Objective:To explore the computer-aided navigation technology combined with personalized three-dimensional(3D) printing in the reduction and fixation of the multiple midface fractures.Methods:A retrospective analysis was performed on clinical data of patients suffering from multiple midface fractures treated at the Department of Oral and Maxillofacial Surgery, the First Affiliated Hospital of Anhui Medical University from August 2019 to December 2021. According to the operational method, the patients in the experimental group received the operation applied by AccuNavi-A 2.1 navigation software for surgical planning and surgical simulation, printing 3D head model before the operation, and reducing and fixing fractures with the aid of computer navigation technology. Patients in the control group received the operation applied by traditional surgery. Marking facial landmarks on the head CT 3D model of patients and constructing a spatial coordinate system before and 1 week after surgery, measuring and calculating the facial asymmetry index (AI) for each landmark, including the orbitale (O), the most outside of the zygomaticomaxillary suture of the 1/3 below of the margo infraorbitalis(MZ), the most concave point between the frontal process of zygomatic bone and the superior margin of processus temporalis(C), the most concave point of the superjacent of C of posterior margin of frontal process(SC) and the outermost point of zygomatic arch(Z). The duration of operation were recorded. Complications including diplopia, difficulty in mouth opening, facial numbness, malocclusion, scarring and pupil height were evaluated by patents 3 months after the operations. AI is represented by M( Q1, Q3), Wilcoxon rank test was used for intra-group comparison before and after operations, and Mann-Whitney U test was used for comparison between two groups. Operation time was represented by Mean±SD, and t-test was used for comparison between two groups. The result of self-assessment of patients’ complications are expressed as cases (%), and the chi-square test or Fisher’s exact test was used. Results:A total of 32 patients were included. There were 16 patients in the experimental group, 9 males and 7 females, aged 17-60 years. There were 16 patients in the control group, 8 males and 8 females, aged 18-65 years. The preoperative O, MZ, C, SC, and Z point in the experimental group were 8.9(6.9, 12.8), 10.0(7.7, 12.6), 7.6(5.9, 14.9), 10.7(7.2, 22.0), 11.2(10.1, 17.4), and 2.2(1.6, 3.4), 2.5(1.7, 3.4), 2.2(1.9, 2.9), 2.6(1.7, 3.1), 2.4(1.4, 2.8). The preoperative O, MZ, C, SC, and Z point in control group were 10.4(8.1, 12.5), 10.5(9.0, 12.6), 6.6(5.3, 8.2), 10.6(8.7, 13.1), 10.9(9.8, 13.4), and the postoperative were 4.0(3.6, 4.8), 4.3(3.8, 5.4), 5.2(4.8, 6.7), 4.3(3.1, 5.1), 4.6(3.2, 5.3). There was no significant difference in AI of each marker point between the two groups before surgery ( P>0.05). The AI of each landmark in the two groups was reduced after operation compared with that before operation to some extent ( P<0.01 or 0.05). The AI of each landmark in the experimental group was significantly lower than that in the control group( P<0.01). The operation time of the experimental group[(3.7±1.1) h] was shorter than that of the control group[(4.8±1.9) h] ( P<0.05). The incidence of scar[12.5% (2/16)] and inconsistent pupil height[6.3% (1/16)] in the experimental group was lower than that in the control group [43.8% (7/16), 37.5% (6/16)] ( P<0.05). And there was no significant difference in other items ( P>0.05). Conclusions:The computer-aided navigation technology combined with personalized 3D printing can shorten the time of operation, expedite the patients’ facial recovery with more symmetry and less likely to have complications.

Objective This study aims to explore and evaluate internal fixation with double titanium plates in mandibular condylar fracture. Methods Twenty-eight patients with mandibular condylar fracture were treated by rigid internal fixation with double titanium plates. The effects of the treatment on occlusion, mouth opening, and titanium plate rupture were evaluated by pantomograms or 3D CT. Results Good retention was observed in all 28 patients with mandibular condylar fracture. Occlusion and mouth opening returned to normal. None of the patients experienced titanium plate rupture or fracture displacement. Two patients suffered from mild facial nerve injury but recovered within 3 months after neurotrophic drug treatment. Two patients suffered from temporo-mandibular joint disease but improved after plate removal. Conclusion Rigid internal fixation with double titanium plates is an ideal treatment for mandibular condylar fracture.

