Dental Implant positioning accuracy of AR-based dynamic navigation superior to free-hand approach: Study
Implant positioning accuracy of AR-based dynamic navigation was comparable to that of static CAIS and superior to that obtained by the free-hand approach according to a recent study published in the Journal of Dentistry. This in vitro study aimed to compare the accuracy of implant placement in model surgeries carried out by the implementation of three different methods. An in...
Implant positioning accuracy of AR-based dynamic navigation was comparable to that of static CAIS and superior to that obtained by the free-hand approach according to a recent study published in the Journal of Dentistry.
This in vitro study aimed to compare the accuracy of implant placement in model surgeries carried out by the implementation of three different methods.
An in vitro study was conducted on 3D printed study models randomly assigned to three study groups. In Group 1, model surgeries were assisted by augmented reality (AR)based dynamic navigation (Innooral System, Innoimplant Ltd, Budapest, Hungary). In Group 2, implants were placed with a free-hand method, and in Group 3, static Computer-Assisted Implant Surgery (CAIS) was used (coDiagnostiX software, version 10.4 Dental Wings, Montreal, CA, USA). A total of 48 dental implants (Callus Pro, Callus Implant Solutions GmbH, Hamburg, Germany) were placed (16 implants in four models per study group). The primary outcome variables were angular deviation, coronal, and apical global deviation. These were calculated for all implants based on preoperative registration of the surgical plan and postoperative cone-beam computed tomography (CBCT) reconstruction.
Results of the study are:
The accuracy of implant placement using AR-based dynamic navigation showed no significant difference compared to static CAIS (angular deviation, 4.09 ± 2.79° and 3.21 ± 1.52°; coronal deviation, 1.27 ± 0.40 mm and 1.31 ± 0.42 mm; and apical global deviation 1.34 ± 0.41 mm and 1.38 ± 0.41 mm). Global deviation results were significantly lower with AR-based dynamic navigation than with the free-hand approach (coronal and apical global deviation of 1.93 ± 0.79 mm and 2.28 ± 0.74 mm, respectively).
Implementing Augmented Reality based dynamic Computer-Assisted Implant Surgery (CAIS) in model surgeries may allow obtaining an implant positioning accuracy comparable to that provided by static CAIS, and superior to that obtained through the free-hand approach. Further clinical studies are necessary to determine the feasibility of AR-based dynamic navigation.
Thus, the Implant positioning accuracy of AR-based dynamic navigation was comparable to that of static CAIS and superior to that obtained by the free-hand approach.
Reference:
Accuracy of dental implant placement using augmented reality-based navigation, static computer-assisted implant surgery, and the free-hand method by Márton Kivovics et al. published in the Journal of Dentistry.
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