UNLABELLED: Abstract Introduction: Computer-guided navigation has proven a valuable tool in several surgical disciplines. During oral implant placement, its application is intended to accomplish optimal implant localization and to reduce the risk of damage to adjacent structures. The aim of this study was to compare the precision limits of conventional vs. navigated implant insertion in practice. MATERIALS AND METHODS: In cast models of the maxilla, implants were inserted to replace the left central incisor (n = 40) and the right canine (n = 40); each of those were inserted either conventionally (n = 20) or navigated (n = 20). Implant position, angulation and insertion depth were calculated from computer tomography scans of the implants that were connected to an index abutment of 40 cm length. RESULTS: The variations of implant positions were reduced for implants that were inserted by navigation (P < 0.05). In both the axial and the transversal plane, the variations of implant angulations were reduced for implants that were inserted by a navigation protocol (P < 0.05). The variations of insertion depth were less (P < 0.05) when the implants were placed by navigation in comparison with conventional insertion procedures. CONCLUSIONS: Given the experimental conditions, although they tried to mimic a clinical situation, no final conclusions can be drawn. The in vitro application of a navigation system resulted in an improved precision of insertion surgery regarding the position, angulation and depth of an implant. Clinical studies will have to prove if routine image guidance will result in superior surgical outcome.
UNLABELLED: Abstract Introduction: Computer-guided navigation has proven a valuable tool in several surgical disciplines. During oral implant placement, its application is intended to accomplish optimal implant localization and to reduce the risk of damage to adjacent structures. The aim of this study was to compare the precision limits of conventional vs. navigated implant insertion in practice. MATERIALS AND METHODS: In cast models of the maxilla, implants were inserted to replace the left central incisor (n = 40) and the right canine (n = 40); each of those were inserted either conventionally (n = 20) or navigated (n = 20). Implant position, angulation and insertion depth were calculated from computer tomography scans of the implants that were connected to an index abutment of 40 cm length. RESULTS: The variations of implant positions were reduced for implants that were inserted by navigation (P < 0.05). In both the axial and the transversal plane, the variations of implant angulations were reduced for implants that were inserted by a navigation protocol (P < 0.05). The variations of insertion depth were less (P < 0.05) when the implants were placed by navigation in comparison with conventional insertion procedures. CONCLUSIONS: Given the experimental conditions, although they tried to mimic a clinical situation, no final conclusions can be drawn. The in vitro application of a navigation system resulted in an improved precision of insertion surgery regarding the position, angulation and depth of an implant. Clinical studies will have to prove if routine image guidance will result in superior surgical outcome.
Authors: Cornelia Edelmann; Martin Wetzel; Anne Knipper; Ralph G Luthardt; Sigmar Schnutenhaus Journal: J Clin Med Date: 2021-04-21 Impact factor: 4.241
Authors: Robert Stünkel; Alexander-Nicolai Zeller; Thomas Bohne; Florian Böhrnsen; Edris Wedi; David Raschke; Philipp Kauffmann Journal: Int J Implant Dent Date: 2022-10-06
Authors: Sigmar Schnutenhaus; Anne Knipper; Martin Wetzel; Cornelia Edelmann; Ralph Luthardt Journal: Int J Environ Res Public Health Date: 2021-03-21 Impact factor: 3.390