• Title of article

    Titanium nanotubes activate genes related to bone formation in vitro

  • Author/Authors

    Pozio, Alfonso IDROCOMB - ENEA, Italy , Palmieri, Annalisa University of Ferrara - Department of Medical-Surgical Sciences of Communication and Behavior, Section of Maxillofacial and Plastic Surgery, Italy , Girardi, Ambra University of Bologna - Centre of Molecular Genetics, CARISBO Foundation - Histology, Embryology and Applied Biology, Italy , Cura, Francesca University of Bologna - Centre of Molecular Genetics, CARISBO Foundation - Histology, Embryology and Applied Biology, Italy , Carinci, Francesco University of Ferrara - Department of D M C C C , Department of Medical-Surgical Sciences of Communication and Behavior, Section of Maxillofacial and Plastic Surgery, Italy

  • From page
    164
  • To page
    168
  • Abstract
    Background: Titanium is used worldwide to make osseointegrable devices, thanks to its favorable characteristics as mechanical proprieties and biocompatibility, demonstrated by in vivo studies with animal models and clinical trials over a forty‑year period. However, the exact genetic effect of the titanium layer on cells is still not well characterized. Materials and Methods: To investigate how titanium nanotubes stimulate osteoblasts differentiation and proliferation, some osteoblast genes (SP7, RUNX2, COL3A1, COL1A1, ALPL, SPP1 and FOSL1) were analyzed by quantitative Real Time RT‑ PCR. Results: After 15 days, osteoblasts cultivated on titanium naotube showed the up‑regulation of bone related genes SP7, ENG, FOSL1 and SPP1 and the down‑regulation of RUNX2, COL3A1, COL1A1, and ALPL. After 30 days of treatment, the bone related genes SP7, ENG, FOSL1 and RUNX2 were up‑regulated while COL3A1, COL1A1, ALPL and SPP1 were down‑regulated. Conclusions: Our results, demonstrates that titanium nanotubes can lead to osteoblast differentiation and extracellular matrix deposition and mineralization in dental pulp stem cells by the activation of osteoblast related genes SPP1, FOSL1 and RUNX2.
  • Keywords
    Gene expression , nanotubes , osteoblasts , titanium disks
  • Journal title
    DRJ Dental Research Journal
  • Journal title
    DRJ Dental Research Journal
  • Record number

    2636696