Acid neutralization capacity of a tricalcium silicate-containing calcium phosphate cement as an endodontic material: Fid-Bau Portal

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Acid neutralization capacity of a tricalcium silicate-containing calcium phosphate cement as an endodontic material

Cherng, A.Maria / Takagi, Shozo / Chow, Laurence C.

A calcium phosphate cement (CPC) was shown to have the necessary attributes for endodontic materials except adequate basicity needed for antimicrobial properties. To enhance its basicity, tricalcium silicate (Ca₃SiO₅), a highly alkaline compound, was added to CPC at a mass fraction of 0.25, 0.5 or 0.75. The basicity, acid neutralization and physical properties of the CPC-Ca₃SiO₅ composites were investigated. Mineral trioxide aggregate (MTA) was used as the control. The acid neutralizing capacity of the CPC-Ca₃SiO₅ composites and MTA were measured by titrating the suspensions of ground set samples with a 0.2 mol/L HCl at predetermined pH levels, i.e., 11, 9.0, and 7.4. The setting time of CPC-Ca₃SiO₅ composites determined by the Gilmore needle method was 40 plus/minus 10 min. Acid neutralizing capacity of CPC depended (p less-than 0.05) on Ca₃SiO₅ content. CPC containing 75 % Ca₃SiO₅ could neutralize slightly less acid than MTA (p less-than 0.05), but it had a shorter setting time than that of MTA (greater-than 4 h) and excellent handling properties.

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Acid neutralization capacity of a tricalcium silicate-containing calcium phosphate cement as an endodontic material

Cherng, A.Maria / Takagi, Shozo / Chow, Laurence C.

A calcium phosphate cement (CPC) was shown to have the necessary attributes for endodontic materials except adequate basicity needed for antimicrobial properties. To enhance its basicity, tricalcium silicate (Ca₃SiO₅), a highly alkaline compound, was added to CPC at a mass fraction of 0.25, 0.5 or 0.75. The basicity, acid neutralization and physical properties of the CPC-Ca₃SiO₅ composites were investigated. Mineral trioxide aggregate (MTA) was used as the control. The acid neutralizing capacity of the CPC-Ca₃SiO₅ composites and MTA were measured by titrating the suspensions of ground set samples with a 0.2 mol/L HCl at predetermined pH levels, i.e., 11, 9.0, and 7.4. The setting time of CPC-Ca₃SiO₅ composites determined by the Gilmore needle method was 40 plus/minus 10 min. Acid neutralizing capacity of CPC depended (p less-than 0.05) on Ca₃SiO₅ content. CPC containing 75 % Ca₃SiO₅ could neutralize slightly less acid than MTA (p less-than 0.05), but it had a shorter setting time than that of MTA (greater-than 4 h) and excellent handling properties.

Acid neutralization capacity of a tricalcium silicate-containing calcium phosphate cement as an endodontic material

Cherng, A.Maria / Takagi, Shozo / Chow, Laurence C.

A calcium phosphate cement (CPC) was shown to have the necessary attributes for endodontic materials except adequate basicity needed for antimicrobial properties. To enhance its basicity, tricalcium silicate (Ca₃SiO₅), a highly alkaline compound, was added to CPC at a mass fraction of 0.25, 0.5 or 0.75. The basicity, acid neutralization and physical properties of the CPC-Ca₃SiO₅ composites were investigated. Mineral trioxide aggregate (MTA) was used as the control. The acid neutralizing capacity of the CPC-Ca₃SiO₅ composites and MTA were measured by titrating the suspensions of ground set samples with a 0.2 mol/L HCl at predetermined pH levels, i.e., 11, 9.0, and 7.4. The setting time of CPC-Ca₃SiO₅ composites determined by the Gilmore needle method was 40 plus/minus 10 min. Acid neutralizing capacity of CPC depended (p less-than 0.05) on Ca₃SiO₅ content. CPC containing 75 % Ca₃SiO₅ could neutralize slightly less acid than MTA (p less-than 0.05), but it had a shorter setting time than that of MTA (greater-than 4 h) and excellent handling properties.

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Titel:

Acid neutralization capacity of a tricalcium silicate-containing calcium phosphate cement as an endodontic material

Beteiligte:

Cherng, A.Maria (Autor:in) / Takagi, Shozo (Autor:in) / Chow, Laurence C. (Autor:in)

Erschienen in:

Journal of Research of the National Institute of Standards and Technology ; 115 ; 471-476

Erscheinungsdatum:

2010

Format / Umfang:

6 Seiten, 17 Quellen

ISSN:

Medientyp:

Aufsatz (Zeitschrift)

Format:

Print

Sprache:

Englisch

Schlagwörter:

Zuschlagstoff , hydraulischer Zement , pH-Wert , Tricalciumsilicat , Titration

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