Laboratory simulation of longitudinally cracked teeth using the step-stress cyclic loading method

F. Lin; R. Ordinola-Zapata; H. Xu; Y. C. Heo; A. Fok

doi:10.1111/iej.13530

Laboratory simulation of longitudinally cracked teeth using the step-stress cyclic loading method

F. Lin, R. Ordinola-Zapata, H. Xu, Y. C. Heo, A. Fok

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Aim: To simulate in a laboratory setting longitudinal cracking in root filled premolar teeth, using cyclic mechanical fatigue. Methodology: Mesial-occlusal-distal (MOD) cavities were prepared in twenty root filled, single-rooted, mandibular premolars restored with fibre posts and resin composites. The samples were randomly divided into two groups based on the loading approaches: static loading with a crosshead speed of 0.5 mm/min and step-stress cyclic loading (1 Hz) with increasing amplitude. The loads and numbers of cycles to failure were recorded. Micro-CT was also used to identify the fracture modes. Statistical analysis was performed using Student's t-test. The level of significance was set at 0.05. Results: The mean fracture loads for the static loading and cyclic loading groups were 769 ± 171 N and 720 ± 92 N, respectively. There was no significant difference between the two groups (P > 0.05). The proportions of longitudinal, cuspal and mixed-mode fractures under cyclic loading were 50%, 20% and 30%, respectively. Longitudinal fractures occurred with larger numbers of cycles and higher average loads per cycle compared with the other fractures. Static loading produced only cuspal fractures. Conclusions: Longitudinally cracked premolar teeth with root fillings were successfully produced using the step-stress cyclic loading method. This provides a more clinically representative methodology for studying cracked teeth in a laboratory setting.

Original language	English (US)
Pages (from-to)	1638-1646
Number of pages	9
Journal	International Endodontic Journal
Volume	54
Issue number	9
Early online date	Apr 14 2021
DOIs	https://doi.org/10.1111/iej.13530
State	Published - Sep 2021

Bibliographical note

Funding Information:
The authors would like to acknowledge Dr. Scott McClanahan from the University of Minnesota for providing the endodontic instruments and the Minnesota Dental Research Center for Biomaterials and Biomechanics for the financial support to the first author with a Key Opinion Leaders Scholarship sponsored by 3Mgives. Dr Ordinola‐Zapata receives research support from a pre‐K grant from the National Institutes of Health’s Nactional Center for Advancing Translational Sciences, UL1TR002494 (CTSI‐UMN).

Funding Information:
The authors would like to acknowledge Dr. Scott McClanahan from the University of Minnesota for providing the endodontic instruments and the Minnesota Dental Research Center for Biomaterials and Biomechanics for the financial support to the first author with a Key Opinion Leaders Scholarship sponsored by 3Mgives. Dr Ordinola-Zapata receives research support from a pre-K grant from the National Institutes of Health?s Nactional Center for Advancing Translational Sciences, UL1TR002494 (CTSI-UMN).

Publisher Copyright:
© 2021 International Endodontic Journal. Published by John Wiley & Sons Ltd

Keywords

cracked tooth
cyclic loading
longitudinal fracture
static loading

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10.1111/iej.13530

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@article{b829d51c4c0e4bc3a7200df5c115393f,

title = "Laboratory simulation of longitudinally cracked teeth using the step-stress cyclic loading method",

abstract = "Aim: To simulate in a laboratory setting longitudinal cracking in root filled premolar teeth, using cyclic mechanical fatigue. Methodology: Mesial-occlusal-distal (MOD) cavities were prepared in twenty root filled, single-rooted, mandibular premolars restored with fibre posts and resin composites. The samples were randomly divided into two groups based on the loading approaches: static loading with a crosshead speed of 0.5 mm/min and step-stress cyclic loading (1 Hz) with increasing amplitude. The loads and numbers of cycles to failure were recorded. Micro-CT was also used to identify the fracture modes. Statistical analysis was performed using Student's t-test. The level of significance was set at 0.05. Results: The mean fracture loads for the static loading and cyclic loading groups were 769 ± 171 N and 720 ± 92 N, respectively. There was no significant difference between the two groups (P > 0.05). The proportions of longitudinal, cuspal and mixed-mode fractures under cyclic loading were 50%, 20% and 30%, respectively. Longitudinal fractures occurred with larger numbers of cycles and higher average loads per cycle compared with the other fractures. Static loading produced only cuspal fractures. Conclusions: Longitudinally cracked premolar teeth with root fillings were successfully produced using the step-stress cyclic loading method. This provides a more clinically representative methodology for studying cracked teeth in a laboratory setting.",

keywords = "cracked tooth, cyclic loading, longitudinal fracture, static loading",

