Influence of Different Fibreglass Post Geometries on the Stress Distribution and Pull-Out Bond Strength Before and After Mechanical Cycling

Rossana Reim Del 'Gaudio Piganataro; Renata de Paula Samico; Larissa Mendes Campaner; Marco Antonio Bottino; Alexandre Luiz Souto Borges; J.P. Mendes Tribst

doi:10.14744/eej.2020.95967

Influence of Different Fibreglass Post Geometries on the Stress Distribution and Pull-Out Bond Strength Before and After Mechanical Cycling

Rossana Reim Del 'Gaudio Piganataro, Renata de Paula Samico, Larissa Mendes Campaner, Marco Antonio Bottino, Alexandre Luiz Souto Borges, J.P. Mendes Tribst

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Objective: There are no reports in the literature on whether FGP geometry influences the bond strength of the endodontically restored tooth. This study aimed to determine the stress distribution and the pull-out bond strength of different FGP geometries, before and after chewing loads simulation.
Methods: One hundred and twenty root analogues were prepared and randomly distributed in six groups according to the post geometry. Half of the specimens were aged in water at 37 °C using a mechanical fatigue machine (84 N, 2 bar, 45°, 106 cycles, 4 Hz); while the remaining specimens were immediately submitted to the pull-out bond strength test. The specimens were tested in a universal testing machine and the bond strength in MPa was calculated. To assess the stress concentration, the finite element method was used simulating the same post geometries that were used in the in vitro test.
Results: Two-way ANOVA (95%) showed no influence of post geometry on the bond strength (P=0.055) while fatigue cycling was statistical significant to reduce the bond strength values (P=0.000). The factors interaction was significant (P=0.019); however, TUKEY test (5%) showed no significant difference between post geometries after mechanical cycling. The tensile stress result showed critical areas in the post's cervical region regardless of the design.
Conclusion: The FGP geometry does not affect the root stress distribution and the long-term bond strength. However, FGP that allow a reduced cement layer thickness can improve the immediate pull-out bond strength value. (EEJ-2020-09-217)

Original language	English
Pages (from-to)	170-176
Number of pages	7
Journal	European endodontic journal
Volume	6
Issue number	2
Early online date	13 Apr 2021
DOIs	https://doi.org/10.14744/eej.2020.95967
Publication status	Published - 2021
Externally published	Yes

Funding

Disclosures Conflict of interest: None declared. Ethics Committee Approval: Not necessary. Peer-review: Externally peer-reviewed. Financial Disclosure: This study was supported by Superdont® that kindly donate the fibreglass posts and the resin cement for the samples manufacturing. Authorship contributions: Concept – R.R.D.P., R.P.S., A.L.S.B., J.P.M.T.; Design – A.L.S.B., J.P.M.T.; Supervision – R.R.D.P., R.P.S., L.M.C., M.A.B., A.L.S.B., J.P.M.T.; Funding - R.R.D.P., R.P.S., L.M.C., M.A.B., A.L.S.B., J.P.M.T.; Materials - R.R.D.P., R.P.S., J.P.M.T.; Data collection &/or processing – R.R.D.P., R.P.S., L.M.C., M.A.B., A.L.S.B., J.P.M.T.; Analysis and/or interpretation – R.R.D.P., R.P.S., L.M.C., M.A.B., A.L.S.B., J.P.M.T.; Literature search – R.R.D.P., R.P.S., J.P.M.T.; Writing – R.R.D.P., R.P.S., L.M.C., M.A.B., A.L.S.B., J.P.M.T.; Critical Review – A.L.S.B., J.P.M.T.

Access to Document

10.14744/eej.2020.95967Licence: CC BY-NC

Persistent URL (handle)

Persistent link

Cite this

Reim Del 'Gaudio Piganataro, R., de Paula Samico, R., Mendes Campaner, L., Antonio Bottino, M., Luiz Souto Borges, A., & Mendes Tribst, J. P. (2021). Influence of Different Fibreglass Post Geometries on the Stress Distribution and Pull-Out Bond Strength Before and After Mechanical Cycling. European endodontic journal, 6(2), 170-176. https://doi.org/10.14744/eej.2020.95967

@article{d2ae27e6cf704f1d964f84666f6ae2a6,

title = "Influence of Different Fibreglass Post Geometries on the Stress Distribution and Pull-Out Bond Strength Before and After Mechanical Cycling",

abstract = "Objective: There are no reports in the literature on whether FGP geometry influences the bond strength of the endodontically restored tooth. This study aimed to determine the stress distribution and the pull-out bond strength of different FGP geometries, before and after chewing loads simulation. Methods: One hundred and twenty root analogues were prepared and randomly distributed in six groups according to the post geometry. Half of the specimens were aged in water at 37 °C using a mechanical fatigue machine (84 N, 2 bar, 45°, 106 cycles, 4 Hz); while the remaining specimens were immediately submitted to the pull-out bond strength test. The specimens were tested in a universal testing machine and the bond strength in MPa was calculated. To assess the stress concentration, the finite element method was used simulating the same post geometries that were used in the in vitro test. Results: Two-way ANOVA (95\%) showed no influence of post geometry on the bond strength (P=0.055) while fatigue cycling was statistical significant to reduce the bond strength values (P=0.000). The factors interaction was significant (P=0.019); however, TUKEY test (5\%) showed no significant difference between post geometries after mechanical cycling. The tensile stress result showed critical areas in the post's cervical region regardless of the design. Conclusion: The FGP geometry does not affect the root stress distribution and the long-term bond strength. However, FGP that allow a reduced cement layer thickness can improve the immediate pull-out bond strength value. (EEJ-2020-09-217)",

