BACKGROUND:Bilateral-sagitta-split-ramus-osteotomy (BSSRO) has become a conventional method to correct facial deformities, and the finite element method is a significant way to study biomechanics of the mandible and temporomandibular joint (TMJ) after BSSRO. OBJECTIVE: To establish a precise and high simulation model of mandible containing TMJ after BSSRO with internal fixation, which is the base to study the biomechanics of the mandible and TMJ after BSSRO. METHODS: Spiral CT scan was used to get the data of DICOM that were input into MIMICS to establish the three-dimensional model of the mandible. The three-dimensional model was wrapped into a single closed shel for mesh generation and conversion in ANSYS. Then, the model was input into the ANSYS software for temporomandibular joint reconstruction and simulation of BSSRO and internal fixation. RESULTS AND CONCLUSION: The three-dimensional finite element model of mandible containing TMJ after BSSRO was established using MIMICS and ANSYS. This model had biological similarity and geometric similarity in comparison with the human tissues. The model could undergo various internal fixations through antedisplacement, retroposition and rotational movement of the distal end. Based on different experimental purposes, the established model can apply a load to al parts to study changes in stress and displacement of different tissues after BSSRO and internal fixation, and it also can be used to study the effect of different fixation materials on the rear stability after internal fixation.

In order to characterize the biological activity of fox (Vulpes vulpes) interferon gamma(VuIFN-gamma), We have isolated the cDNA encoding arctic fox (Alopex lagopus) VuIFN-gamma. This cDNA encodes a 23 amino acid signal peptide and a 144 amino acid mature protein, which shares 99.8% or 99.4% for nucleotide identity with silver fox and canine, respectively, and 100% for amino acid identity. Expression of recombinant mature arctic fox interferon gamma (mVuIFN-gamma) in bacterial system was confirmed by SDS-PAGE and Western blotting analysis. Recombinant VuIFN-gamma showed higher antiviral activity against vesicular stomatitis virus in cultured Vero and MDCK by inhibiting virus induced cytopathic effect, In view of the immunomodulatory and antiviral activities of VuIFN-gamma, it may provide a basis for further research on antiviral therapy of recombinant VuIFN-gamma in economic animal practice.
Animals ; Antiviral Agents ; pharmacology ; Base Sequence ; Cloning, Molecular ; Escherichia coli ; genetics ; metabolism ; Foxes ; genetics ; Interferon-gamma ; genetics ; pharmacology ; Molecular Sequence Data ; Recombinant Fusion Proteins ; genetics ; pharmacology