AI Article Synopsis
- Nanospheres made from organically modified hydroxyapatite (ormoHAP) were combined with foamed gelatin to create scaffolds for potential bone tissue engineering.
- The degradation rates of these scaffolds varied based on their degree of crosslinking and mineral content, which directly affects their stability and performance.
- A co-culture of osteoblasts and osteoclasts was studied for 42 days, revealing that ormoHAP significantly boosted enzymatic activity and gene expression related to bone formation, indicating an interactive process between the cell types in response to the scaffolds.
Article Abstract
Isolated nanospheres consisting of organically modified hydroxyapatite (ormoHAP), prepared by an electric field-assisted ion double migration process, were embedded in foamed gelatin to form a composite scaffold. Degradation rates have been demonstrated to correlate with the crosslinking degree (40%, 80%) as well as with the mineral content of the scaffolds (0%, 20%, 40%). A human co-culture model of osteoblasts and osteoclasts, derived from bone marrow stromal cells and monocytes, respectively, without external addition of the factors RANKL and M-CSF, was run for up to 42 d in order to characterize the action of the ormoHAP-gelatin scaffolds on the co-culture. Examination was performed by quantitative biochemical methods (DNA, LDH, ALP, TRAP5b), gene expression analysis (ALP, BSP II, RANKL, IL-6, VTNR, CTSK, TRAP, OSCAR, CALCR) and confocal laser scanning microscopy (cell nuclei, actin, CD68, TRAP). Results confirm that ormoHAP embedded in the gelatin matrix enhanced TRAP 5b activity. As a feedback, ALP activity and gene expression of BSP II of osteoblasts increased. Finally, a sequence of cell cross-talk actions is suggested, which can explain the behavior of the formed vital co-culture and moreover the influence of the presence and concentration of ormoHAP.
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| http://dx.doi.org/10.1088/1748-605X/ab0fad | DOI Listing |
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