author = "\{Reim Del 'Gaudio Piganataro\}, Rossana and \{de Paula Samico\}, Renata and \{Mendes Campaner\}, Larissa and \{Antonio Bottino\}, Marco and \{Luiz Souto Borges\}, Alexandre and \{Mendes Tribst\}, J.P.",

year = "2021",

doi = "10.14744/eej.2020.95967",

language = "English",

volume = "6",

pages = "170--176",

journal = "European endodontic journal",

issn = "2548-0839",

publisher = "Kare Publishing",

number = "2",

}

Reim Del 'Gaudio Piganataro, R, de Paula Samico, R, Mendes Campaner, L, Antonio Bottino, M, Luiz Souto Borges, A & Mendes Tribst, JP 2021, 'Influence of Different Fibreglass Post Geometries on the Stress Distribution and Pull-Out Bond Strength Before and After Mechanical Cycling', European endodontic journal, vol. 6, no. 2, pp. 170-176. https://doi.org/10.14744/eej.2020.95967

Influence of Different Fibreglass Post Geometries on the Stress Distribution and Pull-Out Bond Strength Before and After Mechanical Cycling. / Reim Del 'Gaudio Piganataro, Rossana; de Paula Samico, Renata; Mendes Campaner, Larissa et al.
In: European endodontic journal, Vol. 6, No. 2, 2021, p. 170-176.

Research output: Contribution to Journal › Article › Academic › peer-review

TY - JOUR

T1 - Influence of Different Fibreglass Post Geometries on the Stress Distribution and Pull-Out Bond Strength Before and After Mechanical Cycling

AU - Reim Del 'Gaudio Piganataro, Rossana

AU - de Paula Samico, Renata

AU - Mendes Campaner, Larissa

AU - Antonio Bottino, Marco

AU - Luiz Souto Borges, Alexandre

AU - Mendes Tribst, J.P.

PY - 2021

Y1 - 2021

N2 - Objective: There are no reports in the literature on whether FGP geometry influences the bond strength of the endodontically restored tooth. This study aimed to determine the stress distribution and the pull-out bond strength of different FGP geometries, before and after chewing loads simulation. Methods: One hundred and twenty root analogues were prepared and randomly distributed in six groups according to the post geometry. Half of the specimens were aged in water at 37 °C using a mechanical fatigue machine (84 N, 2 bar, 45°, 106 cycles, 4 Hz); while the remaining specimens were immediately submitted to the pull-out bond strength test. The specimens were tested in a universal testing machine and the bond strength in MPa was calculated. To assess the stress concentration, the finite element method was used simulating the same post geometries that were used in the in vitro test. Results: Two-way ANOVA (95%) showed no influence of post geometry on the bond strength (P=0.055) while fatigue cycling was statistical significant to reduce the bond strength values (P=0.000). The factors interaction was significant (P=0.019); however, TUKEY test (5%) showed no significant difference between post geometries after mechanical cycling. The tensile stress result showed critical areas in the post's cervical region regardless of the design. Conclusion: The FGP geometry does not affect the root stress distribution and the long-term bond strength. However, FGP that allow a reduced cement layer thickness can improve the immediate pull-out bond strength value. (EEJ-2020-09-217)

AB - Objective: There are no reports in the literature on whether FGP geometry influences the bond strength of the endodontically restored tooth. This study aimed to determine the stress distribution and the pull-out bond strength of different FGP geometries, before and after chewing loads simulation. Methods: One hundred and twenty root analogues were prepared and randomly distributed in six groups according to the post geometry. Half of the specimens were aged in water at 37 °C using a mechanical fatigue machine (84 N, 2 bar, 45°, 106 cycles, 4 Hz); while the remaining specimens were immediately submitted to the pull-out bond strength test. The specimens were tested in a universal testing machine and the bond strength in MPa was calculated. To assess the stress concentration, the finite element method was used simulating the same post geometries that were used in the in vitro test. Results: Two-way ANOVA (95%) showed no influence of post geometry on the bond strength (P=0.055) while fatigue cycling was statistical significant to reduce the bond strength values (P=0.000). The factors interaction was significant (P=0.019); however, TUKEY test (5%) showed no significant difference between post geometries after mechanical cycling. The tensile stress result showed critical areas in the post's cervical region regardless of the design. Conclusion: The FGP geometry does not affect the root stress distribution and the long-term bond strength. However, FGP that allow a reduced cement layer thickness can improve the immediate pull-out bond strength value. (EEJ-2020-09-217)

UR - https://www.scopus.com/pages/publications/85127672448

UR - https://www.scopus.com/inward/citedby.url?scp=85127672448&partnerID=8YFLogxK

U2 - 10.14744/eej.2020.95967

DO - 10.14744/eej.2020.95967

M3 - Article

SN - 2548-0839

VL - 6

SP - 170

EP - 176

JO - European endodontic journal

JF - European endodontic journal

IS - 2

ER -

Influence of Different Fibreglass Post Geometries on the Stress Distribution and Pull-Out Bond Strength Before and After Mechanical Cycling

Abstract

Funding

Access to Document

Persistent URL (handle)

Other files and links

Fingerprint

Cite this