Purpose <p>For the first time, this study explores the transfer precision of computer aided design and computer aided manufacturing (CAD/CAM) in mandibular reconstruction with scapula free flaps (SFF).</p> Methods <p>Patients undergoing mandibular reconstruction with SFF and patient-specific 3D-printed titanium plates were retrospectively analyzed. To assess planning accuracy, pre- and postoperative datasets were overlaid using 3D Slicer software. Specific measurements included the fit at the mandibular resection site, intersegmental gap width between scapula and mandible, scapular segment positioning, and condylar alignment. Osseous union was evaluated via postoperative computed tomography (CT) or cone beam CT, and plate-related complications were recorded clinically.</p> Results <p>In total 15 patients (mean age 65.7 ± 10.0 years) were included. Postoperative scapular segment positioning showed deviations in the posterior region (basal: 6.78 ± 3.34&#xa0;mm; crestal: 7.61 ± 3.40&#xa0;mm) and anterior region (basal: 3.54 ± 1.52&#xa0;mm; crestal: 4.49 ± 2.51&#xa0;mm). Mean deviation in segmental gap width at the anterior and posterior sites ranged from 0.55 to 1.72&#xa0;mm and was statistically significant at all four measurements. Mean contralateral condyle position differed significantly from the initial position (8.56 ± 4.31&#xa0;mm). Intraoral plate exposure occurred in three patients without adjuvant radiotherapy; no extraoral exposure, fractures, or loosening were observed. Non-union between the mandible and SFF was found in three patients.</p> Conclusion <p>As with other CAD/CAM-assisted mandibular reconstructions, SFF exhibit discrepancies between virtual planning and the postoperative outcome. The surrounding soft tissue bulk of the scapula can hinder the precise fit of cutting guides, potentially compromising reconstruction accuracy and contributing to increased deviations. Despite these challenges, CAD/CAM-assisted SFF demonstrates acceptable surgical predictability.</p>

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Accuracy of CAD/CAM planned mandibular reconstruction with scapula free flaps in reconstructive head and neck surgery – A single center study

  • Jonas Wüster,
  • Max Brandenburg,
  • Tim Lukas Elter,
  • Norbert Neckel,
  • Jakob Fenske,
  • Christian Doll,
  • Carsten Rendenbach,
  • Max Heiland,
  • Claudius Steffen,
  • Kilian Kreutzer,
  • Steffen Koerdt

摘要

Purpose

For the first time, this study explores the transfer precision of computer aided design and computer aided manufacturing (CAD/CAM) in mandibular reconstruction with scapula free flaps (SFF).

Methods

Patients undergoing mandibular reconstruction with SFF and patient-specific 3D-printed titanium plates were retrospectively analyzed. To assess planning accuracy, pre- and postoperative datasets were overlaid using 3D Slicer software. Specific measurements included the fit at the mandibular resection site, intersegmental gap width between scapula and mandible, scapular segment positioning, and condylar alignment. Osseous union was evaluated via postoperative computed tomography (CT) or cone beam CT, and plate-related complications were recorded clinically.

Results

In total 15 patients (mean age 65.7 ± 10.0 years) were included. Postoperative scapular segment positioning showed deviations in the posterior region (basal: 6.78 ± 3.34 mm; crestal: 7.61 ± 3.40 mm) and anterior region (basal: 3.54 ± 1.52 mm; crestal: 4.49 ± 2.51 mm). Mean deviation in segmental gap width at the anterior and posterior sites ranged from 0.55 to 1.72 mm and was statistically significant at all four measurements. Mean contralateral condyle position differed significantly from the initial position (8.56 ± 4.31 mm). Intraoral plate exposure occurred in three patients without adjuvant radiotherapy; no extraoral exposure, fractures, or loosening were observed. Non-union between the mandible and SFF was found in three patients.

Conclusion

As with other CAD/CAM-assisted mandibular reconstructions, SFF exhibit discrepancies between virtual planning and the postoperative outcome. The surrounding soft tissue bulk of the scapula can hinder the precise fit of cutting guides, potentially compromising reconstruction accuracy and contributing to increased deviations. Despite these challenges, CAD/CAM-assisted SFF demonstrates acceptable surgical predictability.