Özet:

The re-formation of bone tissue is characterized as a cyclic and long process. It is believed that these dynamics are not triggered by a biological process, but also biochemical, electrical and mechanical stimulants are key factors in ensuring the continuity of bone tissue. In this study, based on the hypothesis that low-energy laser (DEL) and T. Cubensis Extract (TCE) applications can support bone repair, we aimed to reveal the effects on Osteokalsin (OC) and Osteonectin (ON) expression intensities, which are the indicators of bone healing and mineralization. In the study, a total of 54 male rabbits of 6-8 months (2,5-3 kg) provided from the Dicle University Experimental Animals Unit were used. The rabbits were divided into 3 main application groups, which will be 18 in each group after the operation. After the operation, the DEL and TCE bone defect were applied to the created area. Immunohistochemical method was applied to determine the localizations and expressions of OC and ON in the defective area in the cracks obtained from the bone tissue that was defective in the rabbits. The cortical and spongiotic bones have been identified that, parallel to the secondary bone formation, the OC and ON expressions are varied. It was found that the OC expression in the DEL and TCE groups was higher than the control group. On the 7th, 21st and 28th days in the control group, the ON expressions are relatively weak and similar, but on the 7th and 21th days in the DEL and TCE groups, the ON expressions are relatively weak, 28. On the day, he noticed that the expression was high. As a result, the low-energy laser and t. cubensis applications in the rabbit bone defect model showed that OC and ON expressions increased during bone healing and that the gradual increase in OC and ON expressions according to the application days may have significant potential in supporting early bone healing.

Anahtar Kelimeler: