Post on 13-Jul-2015
Effect of ascorbic acid on bond strength between the hydrogen
peroxide-treated fiber post and composite resin corehttp://www.jcd.org.in/text.asp?2014%2F17%2F3%2F220%2F131779
By:
Reza Talebian ALS, DDS, CCRD
Contact with the author:.
Reza Talebian ALS, DDS, CCRD
. Cosmetic & Reconstructive Dentist at Dental Private Practice
. wWw.QueenDent.cO.uK
. wWw.QueenDent.Ir
. email: QueenDent.Co.Uk@gmail.com
INTRODUCTION…
Reza Talebian ALS, DDS, CCRD
Fiber-reinforced posts have been a common choice for restoring
endodontically treated teeth.
Advantages:
provide good esthetic results
better stress distribution
adhesion to tooth structure
etc.
Reza Talebian ALS, DDS, CCRD
Surface functional groups are so important in effective bonding of post surface to composite resin core and luting cement.
Surface treatments of fiber posts are performed to overcome lack of insufficient functional groups.
Surface treatments may be:
a. Mechanical
use of Sand blasting or air abrasion with silica particles fitness
b. Chemical
Use of potassium permanganate, hydrofluoric acid, silane and hydrogen peroxide
Reza Talebian ALS, DDS, CCRD
Hydrogen peroxide mechanism of action:
Dissolving epoxy resins
Exposing fibers more functional group
Enhancement of micromechanical retention
Reza Talebian ALS, DDS, CCRD
A Question!
WHY yet ..
The fiber post‒composite resin core interface is yet the
weakest area? .. Not as strongest as we wish!
A possible answer:
It appears that release of oxygen free radicals from the entrapped
hydrogen peroxide in micro-porosities of the post surface is
responsible for this problem.
Reza Talebian ALS, DDS, CCRD
Reza Talebian ALS, DDS, CCRD
How overcome this problem?
Using of agents which may have reducing properties and ability to scavenge free radicals!
ANTI-OXIDANTS
Reza Talebian ALS, DDS, CCRD
ASCORBIC ACIDAs an anti-oxidant
Studies showed it can reverse the compromised bond strength between composite resin and tooth structures after bleaching. Attin T et al.,
Kimyai S et al.
Therefore, it is possible that free radicals on the post surface are removed by ascorbic acid.
Due to the lack of sufficient data concerning the role of antioxidants in
adhesion of fiber post to composite core, this study was carried out to
evaluate the effect of ascorbic acid on bond strength between the hydrogen
peroxide-treated fiber post and composite resin core.
Reza Talebian ALS, DDS, CCRD
Materials & Methods
…
Reza Talebian ALS, DDS, CCRD
Twenty-four N-2 white quartz fiber posts
(DT. Light-Post™, RTD, St. Egreve, France)
immersed in 24% hydrogen peroxide
solution for 10 minutes
at room temperature
rinsed with distilled water
for two minutes
gently air-dried
Reza Talebian ALS, DDS, CCRD
The treated posts were divided into 4 GroupsBased up on the duration of ascorbic acid used
control group 10 min ASC* 30min ASC 60 min ASC
G1 G2 G3 G4
*. Ascorbic acid
Reza Talebian ALS, DDS, CCRD
Each post was positioned upright on a glass slide in the center of a cylindrical poly-glass matrix with a diameter of 10 mm and a height of 6 mm.
A light-cured flow-able composite was applied around the post in 1-mm-thick increments and each layer was separately cured using a halogen light-curing for 40 seconds with an intensity of 450 mW/cm².
All the prepared samples were stored in deionized water at 37°C for 24 hours.
Reza Talebian ALS, DDS, CCRD
Each sample was sectioned by a water-cooled blade of a sectioning machine
Reza Talebian ALS, DDS, CCRD
First, two sections were made parallel to the long axis of the post, followed by sections perpendicular to the long axis of the post. The final sections contained the posts in the center and composite resin cores on both ends and had a diameter of 1±0.1 mm, measured by a digital caliper
Two sticks were selected from each post.
Each stick was glued to the two free-sliding
components of a jig mounted on the micro-tensile
tester to be applied by purely tensile forces.
The sticks were loaded at a crosshead speed
of 0.5 mm/min until failure.
Bond strength was expressed in MPa.
(by the load at failure point (N) by the bonding surface area (mm2).
Reza Talebian ALS, DDS, CCRD
Data were analyzed by one-way ANOVA and
Tukey HSD tests using SPSS 16.0 version
Statistical significance was set at α= 0.05
.
Reza Talebian ALS, DDS, CCRD
Failure modes of the samples were observed under a stereomicroscope at
×20 magnification and scored as:
cohesive failure (failure in the post or the core material),
adhesive failure (failure at the interface of post and core material),
or mixed failure (adhesive-cohesive failure).
Reza Talebian ALS, DDS, CCRD
Two fractured sticks of each group were randomly selected for evaluation of
the morphology of fractured surfaces under a scanning electron microscope
(SEM) at 300, 500 and 2000 magnifications.
The specimens were cleaned for 5 minutes in distilled water. Then they were immersed in 95% ethanol and gently air-dried. Each specimen was gold sputter-coated .
