Aim: A combination of the proteins casein and mucin is known to modify the salivary pellicle and improve its protection of the underlying enamel from erosion. It is so far not known if this protection is confined solely to erosion, or if it also extends to abrasion, and this in vitro study aimed at investigating this question. Methods: A total of 72 human enamel specimens were prepared and randomly assigned to four groups: pellicle (P), casein/mucin (CM), pellicle + casein/mucin (PCM), and control (Ctrl). Each specimen underwent five cycles, each cycle consisting of a pellicle/treatment part, an erosion part (3 min in 1% citric acid, pH 3.6, 25°C, 70 rpm), and an abrasion part (50 toothbrush strokes within 25 s in toothpaste slurry with a 200-g load). The pellicle/treatment part consisted of 2 h of incubation in whole human saliva for group P, 2 h of incubation (25°C, 70 rpm) in a protein mixture of 1% casein and 0.27% mucin for group CM, and 2 h of incubation in saliva followed by 2 h of incubation in the protein mixture for group PCM. The fourth group (Ctrl) served as the control and was kept in a humid chamber without saliva or protein treatment. The enamel surfaces were scanned with an optical profilometer initially and after the final cycle, and surface loss was analyzed. Furthermore, the surface microhardness (SMH) was measured initially, after each pellicle/treatment part and each erosion cycle, and after the final abrasion cycle. The results were analyzed with Kruskal-Wallis and Wilcoxon tests with Bonferroni corrections. Results: The different treatments did not show differences in surface loss and therefore did not protect enamel from surface loss by abrasion. Nonetheless, we observed differences in the SMH values, namely the Ctrl group being significantly softer than the experimental groups. Conclusion: The observed differences in SMH suggest that a different abrasion protocol could lead to differences in surface loss, and further investigation of whether and under which conditions pellicle modification leads to increased resistance to abrasion remains worthwhile.

1.
Barbour
ME
,
Shellis
RP
,
Parker
DM
,
Allen
GC
,
Addy
M
.
Inhibition of hydroxyapatite dissolution by whole casein: the effects of pH, protein concentration, calcium, and ionic strength
.
Eur J Oral Sci
.
2008
Oct
;
116
(
5
):
473
8
.
[PubMed]
0909-8836
2.
Bobe
G
,
Beitz
DC
,
Freeman
AE
,
Lindberg
GL
.
Separation and quantification of bovine milk proteins by reversed-phase high-performance liquid chromatography
.
J Agric Food Chem
.
1998
Feb
;
46
(
2
):
458
63
.
[PubMed]
0021-8561
3.
Buzalaf
MA
,
Hannas
AR
,
Kato
MT
:
Saliva and dental erosion.
Journal of applied oral science : revista FOB
2012
;20:493-502.
4.
Carvalho
FG
,
Brasil
VL
,
Silva Filho
TJ
,
Carlo
HL
,
Santos
RL
,
Lima
BA
.
Protective effect of calcium nanophosphate and CPP-ACP agents on enamel erosion
.
Braz Oral Res
.
2013
Nov-Dec
;
27
(
6
):
463
70
.
[PubMed]
1806-8324
5.
Chaudhury
NM
,
Shirlaw
P
,
Pramanik
R
,
Carpenter
GH
,
Proctor
GB
.
Changes in saliva rheological properties and mucin glycosylation in dry mouth
.
J Dent Res
.
2015
Dec
;
94
(
12
):
1660
7
.
[PubMed]
0022-0345
6.
Cheaib
Z
,
Lussi
A
.
Impact of acquired enamel pellicle modification on initial dental erosion
.
Caries Res
.
2011
;
45
(
2
):
107
12
.
[PubMed]
0008-6568
7.
Cheaib
Z
,
Rakmathulina
E
,
Lussi
A
,
Eick
S
.
Impact of acquired pellicle modification on adhesion of early colonizers
.
Caries Res
.
2015
;
49
(
6
):
626
32
.
[PubMed]
0008-6568
8.
Ganss
C
,
Marten
J
,
Hara
AT
,
Schlueter
N
.
Toothpastes and enamel erosion/abrasion - Impact of active ingredients and the particulate fraction
.
J Dent
.
2016
Nov
;
54
:
62
7
.
[PubMed]
0300-5712
9.
Hannig
M
,
Hannig
C
.
The pellicle and erosion
.
Monogr Oral Sci
.
2014
;
25
:
206
14
.
[PubMed]
0077-0892
10.
Ionta
FQ
,
Alencar
CRB
,
Val
PP
,
Boteon
AP
,
Jordao
MC
,
Honorio
HM
,
Buzalaf
MAR
,
Rios
D
:
Effect of vegetable oils applied over acquired enamel pellicle on initial erosion.
Journal of applied oral science : revista FOB
2017
;25:420-426.
11.
Joiner
A
,
Muller
D
,
Elofsson
UM
,
Arnebrant
T
.
Ellipsometry analysis of the in vitro adsorption of tea polyphenols onto salivary pellicles
.
Eur J Oral Sci
.
2004
Dec
;
112
(
6
):
510
5
.
[PubMed]
0909-8836
12.
Joiner
A
,
Muller
D
,
Elofsson
UM
,
Malmsten
M
,
Arnebrant
T
.
Adsorption from black tea and red wine onto in vitro salivary pellicles studied by ellipsometry
.
