Background: Several clinical trials have shown the effectiveness of Emdogain(R) (EMD) in promoting tissue regeneration, even though the underlining biological mechanism is still poorly known.
Objectives: The aim of the present study was to verify the effect of EMD on the proliferation of human periodontal ligament (PDL) fibroblasts and on their colonization and differentiation following contact with the root surface of extracted teeth in vitro.
Methods and results: Fibroblasts from PDL were seeded on Petri dishes and cell growth was evaluated by cell counting in the presence and absence of EMD, after 1, 3 and 8 d of culture. A significant effect of EMD upon cellular proliferation at d 3 and 8 was detected. When PDL cells were grown for 12 d with EMD on etched human root surface, a change in cell morphology was observed. Scanning electron microscopy revealed that cells grown on root EMD-treated surface present a body with a flattened surface closely adherent to the substrate and an outer smooth surface rounded in shape. From the flattened surface some thin and elongated cellular processes connecting with the substrate were also observable. PDL cells grown on EMD-treated surface showed lack of alkaline phosphatase activity, as some authors noticed in cementoblasts in vitro.
Conclusions: In conclusion, our data indicate that EMD enhances human PDL fibroblast proliferation. Furthermore, the cells in the presence of EMD show morphological changes that make them more similar to cementoblasts than to fibroblasts, suggesting a process of cellular differentiation that could play an important role in periodontal tissue repair.