Real-time intraoperative computed tomography can accurize virtual surgical planning on the double-barrel fibular flap for mandibular reconstruction

Real-time intraoperative computed tomography created the accuracy of less than 1 mm deviation in virtual surgical planning double barrel fibular flap for mandibular reconstruction-the symbiosis of intelligent technology in a digital OR. Background: With the intelligent technology of virtual surgical planning, CAD/CAM, and intraoperative CT(iCT) in a digital OR, the secondary mandibular defect or primary amelobalstoma mandibulectomy can be restored using double barrel fibula and be achieved precision medicine purpose. Material and Method: A series of 7 patients underwent free flap for oral cancers who sustained 5 osteoradionecrosis, 2 segmental mandibular defect, and 2 ameloblastoma. They received 9 double barrel fibula flap and 2 free skin flaptransfers. The fibula flap were reconstructed using a virtual surgical planning including CAD/CAM for simulation 3D model, cutting guides for recipient sites and fibulas osteotomy, and iCT for image fusion in a digital OR. Result: The mandibular defect was 5–16 cm (average: 9.56 cm), and 2–5 fibular struts for double barrel fibula (average: 3.67 struts) image fusion. One vein graft for artery was required and all 11 flaps were transferred successfully without reexploration. Six patients had intraoperative revision of the fibula and plate to improve the onlay image fusion volume from 74.71 to 82.57%. The postoperative inter-incisor midline deviation was less than 2 mm in 5 patients, and well reduction image in 4 edentulous patients. Five landmarks including bilateral condyles, bilateral gonions, and gnathion demonstrated deviation less than 1 mm in average. Conclusion: CAD/CAM can allow a practical virtual surgery to restore mandibular defect reconstruction using a double barrel fibula. The symbiosis of intelligent technology in a digital OR, the iCT can promote the accuracy of mandibular spatialframework and occlusion plain.