Sealing efficiency and remineralization capacity of a newly introduced tricalcium silicate cement /
Radwa Saied Mohamed Abdelaziz
Sealing efficiency and remineralization capacity of a newly introduced tricalcium silicate cement / القدرة على الاغلاق واعادة التلكس بأسمنت الترى كالسيوم سيليكات الجديد Radwa Saied Mohamed Abdelaziz ; Supervised Sayed Hussein Sayed Saniour , Dalia Ahmed Saba - Cairo : Radwa Saied Mohamed Abdelaziz , 2015 - 129 P. : charts , facsimiles ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Oral and Dental Medicine- Department of Dental Biomaterials
Tricalcium silicate material (conventionally termed MTA cements) has been recently introduced in dentistry in order to provide dentin substitute for coronal and radicular pulp. Despite of number of advantages of MTA, its limitations cannot be overlooked.These drawbacks have been overcome by a new calcium silicate based material named biodentine which has good handling properties, short setting time and improved mechanical properties with excellent biocompatibility as well as a bioactive behavior.. In nut shell it is able to act as a promising dentin substitute in coronal and radicular portion of tooth⁽¹¹⁴⁾. Hydraulic cements with bioactive properties due to the formation of apatite and calcite might have many important clinical applications in dentistry, enhancing fast bone regeneration and pulp healing. These data might explain the excellent clinical behavior reported for calcium silicate cements⁽¹¹⁵⁾
Remineralization capacity Sealing efficiency Tricalcium silicate cement
Sealing efficiency and remineralization capacity of a newly introduced tricalcium silicate cement / القدرة على الاغلاق واعادة التلكس بأسمنت الترى كالسيوم سيليكات الجديد Radwa Saied Mohamed Abdelaziz ; Supervised Sayed Hussein Sayed Saniour , Dalia Ahmed Saba - Cairo : Radwa Saied Mohamed Abdelaziz , 2015 - 129 P. : charts , facsimiles ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Oral and Dental Medicine- Department of Dental Biomaterials
Tricalcium silicate material (conventionally termed MTA cements) has been recently introduced in dentistry in order to provide dentin substitute for coronal and radicular pulp. Despite of number of advantages of MTA, its limitations cannot be overlooked.These drawbacks have been overcome by a new calcium silicate based material named biodentine which has good handling properties, short setting time and improved mechanical properties with excellent biocompatibility as well as a bioactive behavior.. In nut shell it is able to act as a promising dentin substitute in coronal and radicular portion of tooth⁽¹¹⁴⁾. Hydraulic cements with bioactive properties due to the formation of apatite and calcite might have many important clinical applications in dentistry, enhancing fast bone regeneration and pulp healing. These data might explain the excellent clinical behavior reported for calcium silicate cements⁽¹¹⁵⁾
Remineralization capacity Sealing efficiency Tricalcium silicate cement