Evaluation of the Ca ion release, pH and surface apatite formation of a prototype tricalcium silicate cement

Abstract: Yamamoto S, Han L, Noiri Y, Okiji T. Evaluation of the Ca ion release, pH and surface apatite formation of a prototype tricalcium silicate cement. International Endodontic Journal, 50, e73-e82, 2017. Aim To evaluate the Ca 2+ -releasing, alkalizing and apatite-like surface precipitate-forming abilities of a prototype tricalcium silicate cement, which was mainly composed of synthetically prepared tricalcium silicate and zirconium oxide radiopacifier. Methodology The prototype tricalcium silicate cement, wh… Show more

“…However, TheraCal LC formed smaller precipitates and significantly thinner Ca-and P-rich areas than the other materials. These findings are consistent with a recent laboratory study showing that Ca ion-releasing and apatite-like precipitate-forming abilities of TheraCal LC are lower than those of the other calcium silicate-based materials (Yamamoto et al 2017). This might be attributable to the fact that TheraCal LC is a resin-modified material in which ion exchange with the surrounding environment is limited.…”

“…Recently, a prototype tricalcium silicate cement (Nippon Shika Yakuhin, Shimonoseki, Japan; Table 1) has been developed, aiming at shortening the setting time, minimizing tooth discoloration and improving handling properties. This material is mainly composed of fine tricalcium silicate powder, which is prepared synthetically in the laboratory de novo, and zirconium oxide as a radiopacifier (Yamamoto et al 2017). The zirconium oxide has been demonstrated to act as an inert filler and not affect the hydration reaction of Portland cement .…”

Bioactivity and biomineralization ability of calcium silicate‐based pulp‐capping materials after subcutaneous implantation

“…However, TheraCal LC formed smaller precipitates and significantly thinner Ca-and P-rich areas than the other materials. These findings are consistent with a recent laboratory study showing that Ca ion-releasing and apatite-like precipitate-forming abilities of TheraCal LC are lower than those of the other calcium silicate-based materials (Yamamoto et al 2017). This might be attributable to the fact that TheraCal LC is a resin-modified material in which ion exchange with the surrounding environment is limited.…”

“…Recently, a prototype tricalcium silicate cement (Nippon Shika Yakuhin, Shimonoseki, Japan; Table 1) has been developed, aiming at shortening the setting time, minimizing tooth discoloration and improving handling properties. This material is mainly composed of fine tricalcium silicate powder, which is prepared synthetically in the laboratory de novo, and zirconium oxide as a radiopacifier (Yamamoto et al 2017). The zirconium oxide has been demonstrated to act as an inert filler and not affect the hydration reaction of Portland cement .…”

Bioactivity and biomineralization ability of calcium silicate‐based pulp‐capping materials after subcutaneous implantation

“…TheraCal LC has displayed calcium release properties [ 6 , 20 – 23 ]. The bioavailability of calcium ions plays a key role in the material-induced proliferation and differentiation of human dental pulp cells and the new formation of mineralized hard tissues.…”

“…Camilleri et al [ 6 ] attributed the differences in the results due to the different methodologies used in each study. Moreover, Yamamoto et al [ 23 ] and that ProRoot MTA released significantly greater amounts of calcium ions than the TheraCal LC. The study also showed that TheraCal LC does not form calcium hydroxide after setting, although it releases calcium ions and produces calcium apatite on its surface.…”

TheraCal LC: From Biochemical and Bioactive Properties to Clinical Applications

“…However, researchers have continued to focus on developing new MTA formulations to improve its physicochemical properties, without affecting its biocompatibility or bioactivity (Yamamoto et al . ).…”

Comparative analysis of the biological effects of the endodontic bioactive cements MTA‐Angelus, MTA Repair HP and NeoMTA Plus on human dental pulp stem cells