PURPOSE: Micro-computed tomography enables continuous and dynamic observation of the three-dimensional morphology of small structures. We observed morphological changes of the temporomandibular joint condyle under mandibular deviation continuously in an animal model by micro-computed tomography. METHODS: Twelve Dutch rabbits were used (9 as experimental and 3 as control). In the experimental rabbits, the mandible was deviated posteriorly on the left side using an elastic band. Bilateral temporomandibular joints were scanned by micro-computed tomography preoperatively and at 3, 6, and 12 weeks after the operation. Histopathological examination was also carried out to confirm the changes. RESULTS: It was shown that mandibular deviation induces condyle resorption in either ipsilateral or contralateral temporomandibular joint, which consequently makes the condyle smaller. Bone resorption settled down earlier in the contralateral joint and the quantity of bone resorption on the contralateral side was smaller than on the experimental side. Histopathological examination also showed destructive bone changes in the condyle, although they could not completely reflect the morphological changes. CONCLUSIONS: These results suggested that reduction of the condylar size occurred as an adaptive change to mandibular deviation.
PURPOSE: Micro-computed tomography enables continuous and dynamic observation of the three-dimensional morphology of small structures. We observed morphological changes of the temporomandibular joint condyle under mandibular deviation continuously in an animal model by micro-computed tomography. METHODS: Twelve Dutch rabbits were used (9 as experimental and 3 as control). In the experimental rabbits, the mandible was deviated posteriorly on the left side using an elastic band. Bilateral temporomandibular joints were scanned by micro-computed tomography preoperatively and at 3, 6, and 12 weeks after the operation. Histopathological examination was also carried out to confirm the changes. RESULTS: It was shown that mandibular deviation induces condyle resorption in either ipsilateral or contralateral temporomandibular joint, which consequently makes the condyle smaller. Bone resorption settled down earlier in the contralateral joint and the quantity of bone resorption on the contralateral side was smaller than on the experimental side. Histopathological examination also showed destructive bone changes in the condyle, although they could not completely reflect the morphological changes. CONCLUSIONS: These results suggested that reduction of the condylar size occurred as an adaptive change to mandibular deviation.
Authors: Katherine L Rafferty; Zi Jun Liu; Wenmin Ye; Alfonso L Navarrete; Thao Tuong Nguyen; Atriya Salamati; Susan W Herring Journal: Bone Date: 2011-12-02 Impact factor: 4.398