Abstract
It was hypothesized that strontium (Sr)-doped β-tricalcium phosphate (TCP)-based scaffolds have a positive effect on the regeneration of large bone defects (LBD). Readouts in our mice models were nuclear factor-kappa beta (NF-κB) activity and vascular endothelial growth factor receptor-2 (VEGFR-2) promoter activity during the healing process. A 2-mm critical-size femoral fracture was performed in transgenic NF-κB- and VEGFR-2-luciferase reporter mice. The fracture was filled with a 3D-printed β-TCP scaffold with or without Sr. A bioluminescence in-vivo imaging system was used to sequentially investigate NF-κB and VEGFR-2 expression for two months. After sacrifice, soft and osseous tissue formation in the fracture sites was histologically examined. NF-κB activity increased in the β-TCP + Sr group in the latter stage (day 40–60). VEGFR-2 activity increased in the + Sr group from days 0–15 but decreased and showed significantly less activity than the β-TCP and non-scaffold groups from days 40–60. The new bone formation and soft tissue formation in the + Sr group were significantly higher than in the β-TCP group, whereas the percentage of osseous tissue formation in the β-TCP group was significantly higher than in the β-TCP + Sr group. We analyzed longitudinal VEGFR-2 promoter activity and NF-κB activity profiles, as respective agents of angiogenesis and inflammation, during LBD healing. The extended inflammation phase and eventually more rapid resorption of scaffold caused by the addition of strontium accelerates temporary bridging of the fracture gaps. This finding has the potential to inform an improved treatment strategy for patients who suffer from osteoporosis.
Highlights
Bone possesses a high endogenous capacity for repair and regeneration
The results showed a significant reduction of osteocalcin levels in the β-tricalcium phosphate (TCP) group (201,640 ± 20,183 pg/mL vs. 114,419 ± 15,713 pg/mL; n = 4; p ≤ 0.05) and a significant increase in osteoprotegerin levels in the β-TCP + Sr group (3736 ± 200.5 pg/mL vs. 5232 ± 338.9 pg/mL; n = 4; p ≤ 0.05) during the osteocalcin (OC), osteoprotegerin (OPG), Dickkopf-related protein 1 (DKK), insulin, and leptin were quantified in the animals both before and two months after the operation
We present first-time profiles of the longitudinal activities of vascular endothelial growth factor receptor-2 (VEGFR-2) promoter and NF-κB— respective agents of angiogenesis and inflammation—during critical-size bone-fracture healing
Summary
Delayed bone union and pseudarthrosis threaten the healing of large bone defects caused by tumor resection or trauma. This limited capacity for bone regeneration can often be observed in patients with oxidative stress-related diseases such as chronic inflammatory disease, type 2 diabetes mellitus, osteoporosis, alcohol abuse, or heavy smoking [1,2]. Early-phase fracture healing requires hematoma formation, which provides a static base for migrating inflammatory cells. One previous study in animals has shown that blocking the VEGF receptors inhibits vascular in-growth, delaying or disrupting the regenerative process, whereas sufficient VEGF promotes fracture healing [6].
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