Marschall, Jeffrey S.Dutra, ViniciusFlint, Robert L.Kushner, George M.Alpert, BrianScarfe, WilliamAzevedo, Bruno2020-08-142020-08-142019-10Marschall, J. S., Dutra, V., Flint, R. L., Kushner, G. M., Alpert, B., Scarfe, W., & Azevedo, B. (2019). In-House Digital Workflow for the Management of Acute Mandible Fractures. Journal of Oral and Maxillofacial Surgery, 77(10), 2084.e1-2084.e9. https://doi.org/10.1016/j.joms.2019.05.027https://hdl.handle.net/1805/23610Computer-aided design and additive manufacturing are revolutionizing oral and maxillofacial surgery. Current methods use virtual surgical planning sessions and custom plate milling via third-party vendors, which is costly and time-consuming, negating the effectiveness in acute facial trauma. This technical note describes a state-of-the-art in-house expedited digital workflow for computer-aided virtual fracture reduction, 3-dimensional printing, and preoperative reconstruction plate adaptation for the management of an acute mandible fracture. This process uses the computed tomographic scan a patient receives in the emergency department or clinic. The DICOM (Digital Imaging and Communications in Medicine) data are transferred into US Food and Drug Administration–approved software, in which the fracture is segmented and virtually reduced based on condylar position, midline symmetries, and occlusion if present. The reduced mandible is then printed, which serves as a template for preoperative reconstruction plate adaptation. This method facilitates a virtually reduced fractured mandible, 3-dimensionally printed model, and ideally adapted plates ready for sterilization before surgery within 2 hours after DICOM upload.enPublisher Policyacute mandible fracturesdigital workflowadditive manufacturingArticle