Impact of PRP and PRF on Viability of Zoledronic Acid Treated Osteoblasts in 2D and 3D Cell Culture.

BACKGROUND/AIM: Zoledronic acid (ZA) treatment of in vitro cultured osteoblasts (OB) results in reduction in viability, proliferation and differentiation. These effects are slightly attenuated when platelets-rich fibrin and plasma (PRF and PRP) are added. However, it is still unknown whether application of PRP/PRF on ZA-treated OB in a 3D-environment would influence the viability in relation to 2D-cultivation. MATERIALS AND METHODS: Non-treated and ZA-treated OB were cultivated in 2D conditions or seeded in a 3D collagen scaffold with and without PRP/PRF. MTT test was carried out after 5 days of colonization. 4,6-diamidino-2'-phenylindole, dihydrochloride (DAPI)-staining was performed in OB grown in 3D scaffolds to ensure spatial distribution of OB. RESULTS: ZA led to a significant reduction in cell viability compared to the control group. Addition of either PRF or PRP to the 3D colonized and ZA-treated OB significantly enhanced their survival and viability in relation to 2D monolayer cultivation. CONCLUSION: The use of 3D-scaffolds has a positive effect on OB viability, and stimulation by PRF and PRP may provide a therapeutic approach to transfer these results into clinical routine for the treatment of patients with bisphosphonate related osteonecrosis of the jaw (BR-ONJ).

Establishment and validation of an in vitro co-culture model for oral cell lines using human PBMC-derived osteoclasts, osteoblasts, fibroblasts and keratinocytes.

Indirect co-culture models with osteoclasts including oral cell lines may be influenced by M-CSF and RANKL in the common cell medium. Therefore, we investigated the viability and proliferation of osteoblasts (OB), fibroblasts (FB) and oral keratinocytes (OK) under stratified medium modification and assessed the differentiation of osteoclasts in each co-culture. The impact of M-CSF and RANKL in the common OC co-culture was assessed for OB, FB and OK via MTT assay via DAPI control. The multinuclearity and function of OC were evaluated by light microscopy, DAPI staining, resorption assay and FACS analysis. The PBMC showed the highest differentiation into OC after an incubation period of 7 days. Furthermore, co-culture with OB enhanced the number of differentiated multinucleated OC in comparison with monoculture, whereas co-culture with OK decreased PBMC multinuclearity and OC differentiation. FB did not influence the number of differentiated OC in a co-culture. RANKL and M-CSF reduction had no impact on OC differentiation in co-culture with FB or OB, whereas this medium modification for OK attenuated PBMC multinuclearity and OC differentiation in all approaches. Supplementation of RANKL and M-CSF can be modified for a co-culture of PBMC with FB or OB without disturbing OC differentiation. Thus, pathogenic processes of bone remodelling involving OB, OC, FB and OK in the oral cavity can be investigated thoroughly.