Abstract
To evaluate osteocalcin gene and protein expression in vitro and in an in vivo model of ostectomy. Twenty Wistar rats were assigned into two groups A (n=10, laser) and B (n=10, control). Ostectomy was performed in the femur diaphysis; the twenty fragments removed, composed in vitro groups named as in vivo (A and B) and cultivated in CO2 atmosphere for thirteen days. Low-level laser irradiation was performed in groups A (in vivo and in vitro) by an GaAlAs device (λ=808 nm, dose of 2J/cm2, power of 200mW, power density of 0.2W/cm2, total energy of 1.25J, spot diameter of 0.02mm) for 5 seconds, at one point, daily. It was performed immunocytochemistry assays in vivo and in vitro groups. In vitro groups were also submitted to RNA extraction, cDNA synthesis and gene expression by quantitative PCR. Statistical analysis was realized with p<0.05. Immunocytochemistry scores showed no significant differences between control and laser groups either in vivo and in vitro. Gene expression also showed no statistical differences. Low-level laser irradiation did not alter osteocalcin protein and gene expression in vivo and in vitro in the studied period but it may have been expressed them in an earlier period.
Highlights
According to the World Health Organization, there are more than 150 diseases and syndromes related to skeletal and joint problems
This data reports that bone fractures are related to functional disease, disability and burden in world[1,2,3]
Figure shows in arrows the scores obtained by reaction and presence of osteocalcin (DAB stain, x100)
Summary
According to the World Health Organization, there are more than 150 diseases and syndromes related to skeletal and joint problems. Six million long-bone fractures are reported annually in the USA. Progress has been made in treatment methods over the past decades, approximately 5-10% of fractures still result in delayed union or non-union. 600.000 individuals experience prolonged pain and discomfort associated with fracture non-union. This data reports that bone fractures are related to functional disease, disability and burden in world[1,2,3]. Several treatments were described to bone fractures as internal fixation of fractures that preserve anatomy and early function, reconstruction and absolute stability of fixation were essential preconditions for success. Non-invasive treatments need to be considered to bone formation as low-level laser (LLL) irradiation[4,5,6,7]
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