Dynamic changes in bone metabolism in the rat temporomandibular joint after molar extraction using bone scintigraphy.

Functional adaptation with reformation of bone tissue structure occurs after changes in mechanical stress distribution. To examine how occlusal changes affect the dynamics of bone metabolism in the mandibular condyle, bone scintigraphy of rat condyles was taken using (99m)technetium-methylene-diphosphonate (99mTc-MDP) after extraction of maxillary molars resulting in unilateral loss of occlusal support. Accumulation of 99mTc-MDP was significantly higher in the condyles on the extracted side than on the intact side 3 d after molar extraction. In addition, bone mineral density (BMD) and osteoprotegerin expression in extracted-side condyles were significantly increased while osteoclast numbers were significantly decreased when compared with intact-side condyles. These differences were not detected 28 d after molar extraction. These findings suggest that occlusal change transiently results in changes in the dynamics of bone metabolism at the mandibular condyles through the downregulation of osteoclastogenesis. These changes may be involved in functional adaptation of the temporomandibular joint.