Prediction of surface area size in orbital floor and medial orbital wall fractures based on topographical subregions

Carl-Peter Cornelius; Tobias Stiebler; Peter Mayer; Wenko Smolka; Christoph Kunz; Beat Hammer; Claude Jaquiéry C; Carlos Buitrago-Téllez; Christoph Sebastian Leiggener; Marc Christian Metzger; Frank Wilde; Laurent Audigé; Monika Probst; Edward Bradley Strong; Noemi Castelletti; Joachim Prein; Florian Andreas Probst

doi:10.1016/j.jcms.2020.07.010

Prediction of surface area size in orbital floor and medial orbital wall fractures based on topographical subregions

J Craniomaxillofac Surg. 2021 Jul;49(7):598-612. doi: 10.1016/j.jcms.2020.07.010. Epub 2020 Jul 27.

Authors

Carl-Peter Cornelius¹, Tobias Stiebler¹, Peter Mayer¹, Wenko Smolka¹, Christoph Kunz², Beat Hammer³, Claude Jaquiéry C², Carlos Buitrago-Téllez⁴, Christoph Sebastian Leiggener⁵, Marc Christian Metzger⁶, Frank Wilde⁷, Laurent Audigé⁸, Monika Probst⁹, Edward Bradley Strong¹⁰, Noemi Castelletti¹¹, Joachim Prein², Florian Andreas Probst¹²

Affiliations

¹ Department of Oral and Maxillofacial Surgery and Facial Plastic Surgery, University Hospital, Munich, Germany.
² Clinic for Craniomaxillofacial and Oral Surgery, University Hospital, Basel, Switzerland.
³ Craniofacial Center (CFC) Hirslanden Medical Center Aarau, Switzerland.
⁴ Institute for Medical Radiology, IMR, Solothurner Hospitals AG, Switzerland.
⁵ Department of Oral and Maxillofacial Surgery, Kantonsspital Aarau, Switzerland.
⁶ Department of Oral and Craniomaxillofacial Surgery, Center for Dental Medicine, University Medical Center Freiburg, Germany.
⁷ Department of Oral and Plastic Maxillofacial Surgery, Armed Forces Hospital and University Hospital Ulm, Germany.
⁸ Statistical Research and Development, Schulthess Clinic, Upper Extremities, Zürich, Switzerland.
⁹ Department of Diagnostic and Interventional Neuroradiology, Medical School Munich, Klinikum Rechts der Isar, Technische Universität München, Munich, Germany.
¹⁰ Department of Otolaryngology, University of California, Davis Medical Center, USA.
¹¹ Statistical Consulting Unit StaBLab, Department of Statistics, Ludwig-Maximilians-University, Munich, Germany.
¹² Department of Oral and Maxillofacial Surgery and Facial Plastic Surgery, University Hospital, Munich, Germany. Electronic address: florian.probst@med.uni-muenchen.de.

PMID: 34020871
DOI: 10.1016/j.jcms.2020.07.010

Abstract

Objective: This retrospective study evaluates the occurrence and frequency of different fracture patterns in a series of computed tomography (CT) scans in terms of the AOCMF Trauma Classification (TC) orbit module and correlates the assigned defects with measurements of the fracture area in order to get an approximate guideline for fracture size predictions on the basis of the classification.

Material and methods: CT scans of patients with orbital floor fractures were evaluated using the AOCMFTC to determine the topographical subregions. The coding consisted of: W = orbital wall, 1 = anterior orbit, 2 = midorbit, i = inferior, m = medial. The 3-dimensional surface area size of the fractures was quantified by the "defect body" method (Brainlab, Munich, Germany). The fracture area size and its confidence and prediction interval within each topographical subregion was estimated by regression analysis.

Results: A total of 137 CT scans exhibited 145 orbital floor fractures, which were combined with 34 medial orbital wall fractures in 31 patients. The floor fractures - W1(i)2(i) (n = 86) and W1(i) (n = 19) were the most frequent patterns. Combined floor and medial wall fractures most frequently corresponded to the pattern W1 (im)2 (im) (n = 15) ahead of W1 (im) 2(i) (n = 10). The surface area size ranged from 0.11 cm² to 6.09 cm² for orbital floor and from 0.29 cm² to 5.43 cm² for medial wall fractures. The prediction values of the mean fracture area size within the subregions were computed as follows: W1(i) = 2.25 cm², W2(i) = 1.64 cm², W1(i)2(i) = 3.10 cm², W1(m) = 1.36 cm², W2(m) = 1.65 cm², W1(m)2(m) = 2.98 cm², W1 (im) = 3.35 cm², W1 (im) 2(i) = 4.63 cm², W1 (im)2(m) = 4.06 cm² and W1 (im)2 (im) = 7.16 cm².

Conclusion: The AOCMFTC orbital module offers a suitable framework for topographical allocation of fracture patterns inside the infero-medial orbital cavity. The involvement of the subregions is of predictive value providing estimations of the mean 3-D fracture area size.

Keywords: AO CMF Trauma classification; Orbital wall fractures; Surface area size.

MeSH terms

Germany
Humans
Orbit* / diagnostic imaging
Orbital Fractures* / diagnostic imaging
Retrospective Studies
Tomography, X-Ray Computed