Evaluation of permanent and primary enamel and dentin mineral density using micro-computed tomography

Objectives The present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to establish the standard density per tooth type using micro-computed tomography (CT). Methods Fifty-seven extracted human teeth (37 permanent, 20...

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Published in	Oral radiology Vol. 35; no. 1; pp. 29 - 34
Main Authors	Hayashi-Sakai, Sachiko, Sakamoto, Makoto, Hayashi, Takafumi, Kondo, Tatsuya, Sugita, Kaito, Sakai, Jun, Shimomura-Kuroki, Junko, Ike, Makiko, Nikkuni, Yutaka, Nishiyama, Hideyoshi
Format	Journal Article
Language	English
Published	Singapore Springer Singapore 01.01.2019 Springer Nature B.V
Subjects	Bone mineral density Computed tomography Dental enamel Dentin Dentistry Enamel Fractures Hypophosphatasia Imaging Mathematical models Mechanical properties Medicine Oral and Maxillofacial Surgery Original Article Radiology Teeth Dentin Primary teeth Mineral density Micro-computed tomography Enamel
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Abstract	Objectives The present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to establish the standard density per tooth type using micro-computed tomography (CT). Methods Fifty-seven extracted human teeth (37 permanent, 20 primary) were evaluated in the present study. The enamel and dentin mineral densities in the extracted teeth were measured using micro-CT. Cubic regression curves were used to determine the mineral density distribution in the enamel and dentin for each tooth type. Results The mean values, distributions, and regression equations of the mineral densities were obtained. The mean mineral density values for permanent enamel and dentin were significantly higher than those for their primary counterparts for each tooth type. Conclusions In the present study, we demonstrated the distribution of mineral density in sound enamel and dentin and attempted to determine the standard mineral density for each tooth type using micro-CT. The mineral density distributions found in this study contribute to our understanding of the mechanical properties of enamel and dentin. A positive correlation suggests that the systemic bone mineral density could be predicted based on the analysis of exfoliated teeth, such as in patients with hypophosphatasia. The present results may be useful in establishing a numerical standard for the mechanism involved in root fracture and for early detection of root fracture risk.
AbstractList	The present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to establish the standard density per tooth type using micro-computed tomography (CT). Fifty-seven extracted human teeth (37 permanent, 20 primary) were evaluated in the present study. The enamel and dentin mineral densities in the extracted teeth were measured using micro-CT. Cubic regression curves were used to determine the mineral density distribution in the enamel and dentin for each tooth type. The mean values, distributions, and regression equations of the mineral densities were obtained. The mean mineral density values for permanent enamel and dentin were significantly higher than those for their primary counterparts for each tooth type. In the present study, we demonstrated the distribution of mineral density in sound enamel and dentin and attempted to determine the standard mineral density for each tooth type using micro-CT. The mineral density distributions found in this study contribute to our understanding of the mechanical properties of enamel and dentin. A positive correlation suggests that the systemic bone mineral density could be predicted based on the analysis of exfoliated teeth, such as in patients with hypophosphatasia. The present results may be useful in establishing a numerical standard for the mechanism involved in root fracture and for early detection of root fracture risk. OBJECTIVESThe present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to establish the standard density per tooth type using micro-computed tomography (CT). METHODSFifty-seven extracted human teeth (37 permanent, 20 primary) were evaluated in the present study. The enamel and dentin mineral densities in the extracted teeth were measured using micro-CT. Cubic regression curves were used to determine the mineral density distribution in the enamel and dentin for each tooth type. RESULTSThe mean values, distributions, and regression equations of the mineral densities were obtained. The mean mineral density values for permanent enamel and dentin were significantly higher than those for their primary counterparts for each tooth type. CONCLUSIONSIn the present study, we demonstrated the distribution of mineral density in sound enamel and dentin and attempted to determine the standard mineral density for each tooth type using micro-CT. The mineral density distributions found in this study contribute to our understanding of the mechanical properties of enamel and dentin. A positive correlation suggests that the systemic bone mineral density could be predicted based on the analysis of exfoliated teeth, such as in patients with hypophosphatasia. The present results may be useful in establishing a numerical standard for the mechanism involved in root fracture and for early detection of root fracture risk. Objectives The present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to establish the standard density per tooth type using micro-computed tomography (CT). Methods Fifty-seven extracted human teeth (37 permanent, 20 primary) were evaluated in the present study. The enamel and dentin mineral densities in the extracted teeth were measured using micro-CT. Cubic regression curves were used to determine the mineral density distribution in the enamel and dentin for each tooth type. Results The mean values, distributions, and regression equations of the mineral densities were obtained. The mean mineral density values for permanent enamel and dentin were significantly higher than those for their primary counterparts for each tooth type. Conclusions In the present study, we demonstrated the distribution of mineral density in sound enamel and dentin and attempted to determine the standard mineral density for each tooth type using micro-CT. The mineral density distributions found in this study contribute to our understanding of the mechanical properties of enamel and dentin. A positive correlation suggests that the systemic bone mineral density could be predicted based on the analysis of exfoliated teeth, such as in patients with hypophosphatasia. The present results may be useful in establishing a numerical standard for the mechanism involved in root fracture and for early detection of root fracture risk.