Eur J Oral Sci
.
2003
Oct
;
111
(
5
):
417
22
.
[PubMed]
0909-8836
13.
Joiner
A
,
Schwarz
A
,
Philpotts
CJ
,
Cox
TF
,
Huber
K
,
Hannig
M
.
The protective nature of pellicle towards toothpaste abrasion on enamel and dentine
.
J Dent
.
2008
May
;
36
(
5
):
360
8
.
[PubMed]
0300-5712
14.
Lindh
L
,
Aroonsang
W
,
Sotres
J
,
Arnebrant
T
.
Salivary pellicles
.
Monogr Oral Sci
.
2014
;
24
:
30
9
.
[PubMed]
0077-0892
15.
Poggio
C
,
Ceci
M
,
Beltrami
R
,
Lombardini
M
,
Colombo
M
.
Atomic force microscopy study of enamel remineralization
.
Ann Stomatol (Roma)
.
2014
Nov
;
5
(
3
):
98
102
.
[PubMed]
1824-0852
16.
Ranjitkar
S
,
Kaidonis
JA
,
Richards
LC
,
Townsend
GC
.
The effect of CPP-ACP on enamel wear under severe erosive conditions
.
Arch Oral Biol
.
2009
Jun
;
54
(
6
):
527
32
.
[PubMed]
0003-9969
17.
Reich
M
,
Kümmerer
K
,
Al-Ahmad
A
,
Hannig
C
.
Fatty acid profile of the initial oral biofilm (pellicle): an in-situ study
.
Lipids
.
2013
Sep
;
48
(
9
):
929
37
.
[PubMed]
0024-4201
18.
Rios
D
,
Honório
HM
,
Magalhães
AC
,
Silva
SM
,
Delbem
AC
,
Machado
MA
, et al.
Scanning electron microscopic study of the in situ effect of salivary stimulation on erosion and abrasion in human and bovine enamel
.
Braz Oral Res
.
2008
Apr-Jun
;
22
(
2
):
132
8
.
[PubMed]
1806-8324
19.
Santiago
AC
,
Khan
ZN
,
Miguel
MC
,
Gironda
CC
,
Soares-Costa
A
,
Pelá
VT
, et al.
A new sugarcane cystatin strongly binds to dental enamel and reduces erosion
.
J Dent Res
.
2017
Aug
;
96
(
9
):
1051
7
.
[PubMed]
0022-0345
20.
Schüpbach
P
,
Neeser
JR
,
Golliard
M
,
Rouvet
M
,
Guggenheim
B
.
Incorporation of caseinoglycomacropeptide and caseinophosphopeptide into the salivary pellicle inhibits adherence of mutans streptococci
.
J Dent Res
.
1996
Oct
;
75
(
10
):
1779
88
.
[PubMed]
0022-0345
21.
Shellis
RP
,
Ganss
C
,
Ren
Y
,
Zero
DT
,
Lussi
A
.
Methodology and models in erosion research: discussion and conclusions
.
Caries Res
.
2011
;
45
(
s1
Suppl 1
):
69
77
.
[PubMed]
0008-6568
22.
Sieber
KR
,
Schmidt
C
,
Baumann
T
,
Lussi
A
,
Carvalho
TS
.
Acquired enamel pellicle modification with casein and mucin in different concentrations and its impact on initial dental erosion
.
Caries Res
.
2019
;
53
(
4
):
457
66
.
[PubMed]
0008-6568
23.
Siqueira
WL
,
Custodio
W
,
McDonald
EE
.
New insights into the composition and functions of the acquired enamel pellicle
.
J Dent Res
.
2012
Dec
;
91
(
12
):
1110
8
.
[PubMed]
0022-0345
24.
Van Nieuw Amerongen
A
,
Bolscher
JG
,
Veerman
EC
.
Salivary proteins: protective and diagnostic value in cariology?
Caries Res
.
2004
May-Jun
;
38
(
3
):
247
53
.
[PubMed]
0008-6568
25.
Ventura
TM
,
Cassiano
LP
,
Souza E Silva
CM
,
Taira
EA
,
Leite
AL
,
Rios
D
, et al.
The proteomic profile of the acquired enamel pellicle according to its location in the dental arches
.
Arch Oral Biol
.
2017
Jul
;
79
:
20
9
.
[PubMed]
0003-9969
26.
Voronets
J
,
Lussi
A
.
Thickness of softened human enamel removed by toothbrush abrasion: an in vitro study
.
Clin Oral Investig
.
2010
Jun
;
14
(
3
):
251
6
.
[PubMed]
1432-6981
27.
White
AJ
,
Gracia
LH
,
Barbour
ME
.
Inhibition of dental erosion by casein and casein-derived proteins
.
Caries Res
.
2011
;
45
(
1
):
13
20
.
[PubMed]
0008-6568
28.
Yakubov
GE
.
Lubrication
.
Monogr Oral Sci
.
2014
;
24
:
71
87
.
[PubMed]
0077-0892
29.
Zero
DT
,
Rahbek
I
,
Fu
J
,
Proskin
HM
,
Featherstone
JD
.
Comparison of the iodide permeability test, the surface microhardness test, and mineral dissolution of bovine enamel following acid challenge
.
Caries Res
.
1990
;
24
(
3
):
181
8
.
[PubMed]
0008-6568
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