Plastic and Reconstructive Surgery, Global Open (Apr 2024)

In-and-out Technique: An In-house Efficient Predictive Hole Fabrication Workflow

  • Javier Asensio-Salazar, MD, MSc,
  • Alvaro Rivero Calle, MD,
  • Eduardo Olavarría Montes, MD,
  • Alejandro Delgado Fernández, MD,
  • Ignacio Zubillaga Rodríguez, MD, PhD,
  • Ramon Gutiérrez Díaz, MD,
  • Gregorio Sánchez Aniceto, MD, PhD

DOI
https://doi.org/10.1097/GOX.0000000000005702
Journal volume & issue
Vol. 12, no. 4
p. e5702

Abstract

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Summary:. Virtual surgical planning (VSP) and three-dimensional (3D) printing can increase precision and reduce surgical time in craniofacial reconstruction. However, the elevated cost and manufacturing time of outsourced workflows is increasing the development of in-house solutions. One of the main challenges in in-house workflows is to create cutting guides that hold plate position information. This is due to the fact that hospitals usually lack the infrastructure required to design and 3D print custom-made plates. Including plate-positioning information in resection guides is especially relevant in complex reconstructions and when tumor extension limits plate placement before resection. Current in-house workflows revolve around the idea of 3D scanning the bent plate’s shape and to fuse it with the VSP. The goal of this article is to share our technique to transfer plate position information to resection guides. Our protocol uses a 3D model of the reconstruction as an intermediate step to transfer the plate position of a bent stock reconstruction plate to cutting guides. Two patients who required mandibular reconstruction with fibula flap are presented to illustrate the technique. This workflow requires a 3D-printed model of the desired outcome, cutting guides, and a stock plate. Results were satisfactory in terms of cutting location and angulation, plate adaptation and condylar position. This technique allows for a simple, safe, cheap, and quick alternative to add reconstruction plate information to cutting guides.