Release of calcium ions from particulate monosodium titanates for dental mineralization applications.

Purpose: The calcium ion [Ca(II)] release from monosodium titanates (MST) complexed to calcium ions [Ca(II)], referred to as MST-Ca(II), was examined under varying incubation times, pH conditions, and ion equilibrium disruptions.

Methods: Sample supernatants were analyzed for Ca(II) using the QuantiChrom Calcium Assay Kit.

Results: No Ca(II) was detected in native MST (control) supernatants but was detected in MST-Ca(II) supernatants. At pH 7, Ca(II) release increased from 0 to 2.5 mg/dL over 3 days (P< 0.05 compared to MST control), remaining constant over the completed incubation times. At pH 5, 15 mg/dL of Ca(II) was immediately released with no further release. When the pH was modulated pH 4 to pH 9, Ca(II) concentration dropped from 25 mg/dL to ~0 mg/dL. Finally, when equilibrium was disrupted by partial replacement of the supernatant with sterile water, Ca(II) release was ongoing, reaching a cumulative total of 20 mg/dL over 35 days.

Clinical Significance: The current results suggest that particulate MST-Ca(II) complexes exhibit sustained release of calcium, and that release might be customized by conditions of pH and ionic strength. Thus, these complexes appear promising for biological applications where calcium-mediated mineralization or re-mineralization are desired.