TY  - GEN 
AU  - Osorio Ruiz, Raquel
AU  - Sauro, Salvatore
AU  - Watson, Timothy F.
AU  - Toledano Pérez, Manuel
PY  - 2015
SN  - 1365-2591
SN  - 0143-2885
UR  - http://hdl.handle.net/10481/39011
AB  - Aim. To ascertain if biomimetic phosphoproteins analogues (polyaspartic acid -PAS- and sodium trimetaphosphate -TMP-) improve bonding efficacy and dentine remineralization ability of a novel zinc-doped Portland-based resinous sealing cement.
AB  - Methodology. Bonding procedures were performed on phosphoric acid etched dentine and several groups were established regarding biomimetic analogue application: 1) No application, 2) PAS-treated dentine and 3) dentine treated with a mixture of PAS and...
AB  - Results. MTBS values were not affected by the different bonding procedures, at 24 h testing. After 6 months, MTBS decreased in those groups in which analogues phosphoproteins’ were not applied (P<0.05). When Pas was applied, MTBS was maintained after...
AB  - Conclusions: PAS application onto demineralized dentine produced an inhibition or delay of the mineral phase crystallization, enhancing the remineralization potential of the Portland microfillers at the resin-dentine bonded interface.
LA  - eng
PB  - John Wiley and Sons
KW  - Bonding
KW  - Dentine
KW  - Remineralization
KW  - Resin
TI  - Polyaspartic acid enhances dentine remineralization bonded with a zinc-doped Portland-based resin cement
DO  - 10.1111/iej.12518
ER  -