“Black bone”: the new backbone in CAD/CAM-assisted craniosynostosis surgery?

Background Computer-assisted design and manufacturing (CAD/CAM) techniques have been implemented in craniosynostosis surgery to facilitate cranial remodeling. However, until now, computed tomography (CT) scans with ionizing radiation were necessary to plan the procedure and create guiding templates....

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Bibliographic Details
Published in:Acta neurochirurgica 2021-06, Vol.163 (6), p.1735-1741
Main Authors: Lethaus, Bernd, Gruichev, Dimitar, Gräfe, Daniel, Bartella, Alexander K., Hahnel, Sebastian, Yovev, Tsanko, Pausch, Niels Christian, Krause, Matthias
Format: Article
Language:English
Subjects:
Bone imaging
Bone surgery
Computed tomography
Cranial sutures
Craniosynostosis
Interventional Radiology
Ionizing radiation
Magnetic resonance imaging
Medicine
Medicine & Public Health
Minimally Invasive Surgery
Neurology
Neuroradiology
Neurosurgery
Original - Pediatric Neurosurgery
Original Article - Pediatric Neurosurgery
Patients
Pediatric Neurosurgery
Planning
Radiation
Skull
Surgery
Surgical Orthopedics
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Summary:Background Computer-assisted design and manufacturing (CAD/CAM) techniques have been implemented in craniosynostosis surgery to facilitate cranial remodeling. However, until now, computed tomography (CT) scans with ionizing radiation were necessary to plan the procedure and create guiding templates. The purpose of this study was to present our series using CAD/CAM techniques in planning and conducting fronto-orbital advancement surgery in patients with trigonocephaly with datasets acquired only by “black bone” magnetic resonance imaging (MRI). Methods Six consecutively operated cases from 2019 were included in this study. All patients suffered from non-syndromic trigonocephaly with no primary surgeries. All patients underwent cranial MRI including black bone sequences. Preoperative planning and guides were created based on the DICOM datasets. We analyzed demographic data, clinical data, and outcome measured by Whitaker score. Results In all cases, precise frontobasal advancement was possible with the CAD/CAM guides created by black bone MRI. The mean operation time and planning time were 222 and 32 min. The time on intensive and intermediate care unit (ICU/IMC) time was 4.5 days, respectively. All but one case were classified as Whitaker I. Conclusion In trigonocephaly treatment by frontobasal advancement, black bone MRI-based CAD/CAM craniosynostosis surgery is safe and feasible. It offers the major advantage of completely avoiding CT scans and ionizing radiation with superior imaging quality of intracranial structures. Thus, it improves intraoperative safety and—at the same time—has the potential to reduce operating room (OR) time.
ISSN:0001-6268
0942-0940
DOI:10.1007/s00701-020-04445-z