Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass

Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass

Background/Purpose: One effective way to deal with dentin hypersensitivity is to develop materials to seal the tubules. The porous bio-calcium carbonate-silica (BCCS) contained well-dispersed CaCO3 would form calcium phosphates to seal the dentinal tubules when mixed with an acidic solution. The aci...

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Main Authors: Hao-Hueng Chang, Chun-Liang Yeh, Yin-Lin Wang, Guan-Wen Liu, Hong-Ping Lin, Chun-Pin Lin
Format: Article
Language:English
Published: Elsevier 2020-12-01
Series:Journal of the Formosan Medical Association
Subjects:
Biocompatible materials
Dental seal
Dentin sensitivity
Dentin permeability
Green chemistry technology
Online Access:http://www.sciencedirect.com/science/article/pii/S0929664620300681
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spelling doaj-91cf24ff9dd540098a191d9ba077bccb2020-11-25T04:09:13ZengElsevierJournal of the Formosan Medical Association0929-66462020-12-011191218351841Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grassHao-Hueng Chang0Chun-Liang Yeh1Yin-Lin Wang2Guan-Wen Liu3Hong-Ping Lin4Chun-Pin Lin5Graduate Institute of Clinical Dentistry, School of Dentistry, National Taiwan University, No. 1, Changde Street, Taipei, 10048, TaiwanGraduate Institute of Clinical Dentistry, School of Dentistry, National Taiwan University, No. 1, Changde Street, Taipei, 10048, TaiwanGraduate Institute of Clinical Dentistry, School of Dentistry, National Taiwan University, No. 1, Changde Street, Taipei, 10048, TaiwanDepartment of Chemistry, National Cheng Kung University, No.1, Daxue Rd., Tainan City, 701, TaiwanDepartment of Chemistry, National Cheng Kung University, No.1, Daxue Rd., Tainan City, 701, Taiwan; Corresponding author.Graduate Institute of Clinical Dentistry, School of Dentistry, National Taiwan University, No. 1, Changde Street, Taipei, 10048, Taiwan; Corresponding author. Department of Dentistry, National Taiwan University Hospital, No.1, Changde Street, Taipei, 10048, Taiwan. Fax: +886 2 23831346.Background/Purpose: One effective way to deal with dentin hypersensitivity is to develop materials to seal the tubules. The porous bio-calcium carbonate-silica (BCCS) contained well-dispersed CaCO3 would form calcium phosphates to seal the dentinal tubules when mixed with an acidic solution. The acidic hydrothermal treatment and calcination to isolate the BCCS from the agricultural waste like equisetum grass was used, which would be more environmentally friendly than chemically synthesized mesoporous biomaterials. The aim of this study was to develop mesoporous materials from natural resources to occlude the dentinal tubules which could be more environmentally-friendly. Methods: Dentin disc samples were prepared and treated with different methods as follows: (1) BCCS mixed with H3PO4; (2) BCCS mixed with KH2PO4; (3) Seal & Protect® was used as a comparison group. Sealing efficacy was evaluated by measuring the depths and percentages of precipitate occlusion in dentinal tubules with SEM. Results: The N2 adsorption–desorption isotherm of the BCCS demonstrated a pore size of around 15.0 nm and a surface area of 61 m2g-1. From the results of occlusion percentage and depth, the BCCS treated with H3PO4 or KH2PO4 demonstrated promising sealing efficacy than the commercial product. Conclusion: This synthetic process used the agricultural waste equisetum grass to produce bio-calcium carbonate-silica would be environmentally friendly, which has great potential in treating exposed dentin related diseases.http://www.sciencedirect.com/science/article/pii/S0929664620300681Biocompatible materialsDental sealDentin sensitivityDentin permeabilityGreen chemistry technology
collection DOAJ
language English
format Article
sources DOAJ
author Hao-Hueng Chang
Chun-Liang Yeh
Yin-Lin Wang
Guan-Wen Liu
Hong-Ping Lin
Chun-Pin Lin
spellingShingle Hao-Hueng Chang
Chun-Liang Yeh
Yin-Lin Wang
Guan-Wen Liu
Hong-Ping Lin
Chun-Pin Lin
Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass
Journal of the Formosan Medical Association
Biocompatible materials
Dental seal
Dentin sensitivity
Dentin permeability
Green chemistry technology
author_facet Hao-Hueng Chang
Chun-Liang Yeh
Yin-Lin Wang
Guan-Wen Liu
Hong-Ping Lin
Chun-Pin Lin
author_sort Hao-Hueng Chang
title Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass
title_short Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass
title_full Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass
title_fullStr Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass
title_full_unstemmed Crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass
title_sort crystal growth in dentinal tubules with bio-calcium carbonate-silica sourced from equisetum grass
publisher Elsevier
series Journal of the Formosan Medical Association
issn 0929-6646
publishDate 2020-12-01
description Background/Purpose: One effective way to deal with dentin hypersensitivity is to develop materials to seal the tubules. The porous bio-calcium carbonate-silica (BCCS) contained well-dispersed CaCO3 would form calcium phosphates to seal the dentinal tubules when mixed with an acidic solution. The acidic hydrothermal treatment and calcination to isolate the BCCS from the agricultural waste like equisetum grass was used, which would be more environmentally friendly than chemically synthesized mesoporous biomaterials. The aim of this study was to develop mesoporous materials from natural resources to occlude the dentinal tubules which could be more environmentally-friendly. Methods: Dentin disc samples were prepared and treated with different methods as follows: (1) BCCS mixed with H3PO4; (2) BCCS mixed with KH2PO4; (3) Seal & Protect® was used as a comparison group. Sealing efficacy was evaluated by measuring the depths and percentages of precipitate occlusion in dentinal tubules with SEM. Results: The N2 adsorption–desorption isotherm of the BCCS demonstrated a pore size of around 15.0 nm and a surface area of 61 m2g-1. From the results of occlusion percentage and depth, the BCCS treated with H3PO4 or KH2PO4 demonstrated promising sealing efficacy than the commercial product. Conclusion: This synthetic process used the agricultural waste equisetum grass to produce bio-calcium carbonate-silica would be environmentally friendly, which has great potential in treating exposed dentin related diseases.
topic Biocompatible materials
Dental seal
Dentin sensitivity
Dentin permeability
Green chemistry technology
url http://www.sciencedirect.com/science/article/pii/S0929664620300681
work_keys_str_mv AT haohuengchang crystalgrowthindentinaltubuleswithbiocalciumcarbonatesilicasourcedfromequisetumgrass
AT chunliangyeh crystalgrowthindentinaltubuleswithbiocalciumcarbonatesilicasourcedfromequisetumgrass
AT yinlinwang crystalgrowthindentinaltubuleswithbiocalciumcarbonatesilicasourcedfromequisetumgrass
AT guanwenliu crystalgrowthindentinaltubuleswithbiocalciumcarbonatesilicasourcedfromequisetumgrass
AT hongpinglin crystalgrowthindentinaltubuleswithbiocalciumcarbonatesilicasourcedfromequisetumgrass
AT chunpinlin crystalgrowthindentinaltubuleswithbiocalciumcarbonatesilicasourcedfromequisetumgrass
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