author = "F. Lin and R. Ordinola-Zapata and H. Xu and Heo, {Y. C.} and A. Fok",

note = "Funding Information: The authors would like to acknowledge Dr. Scott McClanahan from the University of Minnesota for providing the endodontic instruments and the Minnesota Dental Research Center for Biomaterials and Biomechanics for the financial support to the first author with a Key Opinion Leaders Scholarship sponsored by 3Mgives. Dr Ordinola‐Zapata receives research support from a pre‐K grant from the National Institutes of Health{\textquoteright}s Nactional Center for Advancing Translational Sciences, UL1TR002494 (CTSI‐UMN). Funding Information: The authors would like to acknowledge Dr. Scott McClanahan from the University of Minnesota for providing the endodontic instruments and the Minnesota Dental Research Center for Biomaterials and Biomechanics for the financial support to the first author with a Key Opinion Leaders Scholarship sponsored by 3Mgives. Dr Ordinola-Zapata receives research support from a pre-K grant from the National Institutes of Health?s Nactional Center for Advancing Translational Sciences, UL1TR002494 (CTSI-UMN). Publisher Copyright: {\textcopyright} 2021 International Endodontic Journal. Published by John Wiley & Sons Ltd",

year = "2021",

month = sep,

doi = "10.1111/iej.13530",

language = "English (US)",

volume = "54",

pages = "1638--1646",

journal = "International Endodontic Journal",

issn = "0143-2885",

publisher = "Wiley-Blackwell",

number = "9",

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T1 - Laboratory simulation of longitudinally cracked teeth using the step-stress cyclic loading method

AU - Lin, F.

AU - Ordinola-Zapata, R.

AU - Xu, H.

AU - Heo, Y. C.

AU - Fok, A.

N1 - Funding Information: The authors would like to acknowledge Dr. Scott McClanahan from the University of Minnesota for providing the endodontic instruments and the Minnesota Dental Research Center for Biomaterials and Biomechanics for the financial support to the first author with a Key Opinion Leaders Scholarship sponsored by 3Mgives. Dr Ordinola‐Zapata receives research support from a pre‐K grant from the National Institutes of Health’s Nactional Center for Advancing Translational Sciences, UL1TR002494 (CTSI‐UMN). Funding Information: The authors would like to acknowledge Dr. Scott McClanahan from the University of Minnesota for providing the endodontic instruments and the Minnesota Dental Research Center for Biomaterials and Biomechanics for the financial support to the first author with a Key Opinion Leaders Scholarship sponsored by 3Mgives. Dr Ordinola-Zapata receives research support from a pre-K grant from the National Institutes of Health?s Nactional Center for Advancing Translational Sciences, UL1TR002494 (CTSI-UMN). Publisher Copyright: © 2021 International Endodontic Journal. Published by John Wiley & Sons Ltd

PY - 2021/9

Y1 - 2021/9

N2 - Aim: To simulate in a laboratory setting longitudinal cracking in root filled premolar teeth, using cyclic mechanical fatigue. Methodology: Mesial-occlusal-distal (MOD) cavities were prepared in twenty root filled, single-rooted, mandibular premolars restored with fibre posts and resin composites. The samples were randomly divided into two groups based on the loading approaches: static loading with a crosshead speed of 0.5 mm/min and step-stress cyclic loading (1 Hz) with increasing amplitude. The loads and numbers of cycles to failure were recorded. Micro-CT was also used to identify the fracture modes. Statistical analysis was performed using Student's t-test. The level of significance was set at 0.05. Results: The mean fracture loads for the static loading and cyclic loading groups were 769 ± 171 N and 720 ± 92 N, respectively. There was no significant difference between the two groups (P > 0.05). The proportions of longitudinal, cuspal and mixed-mode fractures under cyclic loading were 50%, 20% and 30%, respectively. Longitudinal fractures occurred with larger numbers of cycles and higher average loads per cycle compared with the other fractures. Static loading produced only cuspal fractures. Conclusions: Longitudinally cracked premolar teeth with root fillings were successfully produced using the step-stress cyclic loading method. This provides a more clinically representative methodology for studying cracked teeth in a laboratory setting.

AB - Aim: To simulate in a laboratory setting longitudinal cracking in root filled premolar teeth, using cyclic mechanical fatigue. Methodology: Mesial-occlusal-distal (MOD) cavities were prepared in twenty root filled, single-rooted, mandibular premolars restored with fibre posts and resin composites. The samples were randomly divided into two groups based on the loading approaches: static loading with a crosshead speed of 0.5 mm/min and step-stress cyclic loading (1 Hz) with increasing amplitude. The loads and numbers of cycles to failure were recorded. Micro-CT was also used to identify the fracture modes. Statistical analysis was performed using Student's t-test. The level of significance was set at 0.05. Results: The mean fracture loads for the static loading and cyclic loading groups were 769 ± 171 N and 720 ± 92 N, respectively. There was no significant difference between the two groups (P > 0.05). The proportions of longitudinal, cuspal and mixed-mode fractures under cyclic loading were 50%, 20% and 30%, respectively. Longitudinal fractures occurred with larger numbers of cycles and higher average loads per cycle compared with the other fractures. Static loading produced only cuspal fractures. Conclusions: Longitudinally cracked premolar teeth with root fillings were successfully produced using the step-stress cyclic loading method. This provides a more clinically representative methodology for studying cracked teeth in a laboratory setting.

KW - cracked tooth

KW - cyclic loading

KW - longitudinal fracture

KW - static loading

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Laboratory simulation of longitudinally cracked teeth using the step-stress cyclic loading method

Abstract

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