Reduction in dentin permeability using mildly supersaturated calcium phosphate solutions.

Treatments that obturate dentin tubules have been used for reducing dentin hypersensitivity. The objective of this study was to determine the effects of multiple treatments with a mildly supersaturated calcium phosphate solution on the hydraulic conductance (Lp) of partially occluded dentin discs in vitro. The treatment solution contained 6.5 mmoll(-1) each of calcium and phosphate, 0.25 mmoll(-1) fluoride, 30 mmoll(-1) KCl, and 50 mmoll(-1) HEPES buffer (pH adjusted to 7.0). The mean baseline Lp (in microlcm(-2)min(-1) H(2)O cm(-1)) was 0.108+/-0.041 (mean +/- S.D.; n=9, microlcm(-2)min(-1) H(2)O cm(-1) = 10.20 microlcm(-2)min(-1)KPa(-1)) and after five consecutive treatments, the mean relative Lp, presented as percentage of baseline, were 71+/-11, 58+/-10, 46+/-18, 40+/-14, and 25+/-10, respectively. The Lp values of the baseline and treatment groups were significantly (P<0.05) different. Consecutive treatments appeared effective in further reducing Lp of dentin discs.

In vitro evaluation of a calcium phosphate cement root canal filler/sealer.

An in vitro dye leakage study was performed to compare the apical leakage of a fill with injectable calcium phosphate cement (CPC) filler/sealer and a master silver cone with leakage from a fill of Sealapex sealer and laterally condensed gutta-percha. Ten instrumented, extracted, single-rooted human teeth were obturated with either laterally condensed gutta-percha and Sealapex as the sealer or with a single master cone and the CPC paste sealer. Additional teeth were included in the study to serve as controls. The teeth were placed in 1% poly-R dye solution (pH 7.0) for 5 days. After the teeth were longitudinally sectioned apical leakage of dye was measured. There were no significant differences between the CPC and Sealapex groups. The single cone CPC procedure provided an adequate apical seal against dye penetration. Should retreatment become necessary the single cone may be removed to provide access for instrumentation.