Evaluation of fracture resistance of roots-filled with various root canal sealers at different time periods
Purpose
___
- Johnson ME, Stewart GP, Nielsen CJ, Hatton JF. Evaluation of
root reinforcement of endodontically treated teeth. Oral Surg
Oral Med Oral Pathol Oral Radiol Endod 2000; 90(3): 360–364.
[CrossRef ]
- Zandbiglari T, Davids H, Schäfer E. Influence of instrument taper
on the resistance to fracture of endodontically treated roots.
Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2006; 101(1):
126–131. [CrossRef ]
- Apicella MJ, Loushine RJ, West LA, Runyan DA. A comparison of
root fracture resistance using two root canal sealers. Int Endod J
1999; 32(5): 376–380. [CrossRef ]
- Jainaen A, Palamara JEA, Messer HH. The effect of resinbased
sealers on fracture properties of dentine. Int Endod J 2009;
42(2): 136–143. [CrossRef ]
- Sağsen B, Ustün Y, Pala K, Demırbuğa S. Resistance to fracture
of roots filled with different sealers. Dent Mater J 2012; 31(4):
528–532. [CrossRef ]
- Topçuoğlu HS, Tuncay Ö, Karataş E, Arslan H, Yeter K. In vitro
fracture resistance of roots obturated with epoxy resin-based,
mineral trioxide aggregate-based, and bioceramic root canal
sealers. J Endod 2013; 39(12): 1630–1633. [CrossRef ]
- Guneser MB, Akman M, Kolcu İB, Eldeniz AU. Fracture resistance
of roots obturated with a novel calcium silicate-based
endodontic sealer (BioRoot RCS). J Adhes Sci Tech 2016; 30(22):
2420-2428. [CrossRef ]
- El-Ma’aita AM, Qualtrough AJ, Watts DC. Resistance to vertical
fracture of MTA-filled roots. Dent Traumatol 2014; 30(1): 36–42.
[CrossRef ]
- Camilleri J, Pitt Ford TR. Evaluation of the effect of tracer pH on
the sealing ability of glass ionomer cement and mineral trioxide
aggregate. J Mater Sci Mater Med 2008; 19(8): 2941–2948.
[CrossRef ]
- Sarkar NK, Caicedo R, Ritwik P, Moiseyeva R, Kawashima I.
Physicochemical basis of the biologic properties of mineral
trioxide aggregate. J Endod 2005; 31(2): 97–100. [CrossRef ]
- Atmeh AR, Chong EZ, Richard G, Festy F, Watson TF. Dentincement
interfacial interaction: calcium silicates and
polyalkenoates. J Dent Res 2012; 91(5): 454–459. [CrossRef ]
- Camilleri J. Sealers and warm gutta-percha obturation
techniques. J Endod 2015; 41(1): 72–78. [CrossRef ]
- Xuereb M, Vella P, Damidot D, Sammut CV, Camilleri J. In situ
assessment of the setting of tricalcium silicate-based sealers
using a dentin pressure model. J Endod 2015; 41(1): 111–124.
[CrossRef ]
- Viapiana R, Moinzadeh AT, Camilleri L, Wesselink PR, Tanomaru
Filho M, Camilleri J. Porosity and sealing ability of root fillings
with gutta-percha and BioRoot RCS or AH Plus sealers.
Evaluation by three ex vivo methods. Int Endod J 2016; 49(8):
774–782. [CrossRef ]
- Camilleri J, Formosa L, Damidot D. The setting characteristics
of MTA Plus in different environmental conditions. Int Endod J
2013; 46(9): 831–840. [CrossRef ]
- Formosa L, Mallia B, Camilleri J. A quantitative method for
determining the antiwashout characteristics of cement-based
dental materials including mineral trioxide aggregate. Int Endod
J 2013; 46(2): 179–186. [CrossRef ]
- DeLong C, He J, Woodmansey KF. The effect of obturation
technique on the push-out bond strength of calcium silicate
sealers. J Endod 2015; 41(3): 385–388. [CrossRef ]
- Goldberg F. Kaplan A, Roitman M, Manfré S, Picca M. Reinforcing
effect of a resin glass ionomer in the restoration of immature
roots in vitro. Dent Traumatol 2002; 18(2): 70–72. [CrossRef ]
- Uzun I, Arslan H, Doğanay E, Güler B, Keskin C, Çapar İD. Fracture
resistance of endodontically treated roots with oval canals
restored with oval and circular post. J Endod 2015; 41(4): 539-
543. [CrossRef ]
- Sim TP, Knowles JC, Ng YL, Shelton J, Gulabivala K. Effect of
sodium hypochlorite on mechanical properties of dentine
and tooth surface strain. Int Endod J 2001; 34(2): 120–132.
[CrossRef ]
- Lee KW, Williams MC, Camps JJ, Pashley DH. Adhesion of
endodontic sealers to dentin and gutta-percha. J Endod 2002;
28(10): 684–688. [CrossRef ]
- Moinzadeh AT, Zerbst W, Boutsioukis C, Shemesh H, Zaslansky
P. Porosity distribution in root canals filled with gutta percha
and calcium silicate cement. Dent Mater 2015; 31(9): 1100-1108.
[CrossRef ]
- Dawood AE, Parashos P, Wong RH, Reynolds EC, Manton DJ.
Calcium silicate-based cements: composition, properties, and
clinical applications. J Investig Clin Dent 2017; 8(2): doi: 10.1111/
jicd.12195. [CrossRef ]
- Dimitrova-Nakov S, Uzunoglu E, Ardila-Osorio H, Baudry A,
Richard G, Kellermann O, Goldberg M. In vitro bioactivity of
Bioroot™ RCS, via A4 mouse pulpal stem cells. Dent Mater 2015;
31(11): 1290-1297. [CrossRef ]
- Khalil I, Naaman A, Camilleri J. Properties of Tricalcium Silicate
Sealers. J Endod 2016; 42(10): 1529-1535. [CrossRef ]
- Gandolfi MG, Siboni F, Primus CM, Prati C. Ion release, porosity,
solubility, and bioactivity of MTA Plus tricalcium silicate. J Endod
2014; 40(10): 1632-1637. [CrossRef ]
- Formosa LM, Mallia B, Camilleri J. Mineral trioxide aggregate
with anti-washout gel - properties and microstructure. Dent
Mater 2013; 29(3): 294–306. [CrossRef ]
- Hoppe CB, Scarparo RK, Böttcher DE, Leitune VC, Collares FM,
Samuel SM, Grecca FS. Thermocompaction decreases long-term
push-out bond strength of methacrylate-based sealers. Acta
Odontol Scand 2015; 73(4): 292-297. [CrossRef ]
- Türker SA, Uzunoğlu E. Effect of powder-to-water ratio on the
push-out bond strength of white mineral trioxide aggregate.
Dent Traumatol 2016; 32(2): 153-155. [CrossRef ]