Bioengineering (Jul 2023)

Effect of Fabrication Technology on the Accuracy of Surgical Guides for Dental-Implant Surgery

  • Lucio Lo Russo,
  • Laura Guida,
  • Pierluigi Mariani,
  • Vincenzo Ronsivalle,
  • Crescenzio Gallo,
  • Marco Cicciù,
  • Luigi Laino

DOI
https://doi.org/10.3390/bioengineering10070875
Journal volume & issue
Vol. 10, no. 7
p. 875

Abstract

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Background: The accuracy of surgical guides is a relevant factor in both surgical safety and prosthetic implications. The impact of widespread fabrication technologies (milling and 3D printing) was investigated. Methods: Surgical guides manufactured by means of two specific milling and 3D-printing systems were digitized and compared in a 3D analysis with the digital file of the designed guides. The surface mean 3D distance (at the surface where the teeth and mucosa made contact) and the axial and linear deviations of the sleeves’ housings were measured by means of a metrological software program. Univariate and multivariate statistical analyses were used to investigate the effects of the fabrication technology, type of support, and arch type on the surgical guides’ accuracy. Results: The median deviations of the intaglio surface in contact with the mucosa were significantly (p p = 0.011) (the milling exhibited better results), the type of support (p p = 0.003). The linear deviation (medians of 0.12 mm for the milling and 0.21 mm for the 3D printing) of their center points was significantly affected by the type of support (p = 0.001), with the milling performing slightly better than the 3D printing. Conclusions: The magnitude of the difference might account for a limited clinical significance.

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