Abstract
Objectives: The aim of this study was to investigate variations in the interaction between enamel, that is, the acquired enamel pellicle (AEP) and citric or hydrochloric acid. Materials and Methods: A 24-h AEP was formed on natural enamel specimens (n = 40) from pooled whole mouth human saliva. Samples were randomly allocated to citric (0.3%, pH 3.2) or hydrochloric (HCl) acid (0.01 M, pH 2.38) exposure for 30 or 300 s. The total protein concentration (TPC), and phosphorous and calcium concentrations of the pellicle were determined before and after acid exposure, and again after re-immersion in saliva. Surface roughness and tandem scanning confocal microscopy imaging were used to assess enamel changes. Results: After 300 s of citric acid exposure, the mean ± SD TPC reduced from 5.1 ± 1.1 to 3.5 ± 1.1 mg/mL (p < 0.05). In contrast, after 300 s of HCl exposure, the mean TPC did not reduce significantly from baseline (6.6 ± 1.1 to 5.7 ± 0.7 mg/mL) but was significantly reduced in the reformed pellicle to 4.9 ± 1.2 mg/mL (p < 0.001). This reduction occurred after significant release of calcium and phosphorous from the enamel surface (p < 0.001). Thirty seconds of exposure to either acid had no obvious effect on the AEP. The surface roughness of the enamel decreased after acid exposure but no differences between groups was observed. Conclusions: These findings indicate that citric acid interacted with proteins in the AEP upon contact, offering enamel protection. In contrast, HCl appeared to bypass the pellicle, and reduced protein was observed only after changes in the enamel chemical composition.
References
1.
Amaechi
BT
, Higham
SM
, Edgar
WM
, Milosevic
A
. Thickness of acquired salivary pellicle as a determinant of the sites of dental erosion
. J Dent Res
. 1999
Dec
;78
(12
):1821
–8
.
[PubMed]
0022-03452.
Carlén
A
, Börjesson
AC
, Nikdel
K
, Olsson
J
. Composition of pellicles formed in vivo on tooth surfaces in different parts of the dentition, and in vitro on hydroxyapatite
. Caries Res
. 1998
;32
(6
):447
–55
.
[PubMed]
0008-65683.
Carpenter
G
, Cotroneo
E
, Moazzez
R
, Rojas-Serrano
M
, Donaldson
N
, Austin
R
, et al. Composition of enamel pellicle from dental erosion patients
. Caries Res
. 2014
;48
(5
):361
–7
.
[PubMed]
0008-65684.
de Jong
EP
, van Riper
SK
, Koopmeiners
JS
, Carlis
JV
, Griffin
TJ
. Sample collection and handling considerations for peptidomic studies in whole saliva; implications for biomarker discovery
. Clin Chim Acta
. 2011
Nov
;412
(23-24
):2284
–8
.
[PubMed]
0009-89815.
Dugmore
CR
, Rock
WP
. Asthma and tooth erosion. Is there an association?
Int J Paediatr Dent
. 2003
Nov
;13
(6
):417
–24
.
[PubMed]
0960-74396.
Dynesen
AW
, Bardow
A
, Petersson
B
, Nielsen
LR
, Nauntofte
B
. Salivary changes and dental erosion in bulimia nervosa
. Oral Surg Oral Med Oral Pathol Oral Radiol Endod
. 2008
Nov
;106
(5
):696
–707
.
[PubMed]
1079-21047.
Esser
D
, Alvarez-Llamas
G
, De Vries
MP
, Weening
D
, Vonk
RJ
, Roelofsen
H
: Sample Stability and Protein Composition of Saliva: Implications for Its Use as a Diagnostic Fluid. Biomark Insights 2008
;3:BMI.S607.8.
Ganss
C
, Klimek
J
, Schwarz
N
. A comparative profilometric in vitro study of the susceptibility of polished and natural human enamel and dentine surfaces to erosive demineralization
. Arch Oral Biol
. 2000
Oct
;45
(10
):897
–902
.
[PubMed]
0003-99699.
Hannig
M
, Balz
M
. Influence of in vivo formed salivary pellicle on enamel erosion
. Caries Res
. 1999
Sep-Oct
;33
(5
):372
–9
.
[PubMed]
0008-656810.
Hannig
M
, Fiebiger
M
, Güntzer
M
, Döbert
A
, Zimehl
R
, Nekrashevych
Y
. Protective effect of the in situ formed short-term salivary pellicle
. Arch Oral Biol
. 2004
Nov
;49
(11
):903
–10
.
[PubMed]
0003-996911.
Hannig
M
, Hess
NJ
, Hoth-Hannig
W
, De Vrese
M
. Influence of salivary pellicle formation time on enamel demineralization—an in situ pilot study
. Clin Oral Investig
. 2003
Sep
;7
(3
):158
–61
.
[PubMed]
1432-698112.
Hara
AT
, Ando
M
, González-Cabezas
C
, Cury
JA
, Serra
MC
, Zero
DT
. Protective effect of the dental pellicle against erosive challenges in situ
. J Dent Res
. 2006
Jul
;85
(7
):612
–6
.
[PubMed]
0022-034513.
Johansson
AK
, Lingström
P
, Imfeld
T
, Birkhed
D
. Influence of drinking method on tooth-surface pH in relation to dental erosion
. Eur J Oral Sci
. 2004
Dec
;112
(6
):484
–9
.