Author	Nikkuni, Yutaka Sugita, Kaito Nishiyama, Hideyoshi Hayashi-Sakai, Sachiko Kondo, Tatsuya Sakamoto, Makoto Sakai, Jun Hayashi, Takafumi Shimomura-Kuroki, Junko Ike, Makiko
Author_xml	– sequence: 1 givenname: Sachiko surname: Hayashi-Sakai fullname: Hayashi-Sakai, Sachiko email: sachipro@dent.niigata-u.ac.jp organization: Division of Oral and Maxillofacial Radiology, Niigata University Graduate School of Medical and Dental Sciences – sequence: 2 givenname: Makoto surname: Sakamoto fullname: Sakamoto, Makoto organization: Department of Health Sciences, Faculty of Medicine, Niigata University – sequence: 3 givenname: Takafumi surname: Hayashi fullname: Hayashi, Takafumi organization: Division of Oral and Maxillofacial Radiology, Niigata University Graduate School of Medical and Dental Sciences – sequence: 4 givenname: Tatsuya surname: Kondo fullname: Kondo, Tatsuya organization: Department of Health Sciences, Faculty of Medicine, Niigata University – sequence: 5 givenname: Kaito surname: Sugita fullname: Sugita, Kaito organization: Department of Health Sciences, Faculty of Medicine, Niigata University – sequence: 6 givenname: Jun surname: Sakai fullname: Sakai, Jun organization: Department of System and Automotive Engineering, Niigata College of Technology – sequence: 7 givenname: Junko surname: Shimomura-Kuroki fullname: Shimomura-Kuroki, Junko organization: Department of Pediatric Dentistry, The Nippon Dental University, School of Life Dentistry at Niigata – sequence: 8 givenname: Makiko surname: Ike fullname: Ike, Makiko organization: Division of Oral and Maxillofacial Radiology, Niigata University Graduate School of Medical and Dental Sciences – sequence: 9 givenname: Yutaka surname: Nikkuni fullname: Nikkuni, Yutaka organization: Division of Oral and Maxillofacial Radiology, Niigata University Graduate School of Medical and Dental Sciences – sequence: 10 givenname: Hideyoshi surname: Nishiyama fullname: Nishiyama, Hideyoshi organization: Division of Oral and Maxillofacial Radiology, Niigata University Graduate School of Medical and Dental Sciences
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References	Hayashi-Sakai, Sakai, Sakamoto, Kouda, Noda (CR1) 2006; 6 Alajaji, Bardwell, Finkelman, Ali (CR16) 2016; 29 Xu, Zheng, Shao, Song, Zhang, Wang (CR7) 2014; 42 Feldkamp, Davis, Kress (CR13) 1984; 1 Craig, Gehring, Peyton (CR5) 1959; 38 Bowen, Rodriguez (CR6) 1962; 64 Neves, Vargas, Santos, Lopes, Sousa (CR15) 2016; 72 CR14 Zou, Hunter, Swain (CR8) 2011; 90 Hayashi-Sakai, Hayashi, Sakamoto, Sakai, Shimomura-Kuroki, Nishiyama (CR12) 2016; 2016 Hayashi-Sakai, Sakai, Sakamoto, Endo (CR2) 2012; 23 Park, Wang, Zhang, Romberg, Arola (CR4) 2008; 19 Hayashi-Sakai, Numa-Kinjoh, Sakamoto, Sakai, Matsuyama, Mitomi (CR11) 2016; 40 Marshall, Balooch, Gallagher, Gansky, Marshall (CR3) 2001; 54 Davis, Wong (CR9) 1996; 17 Hayashi-Sakai, Sakai, Kitamura, Sakamoto, Taguchi (CR10) 2008; 18 315_CR14 W Zou (315_CR8) 2011; 90 AA Neves (315_CR15) 2016; 72 RL Bowen (315_CR6) 1962; 64 LA Feldkamp (315_CR13) 1984; 1 S Hayashi-Sakai (315_CR1) 2006; 6 S Hayashi-Sakai (315_CR12) 2016; 2016 NK Alajaji (315_CR16) 2016; 29 GW Marshall (315_CR3) 2001; 54 GR Davis (315_CR9) 1996; 17 H Xu (315_CR7) 2014; 42 S Hayashi-Sakai (315_CR10) 2008; 18 S Hayashi-Sakai (315_CR11) 2016; 40 RG Craig (315_CR5) 1959; 38 S Hayashi-Sakai (315_CR2) 2012; 23 S Park (315_CR4) 2008; 19
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Snippet	Objectives The present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to... The present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to establish the... ObjectivesThe present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to... OBJECTIVESThe present study was performed to investigate the mineral density distribution in enamel and dentin for both permanent and primary teeth and to...
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SubjectTerms	Bone mineral density Computed tomography Dental enamel Dentin Dentistry Enamel Fractures Hypophosphatasia Imaging Mathematical models Mechanical properties Medicine Oral and Maxillofacial Surgery Original Article Radiology Teeth
Title	Evaluation of permanent and primary enamel and dentin mineral density using micro-computed tomography
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