Osteoplant (R) (Bioteck SRL, Vicenza, Italy) is an equine cortical and spongy bone tissue, used to fill bone defects in orthopedic, maxillofacial and dental surgery. To study the mechanism by which Osteoplant (R) induces the reabsorption and the substitution of the graft with new bone, the expression of genes related to the osteoblast differentiation were analyzed using cultures of stem cells derived from dental pulp stem cells (ADSCs) treated with this biomaterial. The up-regulation of bone related genes like SP1, FOSL1, RUNX2 and SPP1 and the disappearance of the mesenchymal stem cell marker ENG demonstrated that this biomaterial is conducive in osteoblast and osteoclast. In particular the up-regulation of SPP1 demonstrated that this bone substitute material was actively resorbed by human osteoclasts. Our results confirmed that Osteoplant (R) has high potential for use as bone tissue scaffold in bone tissue engineering.
Brunelli, G., Carinci, F., Girardi, A., Palmieri, A., Caccianiga, G., Sollazzo, V. (2012). OSTEOPLANT (R) INFLUENCES OSTEOGENIC DIFFERENTIATION OF DENTAL PULP STEM CELLS. EUROPEAN JOURNAL OF INFLAMMATION, 10(1), 31-35.
OSTEOPLANT (R) INFLUENCES OSTEOGENIC DIFFERENTIATION OF DENTAL PULP STEM CELLS
Caccianiga, GianluigiPenultimo
;
2012
Abstract
Osteoplant (R) (Bioteck SRL, Vicenza, Italy) is an equine cortical and spongy bone tissue, used to fill bone defects in orthopedic, maxillofacial and dental surgery. To study the mechanism by which Osteoplant (R) induces the reabsorption and the substitution of the graft with new bone, the expression of genes related to the osteoblast differentiation were analyzed using cultures of stem cells derived from dental pulp stem cells (ADSCs) treated with this biomaterial. The up-regulation of bone related genes like SP1, FOSL1, RUNX2 and SPP1 and the disappearance of the mesenchymal stem cell marker ENG demonstrated that this biomaterial is conducive in osteoblast and osteoclast. In particular the up-regulation of SPP1 demonstrated that this bone substitute material was actively resorbed by human osteoclasts. Our results confirmed that Osteoplant (R) has high potential for use as bone tissue scaffold in bone tissue engineering.
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6 EJI VOL 10 N.1 (S) JAN-APR 2012 31-35 ISSN 1721-727X.pdf
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