[PubMed]
0909-883614.
Lussi
A
, Bossen
A
, Höschele
C
, Beyeler
B
, Megert
B
, Meier
C
, et al. Effects of enamel abrasion, salivary pellicle, and measurement angle on the optical assessment of dental erosion
. J Biomed Opt
. 2012
Sep
;17
(9
):97009
–1
.
[PubMed]
1083-366815.
Martini
T
, Rios
D
, Cassiano
LP
, Silva
CM
, Taira
EA
, Ventura
TM
, et al. Proteomics of acquired pellicle in gastroesophageal reflux disease patients with or without erosive tooth wear
. J Dent
. 2019
Feb
;81
:64
–9
.
[PubMed]
0300-571216.
Moazzez
R
, Bartlett
D
, Anggiansah
A
. Dental erosion, gastro-oesophageal reflux disease and saliva: how are they related?
J Dent
. 2004
Aug
;32
(6
):489
–94
.
[PubMed]
0300-571217.
Moazzez
R
, Bartlett
D
, Anggiansah
A
. The effect of chewing sugar-free gum on gastro-esophageal reflux
. J Dent Res
. 2005
Nov
;84
(11
):1062
–5
.
[PubMed]
0022-034518.
Moazzez
R
, Smith
BG
, Bartlett
DW
. Oral pH and drinking habit during ingestion of a carbonated drink in a group of adolescents with dental erosion
. J Dent
. 2000
Aug
;28
(6
):395
–7
.
[PubMed]
0300-571219.
Moazzez
RV
, Austin
RS
, Rojas-Serrano
M
, Carpenter
G
, Cotroneo
E
, Proctor
G
, et al. Comparison of the possible protective effect of the salivary pellicle of individuals with and without erosion
. Caries Res
. 2014
;48
(1
):57
–62
.
[PubMed]
0008-656820.
Mullan
F
, Austin
RS
, Parkinson
CR
, Bartlett
DW
. An in-situ pilot study to investigate the native clinical resistance of enamel to erosion
. J Dent
. 2018
a Mar
;70
:124
–8
.
[PubMed]
0300-571221.
Mullan
F
, Mylonas
P
, Parkinson
C
, Bartlett
D
, Austin
RS
. Precision of 655nm Confocal Laser Profilometry for 3D surface texture characterisation of natural human enamel undergoing dietary acid mediated erosive wear
. Dent Mater
. 2018
b Mar
;34
(3
):531
–7
.
[PubMed]
0109-564122.
Mutahar
M
, Carpenter
G
, Bartlett
D
, German
M
, Moazzez
R
. The presence of acquired enamel pellicle changes acid-induced erosion from dissolution to a softening process
. Sci Rep
. 2017
a Sep
;7
(1
):10920
.
[PubMed]
2045-232223.
Mutahar
M
, O’Toole
S
, Carpenter
G
, Bartlett
D
, Andiappan
M
, Moazzez
R
. Reduced statherin in acquired enamel pellicle on eroded teeth compared to healthy teeth in the same subjects: an in-vivo study
. PLoS One
. 2017
b Aug
;12
(8
):e0183660
.
[PubMed]
1932-620324.
Mylonas
P
, Austin
RS
, Moazzez
R
, Joiner
A
, Bartlett
DW
. In vitro evaluation of the early erosive lesion in polished and natural human enamel
. Dent Mater
. 2018
Sep
;34
(9
):1391
–400
.
[PubMed]
0109-564125.
Proctor
GB
, Hamdan
S
, Carpenter
GH
, Wilde
P
. A statherin and calcium enriched layer at the air interface of human parotid saliva
. Biochem J
. 2005
Jul
;389
(Pt 1
):111
–6
.
[PubMed]
0264-602126.
Shellis RP r., Featherstone JDB, Lussi A: Understanding the Chemistry of Dental Erosion; in : Erosive Tooth Wear: From Diagnosis to Therapy.
2012
. DOI: 27.
Siqueira
WL
, Bakkal
M
, Xiao
Y
, Sutton
JN
, Mendes
FM
. Quantitative proteomic analysis of the effect of fluoride on the acquired enamel pellicle
. PLoS One
. 2012
;7
(8
):e42204
.
[PubMed]
1932-620328.
Svendsen
IE
, Arnebrant
T
, Lindh
L
. Validation of mechanically-assisted sodium dodecyl-sulphate elution as a technique to remove pellicle protein components from human enamel
. Biofouling
. 2008
;24
(4
):227
–33
.
[PubMed]
0892-701429.
Taira
EA
, Ventura
TM
, Cassiano
LP
, Silva
CM
, Martini
T
, Leite
AL
, et al. Changes in the Proteomic Profile of Acquired Enamel Pellicles as a Function of Their Time of Formation and Hydrochloric Acid Exposure
. Caries Res
. 2018
;52
(5
):367
–77
.
[PubMed]
0008-656830.
Wiegand
A
, Bliggenstorfer
S
, Magalhães
AC
, Sener
B
, Attin
T
. Impact of the in situ formed salivary pellicle on enamel and dentine erosion induced by different acids
. Acta Odontol Scand
. 2008
Aug
;66
(4
):225
–30
.
[PubMed]
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