Based on anti-inflammatory and osteogenic properties of hesperidin (HE), we hypothesized its systemic administration could be a cost-effective method of improving BMP-induced bone regeneration. Sprague-Dawley rats were allocated into 4 groups (n=10/group): a 5-mm critical-sized mandible defect + collagen scaffold or, scaffold + 1 μg of BMP2 with and without dietary HE at 100 mg/kg. HE was administered by oral gavage 4 weeks prior to surgeries until euthanasia at day 7 or 14. The healing tissue within the defect collected at day 7 was subjected to gene expression analysis. Mandibles harvested at day 14 were subjected to microcomputed tomography and histology. HE+BMP2-treated rats had a statistically significant decrease in expression of inflammatory genes compared to BMP2 alone. The high-dose BMP2 caused cystic-like regeneration with incomplete defect closure. HE+BMP2 showed virtually complete bone fusion. Red collagen fibrils were significantly higher in BMP2-induced newly formed bone (NFB) in HE-supplemented group (p<0.05) indicating high organization. Clear changes in osteocyte lacunae as well as a statistically significant increase in osteoclasts were found around NFB in HE rats. A significant increase in trabecular volume and thickness, and trabecular and cortical density was found in femurs of HE-supplemented rats (p<0.05). Our findings show, for the first time, that dietary HE has a remarkable modulatory role in locally delivered high-dose BMP2-induced bone possibly via control of inflammation, osteogenesis, changes in osteocyte and osteoclast function and collagen maturation in regenerated and native bone. In conclusion, HE has a significant skeletal bone sparing effect and the ability to provide a more effective BMP-induced craniofacial regeneration.
Keywords: bone morphogenetic protein; bone regeneration; collagen; hesperidin; osteoclast; osteocyte.