as Landmarks: An In Vitro Study
Accuracy Improvement of Intraoral Scanning and Buccal Bite Registration Using Healing Abutment as Landmarks: An In Vitro Study
This study investigated how the presence of a healing abutment at an implant site influences the accuracy of intraoral scanning and buccal bite registration across three commercial intraoral scanners. Quadrant maxillary and mandibular models with varying missing tooth locations were digitized with and without healing abutments connected, using Trios 3, CS3600, and i500 scanners against a laboratory scanner reference. Three-way ANOVA and trend analysis were applied to evaluate the effects of scanner type, missing tooth location, and healing abutment presence on linear distortion across the arch span. Contrary to expectation, healing abutment connection was associated with significantly improved scanning accuracy, while anterior-to-posterior distortion trends were observed with two of the three scanners tested. These findings provide clinically relevant insight into scan timing and healing abutment management during the implant prosthetic workflow.
This study investigated how the presence of a healing abutment at an implant site influences the accuracy of intraoral scanning and buccal bite registration across three commercial intraoral scanners. Quadrant maxillary and mandibular models with varying missing tooth locations were digitized with and without healing abutments connected, using Trios 3, CS3600, and i500 scanners against a laboratory scanner reference. Three-way ANOVA and trend analysis were applied to evaluate the effects of scanner type, missing tooth location, and healing abutment presence on linear distortion across the arch span. Contrary to expectation, healing abutment connection was associated with significantly improved scanning accuracy, while anterior-to-posterior distortion trends were observed with two of the three scanners tested. These findings provide clinically relevant insight into scan timing and healing abutment management during the implant prosthetic workflow.
This study aimed to determine the influence of the healing abutment (HA), placed at the implant placement site, on the accuracy of intraoral scanning and buccal bite registration in quadrant maxillary and mandibular models when using three types of intraoral scanner (IOS) and elucidate the distribution of arch distortion. Six experimental groups based on whether the HA was connected and the location of missing teeth were digitized using one laboratory scanner (Identica T500) and three IOSs (Trios 3, CS3600, and i500). Three-way ANOVA was used to analyze the effects of the scanner, location and number of missing teeth, and HA using Tukey investigation analyses for multiple comparisons (α = 0.05). Linear distances between hemispheres from the upper and lower arches were analyzed using the Jonckheere–Terpstra trend test to investigate the tendency of distortion from anterior to posterior tooth positions (α = 0.05). The accuracy of IOSs in groups with HAs was found significantly more accurate than groups without HAs. There was a significant trend in distortion from anterior to posterior tooth positions when using the Trios 3 and i500 IOSs. The scanning accuracy was affected by the presence of an HA, and the distortion along with the arch span may vary with the IOS utilized.