Objective:To explore the computer-aided navigation technology combined with personalized three-dimensional(3D) printing in the reduction and fixation of the multiple midface fractures.Methods:A retrospective analysis was performed on clinical data of patients suffering from multiple midface fractures treated at the Department of Oral and Maxillofacial Surgery, the First Affiliated Hospital of Anhui Medical University from August 2019 to December 2021. According to the operational method, the patients in the experimental group received the operation applied by AccuNavi-A 2.1 navigation software for surgical planning and surgical simulation, printing 3D head model before the operation, and reducing and fixing fractures with the aid of computer navigation technology. Patients in the control group received the operation applied by traditional surgery. Marking facial landmarks on the head CT 3D model of patients and constructing a spatial coordinate system before and 1 week after surgery, measuring and calculating the facial asymmetry index (AI) for each landmark, including the orbitale (O), the most outside of the zygomaticomaxillary suture of the 1/3 below of the margo infraorbitalis(MZ), the most concave point between the frontal process of zygomatic bone and the superior margin of processus temporalis(C), the most concave point of the superjacent of C of posterior margin of frontal process(SC) and the outermost point of zygomatic arch(Z). The duration of operation were recorded. Complications including diplopia, difficulty in mouth opening, facial numbness, malocclusion, scarring and pupil height were evaluated by patents 3 months after the operations. AI is represented by M( Q1, Q3), Wilcoxon rank test was used for intra-group comparison before and after operations, and Mann-Whitney U test was used for comparison between two groups. Operation time was represented by Mean±SD, and t-test was used for comparison between two groups. The result of self-assessment of patients’ complications are expressed as cases (%), and the chi-square test or Fisher’s exact test was used. Results:A total of 32 patients were included. There were 16 patients in the experimental group, 9 males and 7 females, aged 17-60 years. There were 16 patients in the control group, 8 males and 8 females, aged 18-65 years. The preoperative O, MZ, C, SC, and Z point in the experimental group were 8.9(6.9, 12.8), 10.0(7.7, 12.6), 7.6(5.9, 14.9), 10.7(7.2, 22.0), 11.2(10.1, 17.4), and 2.2(1.6, 3.4), 2.5(1.7, 3.4), 2.2(1.9, 2.9), 2.6(1.7, 3.1), 2.4(1.4, 2.8). The preoperative O, MZ, C, SC, and Z point in control group were 10.4(8.1, 12.5), 10.5(9.0, 12.6), 6.6(5.3, 8.2), 10.6(8.7, 13.1), 10.9(9.8, 13.4), and the postoperative were 4.0(3.6, 4.8), 4.3(3.8, 5.4), 5.2(4.8, 6.7), 4.3(3.1, 5.1), 4.6(3.2, 5.3). There was no significant difference in AI of each marker point between the two groups before surgery ( P>0.05). The AI of each landmark in the two groups was reduced after operation compared with that before operation to some extent ( P<0.01 or 0.05). The AI of each landmark in the experimental group was significantly lower than that in the control group( P<0.01). The operation time of the experimental group[(3.7±1.1) h] was shorter than that of the control group[(4.8±1.9) h] ( P<0.05). The incidence of scar[12.5% (2/16)] and inconsistent pupil height[6.3% (1/16)] in the experimental group was lower than that in the control group [43.8% (7/16), 37.5% (6/16)] ( P<0.05). And there was no significant difference in other items ( P>0.05). Conclusions:The computer-aided navigation technology combined with personalized 3D printing can shorten the time of operation, expedite the patients’ facial recovery with more symmetry and less likely to have complications.

Objective: To investigate the expression of transient receptor polycystic protein 2(TRPP2) in oral squamous epithelial cell and its effect on the invasion and migration of oral squamous cell carcinoma(OSCC), and to explore the potential signaling pathway of TRPP2 affecting OSCC metastasis. Methods: The OSCC model with TRPP2 knockdown was constructed by CRISPR-Cas9 lentivirus plasmid transfection technique. The effect of TRPP2 protein knockdown was verified by Western blot. The effect of TRPP2 on OSCC proliferation was detected by CCK-8 assay and clone formation assay. RT-qPCR was used to detect the target genes associated with TRPP2 metastasis to OSCC. Western blot and RT-qPCR were used to detect the expression of EpCAM and its transcription factors associated with unfolded protein response(UPR). The effects of TRPP2 on the invasion and migration of OSCC were examined by invasion test and scratch test. Results: Compared with HOK in oral epithelial cells, the expression of TRPP2 in OSCC was significantly higher. When TRPP2 was knocked down, OSCC proliferation and clonalformation were significantly enhanced. Compared with the control group, a total of 494 differential genes were significantly expressed in TRPP2 knockdown transcription profile, among which 234 genes were up-regulated and 260 genes were down-regulated. The expression of EpCAM gene, which is related to cell adhesion, was up-regulated. In addition, UPR related genes PERK, ATF6, GRP78 were up-regulated, while ATF6 and EpCAM were down-regulated in OSCC compared to HOK cells. The expression of ATF6 and EpCAM in oral squamous cell carcinoma cells was up-regulated by TRPP2 knockdown, and the cell migration and invasion ability decreased. The ATF6 inhibitor ceapin-A7(5 μmol/L) restored the OSCC migration and invasion ability of TRPP2 knockdown. Conclusion TRPP2 is highly expressed in OSCC. When TRPP2 is knocked down, OSCC proliferation ability is enhanced, migration and invasion ability are inhibited. TRPP2 mediates the expression of EpCAM through activation of UPR, thus affecting the invasion and migration of oral squamous cell carcinoma.