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IN VITRO BEHAVIOUR OF OSTEOBLASTS CULTURED ON ORTHOPAEDIC BIOMATERIALS WITH DIFFERENT SURFACE ROUGHNESS, UNCOATED AND FLUOROHYDROXYAPATITE-COATED, RELATIVE TO THE IN VIVO OSTEOINTEGRATION RATE



Abstract

Aims:. To test the effect of different surface roughness and fluorohydroxyapatite (FHA) coating on osteoblast-like cell (MG63) viability, proliferation, differentiation and synthetic activity, then to compare the various surfaces tested and try to identify an osteoblast parameter that can better explain the different behaviour of the tested surfaces observed in previous in vivo studies.

Methods: The tested materials were made of Ti6Al4V coated with Ti and with Ti plus FHA with different roughness; they can be divided into four groups: low roughness (LR; Ra: 5.9 B5m), low roughness plus FHA coating (LR+FHA; Ra: 5.6 B5m), high roughness (HR; Ra: 22.5 B5m), high roughness plus FHA coating (HR+FHA; Ra: 21.2 B5m). MG63 were cultivated on 6 samples of each group and on polystyrene as control; after 72 hours the proliferation assay (WST-1) was done, alkaline phosphatase activity (ALP) was determined and the synthesis of osteocalcin (OC), type 1 collagen (CICP), transforming growth factor α 1 (TGF-A71), interleukin-6 (IL-6) and tumor necrosis factor-α (TNF-a) were measured. Samples of each material were randomly processed for analysis with a scanning electron microscope (SEM).

Results: Cells proliferated on biomaterials more slowly than in the control group (p < 0.0001), the proliferation rate was higher on FHA-coated LR than uncoated HR (p = 0.037). CICP production was positively affected by the LR surface (p = 0.001) as compared to controls, while it was significantly lower (p = 0.0001) in the HR surfaces. Compared to controls, LR and HR surfaces led to enhanced production of TGF-A71, further improved by FHA (FHA-coated LR: p = 0.007; FHA-coated HR p < 0.0001 respectively). ALP, OC, IL-6 levels were not significantly different from the controls

Conclusions: Results suggest that CICP production could be useful in predicting the in vivo osteointegration rate of biocompatible biomaterials observed in previous studies.

The abstracts were prepared by Ms Grazia Gliozzi. Correspondence should be addressed to her at the Italian Orthopaedic Research Society, Laboratory for Pathophysiology, Instituti Ortopedici Rizzoli, University of Bologna, Bologna, Italy.