Reza Talebian ALS, DDS, CCRD
R E S U L T S
…
Reza Talebian ALS, DDS, CCRD
One-way ANOVA demonstrated significant differences between the
study groups (P<0.05)
Paired comparisons of groups showed significant differences
between Groups 1 and 2, 1 and 3, 2 and 3, 3 and 4 (P<0.05).
Lowest bond strength values G1: Control group
Highest bond strength values G4: ASC 60 min
Reza Talebian ALS, DDS, CCRD
P*FMean SquareDfSum of
squares
Bond Strength(MPa)
(Mean SD)NGroups
.000129.985238.5523715.657Between Groups
10.10 0.5561
1.8354480.750Within Groups
12.64 0.9562
47796.407Total
14.87 1.3163
20.55 2.0964
* Groups labeled with the same letter superscripts are significantly different (p<0.05).
Reza Talebian ALS, DDS, CCRD
Reza Talebian ALS, DDS, CCRD
Stereomicroscopic evaluation revealed that all the failures in Groups
1, 2 and 3 were adhesive failures but 3 samples in Group 4 showed
mixed failures.
SEM evaluation demonstrated the exposed fibers in adhesively failed
samples (Fig. 1: A1, 2, B1, 2) and different values of epoxy resin on fiber
posts in mixed failures (Fig. 1: C2).
Reza Talebian ALS, DDS, CCRD
Reza Talebian ALS, DDS, CCRD
D I S C U S I O N
…
Reza Talebian ALS, DDS, CCRD
Many studies have evaluated the effects of surface treatments on adhesion of fiber-reinforced posts to cores. Monticelli F et al., Vano M et al.
Adhesion of post to composite resin core plays an important role in the longevity of restoration.
Applying hydrogen peroxide on quartz fiber posts is a conservative procedure for overcoming this problem.
The presence of oxygen free radicals could compromise bond of post‒core interface.
Thus, the present study was carried out to evaluate the effect of ascorbic acid around this subject.
Reza Talebian ALS, DDS, CCRD
The findings of this study indicated that use of ascorbic acid enhanced micro-tensile bond strength of quartz fiber post to composite resin core compared with control group, when post surface was treated with hydrogen peroxide.
This considerable increase might be attributed to the anti-oxidative effect of ascorbic acid.
Ascorbic acid is an accessible non-enzymatic antioxidant agent which has exogenous source.
The main property of ascorbic acid is its ability for transmission of electron to oxygen free radicals and providing a stable form of the material. Therefore, it acts as a reducing agent and has an inhibitory effect on hydrogen peroxide-derived oxygen free radicals
Reza Talebian ALS, DDS, CCRD
The results of the present study are consistent with those of a study conducted by Talebian R. et al. which showed that antioxidant agents (A.O.) increase adhesion of post and core,
Wetson showed that the considerable reduction in resin‒dentin bond strength, which resulted from the use of 5.25% NaOCl irrigations, can be reversed by 10% sodium ascorbate treatment.
Increase was directly proportional to the duration of ascorbic acid application
More exposure time to A.O. More anti-oxidative effect(we found it just in a-60-minute exposure time, no more time experimented)
Reza Talebian ALS, DDS, CCRD
no studies to determine the minimum application time of ascorbic acid on fiber post surface The duration of 10 minutes was selected based on study results of Turkun et al. and Kaya et al.
Selection of a 60-minute duration in the present study was based on the study by Kaya et al. have been used longer times of 60, 120, 240 and 480 minutes.
More than 60 minute exposure time seems not clinically applicable.
Ten percent solution of ASC was applied in the present study as it is suggested to be the minimum effective concentration. Comlekoglu et al., Kimia et al.,
Weston et al.
Reza Talebian ALS, DDS, CCRD
Evaluation of sample fracture modes in groups revealed that the majority of fractures were adhesive
Observation of 3 mixed fracture modes within group 4 might be an indication of bond strength reinforcement between the post and core.
SEM assessment was performed to confirm stereomicroscopic findings.
Previous studied reported a 10% ascorbic acid salt can compensate the reduced bond strength of dentin to composite resin after bleaching..
however, only one study had utilized this solution on the post surfaces.
Reza Talebian ALS, DDS, CCRD
The micro-tensile bond strength test was performed according to previous studies, which have proved it is a standard test for bond strength testing in small sections. Elsaka SE. et al., Goracci C. et al.
Flowable composite resins have a good penetration property into surface porosities after application of hydrogen peroxide. In addition, they are easily handled.
The solution form accelerates onset of action and is recommended for shorter clinical time of application ( but with difficult manipulation) . Kaya
AD. et al.
Reza Talebian ALS, DDS, CCRD
Recommendations:
Use of other forms of this material, e.g. hydro-gel form. clinically more acceptable
Carrying thermo-cycling out. More similarity to the oral condition
Application and comparison of other new antioxidants. More effective A.O. finding
Reza Talebian ALS, DDS, CCRD
C O N C L U S I O N
…
Reza Talebian ALS, DDS, CCRD
Within the limits of this study, it can be concluded that:
1: Application of ascorbic acid can increase micro-tensile bond strength
between the hydrogen peroxide-treated fiber posts and composite resin
cores.
2: The increase may dependent on the duration of exposure to the
antioxidant.
http://www.jcd.org.in/text.asp?2014%2F17%2F3%2F220%2F131779
Reza Talebian ALS, DDS, CCRD
F I N I S H
Reza Talebian ALS, DDS, CCRD