Effects of the surface wettability and zeta potential of bioceramics on the adhesiveness of anchorage-dependent animal cells

Using calcium phosphate ceramics that have high biocompatibility with the living body, the effects of the surface characteristics of the bioceramics on cell adhesiveness were investigated. In the case of carriers with contact angles from 35° to 60°, the cell adhesiveness increased according to the increase in the wettability. Measurement of the zeta potentials of HAP-TCP sinters showed that these bioceramics had negative potentials from −2 mV to −6 mV. Electrochemical analysis suggested that the initial cell anchoring ratio (R_ia) and adhesive strength (F_a,enz) were affected by the surface ionic condition of the ceramic material. To clarify the effects of the surface potential of the ceramics on cell adhesiveness, the ceramic surface was modified chemically by means of various silane coupling reagents. The surface potential was regulated from −20 mV to +24 mV. Using these ceramics, the affinity and adhesiveness of the cells to the ceramics were found to be dominantly regulated by the surface potential. A negative potential was effective in increasing the adhesiveness, even though living cells have negative charges.