Skip to search form
Skip to main content
Skip to account menu
Semantic Scholar
Semantic Scholar's Logo
Search 218,262,275 papers from all fields of science
Search
Sign In
Create Free Account
Tooth Remineralization
Known as:
Remineralization, Tooth
Therapeutic technique for replacement of minerals in partially decalcified teeth.
National Institutes of Health
Create Alert
Alert
Related topics
Related topics
2 relations
nursing therapy
standards characteristics
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
Review
2019
Review
2019
Effects of 10,600 nm Carbon Dioxide Laser on Remineralizing Caries: A Literature Review.
K. Luk
,
I. S. Zhao
,
O. Y. Yu
,
Jing Zhang
,
N. Gutknecht
,
C. Chu
Photobiomodulation, photomedicine, and laser…
2019
Corpus ID: 204755096
Objective: To study the effects of carbon dioxide (CO2) lasers (λ = 10,600 nm) on remineralizing dental caries. Methods: This…
Expand
2019
2019
Enhanced Delivery of F−, Ca2+, K+, and Na+ Ions into Enamel by Electrokinetic Flows
C. Peng
,
F. B. D. Sousa
,
+7 authors
Jongyoon Han
Journal of dentistry research
2019
Corpus ID: 59249947
As the outermost layer of the tooth crown, dental enamel is the most mineralized tissue in mammals, consisting of hydroxyapatite…
Expand
2016
2016
FT-Raman Spectroscopy Study of the Remineralization of Microwave-Exposed Artificial Caries
J. E. Kerr
,
G. Arndt
,
D.L. Byerly
,
R. Rubinovitz
,
C. Theriot
,
I. Stangel
Journal of dentistry research
2016
Corpus ID: 2048488
Dental caries is a microbially mediated disease that can result in significant tooth structure degradation. Although the…
Expand
2016
2016
Protection of Demineralized Enamel Surfaces in Temporary Teeth Using Fluorinated Varnishes
D. Jumanca
,
Atena Galuscan
,
A. Podariu
2016
Corpus ID: 2983278
Temporary teeth are often neglected because uninformed patients consider them less important since they are to be replaced anyway…
Expand
2014
2014
Bioinspired amphiphilic phosphate block copolymers as non-fluoride materials to prevent dental erosion.
Y. Lei
,
Tongxin Wang
,
J. Mitchell
,
L. Zaidel
,
J. Qiu
,
L. Kilpatrick-Liverman
RSC Advances
2014
Corpus ID: 36295284
Inspired by the fact that certain natural proteins, e.g. casein phosphopeptide or amelogenin, are able to prevent tooth erosion…
Expand
2013
2013
Addition of Hydroxyapatite to Toothpaste and Its Effect to Dentin Remineralization
Alexander Sadiasa
,
D. Jang
,
S. Nath
,
H. Seo
,
Hyn Mo Yang
,
Byong-Taek Lee
2013
Corpus ID: 54701967
In this study, hydroxyapatite (HAp) was incorporated into toothpaste and its effect on the remineralization and restoration of…
Expand
2012
2012
Clinical evaluation of the efficacy of bioactive glass and strontium chloride for treatment of dentinal hypersensitivity
S. Ananthakrishna
,
T. N. Raghu
,
S. Koshy
,
Naveen Kumar
2012
Corpus ID: 72690380
Objective: Bioactive glass is a calcium sodium phosphosilicate material (24.5% CaO, 24.5% Na 2 O, 6.0% P 2 O 5 , and 45% SiO 2…
Expand
2012
2012
Strontium doped calcium phosphate spheres: dentinal tubules filler and tooth remineralization
W. Xia
,
H. Engqvist
2012
Corpus ID: 135611991
Strontium doped calcium phosphate spheres: dentinal tubules filler and tooth remineralization
2009
2009
[Study on remineralization of human fluorosed teeth in vitro].
Liya Luo
,
Yong Wang
,
Hong Li
,
Hui Zheng
,
Siliang Gao
Hua xi kou qiang yi xue za zhi = Huaxi kouqiang…
2009
Corpus ID: 25580742
OBJECTIVE To investigate the transformation of microhardness and microstructures of human dental fluorosis after demineralization…
Expand
2000
2000
Experimental study of phosphopeptide in promoting tooth remineralization.
L. Zhang
,
Z. Li
,
Y. Dong
The Chinese journal of dental research : the…
2000
Corpus ID: 42862446
OBJECTIVE To explore a new method for effective and safe prevention and treatment of caries. METHODS Following the theory of…
Expand
By clicking accept or continuing to use the site, you agree to the terms outlined in our
Privacy Policy
(opens in a new tab)
,
Terms of Service
(opens in a new tab)
, and
Dataset License
(opens in a new tab)
ACCEPT & CONTINUE