[Effect of asymmetry elastic on the maturation of bone collagen and mineralization in condyle of adult SD rat].

PURPOSE: The aim of this investigation was to study the osteogenesis activation following asymmetric inter-maxillary elastic on the subchondral bone of adult SD rats. METHODS: Twenty SD ten-week old rats were used in this study (eight rats loading 0.39 N elastic force, another eight rats loading 1.18 N elastic force, the other four rats without loading as control group). The extra-joint device was fixed on the right side by surgery. Tetracycline, calcein and xylenol orange were intraperitoneally injected on one day before surgery, one day before device removal and one day before sacrifice. Masson trichrome staining and in vivo fluorescence technique were used to detect the osteogenesis. RESULTS: The results of bone collagen maturation and velocity of osteogenesis were different from the control group after force loading. Bone collagen showed better maturity in force-loading side and light force induced more active osteogenesis. CONCLUSIONS: The results suggest that even in the adult SD individuals, the subchondral bone still shows remodeling ability to adapt the various mechanical environments. Stress increases the maturity of bone collagen while rotation inhibits maturity. Mechanic force promotes the osteogenesis, especially the light force.

[Effect of asymmetry traction on the expression of type II collagen in adult rat condyle].

OBJECTIVE: The aim of this investigation was to study the expression of collagen type II in the cartilage of mandibular condyle following asymmetric inter-maxillary traction. METHODS: Two hundred and twenty SD rats were used in this study (one hundred and four rats loading 0.39 N elastic force, another one hundred and four rats loading 1.18 N elastic force, while twelve rats for control). The extra-joint device was fixed on the right side by surgery. Half of the experimental group was killed at 3, 7, 14, 28 days. The devices were removed at the 28th day in the rest rats, and the rats were sacrificed at 3, 7, 14, 28 days after removing the device. The type II collagen expression levels of all the joints were measured using immunohistochemical techniques. RESULTS: The positive expression of the type II collagen was mainly observed in the cytoplasm of chondrocyte, especially in maturative and hypertrophic layer. The expression intensity was different in different stages and different sides. Both of the two experimental groups showed the same tendency, while the changes in the light force group were more obviously than the heavy force group. In the right side (force-loading side), the type II collagen expression decreased at the early force-loading period. After the device was removed, the expressions increased immediately but then reach the lowest level. The expression almost recovered to normal level at the end of experiment. In the left side (none force-loading side), the expression remained increasing after force-loading and reached the peak at the 14th day. CONCLUSION: These results suggest that even in the adult individuals, the chondrocyte showed reaction to the mechanical force by altering type II collagen expression patterns and it may be the cause of the cartilage remolding after asymmetric inter-maxillary traction. A forward elastic force showed a depressant effect in matrix synthesis, and heavy force had stronger effect. But the rotation of condyle accelerated the matrix synthesis.