A 3D printed custom-made mask model for frameless neuronavigation during retrosigmoid craniotomy. A preclinical cadaveric feasibility study

Main Article Content

Pietro Canzi
Irene Avato
Stefania Marconi
Mattia Del Maestro
Alice Giotta Lucifero
Marianna Magnetto
Elena Carlotto
Ferdinando Auricchio
Sabino Luzzi
Marco Benazzo

Abstract

BACKGROUND: A 3D printing custom-made mask model was tested in terms of feasibility and accuracy for frameless neuronavigation during retrosigmoid approach.


METHODS: A virtual 3D model of a cadaveric injected head was obtained from a high-resolution Computed Tomography (CT) scan and 3D Printed (3DP). The course of the transverse and sigmoid sinus was marked. A transparent custommade 3DP mask model was created as a cast of 3D model. The area of the lateral sinuses was grooved to allow the surgeon to use the mask as a template to draw the course of the sinuses on the patient skull. A right retrosigmoid approach was performed on formalin-fixed injected cadaveric head. Inion and other conventional landmarks were used to mark the course of the sinuses. 3DP mask was used to re-mark the course of the sinuses. The mismatch between the landmarks-based and 3DP mask-based track was assumed as a measure of the accuracy of the 3DP mask model.


RESULTS: 3DP mask model resulted precise, feasible, easy and fast to use. A perfect interlocking with the retrosigmoid area was noted. Mismatch between the landmarks-based and 3DP mask-based track was of 4 and 6 mm for transverse and sigmoid sinus, respectively.


CONCLUSION: 3DP custom-made mask model is feasible, easily reproducible and reliable for the implementation of a frameless neuronavigation during retrosigmoid approach. Its accuracy is greater than that of the bone landmark neuronavigation. In selected cases, 3DP mask can be a valid option to image-guided optical or electromagnetic tracking systems.

Article Details

How to Cite
Canzi, Pietro, et al. “A 3D Printed Custom-Made Mask Model for Frameless Neuronavigation During Retrosigmoid Craniotomy. A Preclinical Cadaveric Feasibility Study”. Annali Italiani Di Chirurgia, vol. 91, no. 5, Sept. 2020, pp. 526-33, https://annaliitalianidichirurgia.it/index.php/aic/article/view/2497.
Section
Article