Article
Cover
RJDS Journal Cover Page

RGUHS Nat. J. Pub. Heal. Sci Vol No: 16 Issue No: 3   pISSN: 

Article Submission Guidelines

Dear Authors,
We invite you to watch this comprehensive video guide on the process of submitting your article online. This video will provide you with step-by-step instructions to ensure a smooth and successful submission.
Thank you for your attention and cooperation.

Original Article

Dr. Deena Elizabeth, Dr. Shibani Shetty, Dr. Jayalakshmi K B, Dr. Prasannalatha Nadig, Dr. Sujatha I.

Department of Conservative Dentistry and Endodontics, Krishnadevaraya College of Dental Sciences and Hospital, Bangalore, Karnataka, India.

Address for correspondence:

Dr. Deena Elizabeth

Department of Conservative Dentistry and Endodontics, Krishnadevaraya College of Dental Sciences and Hospital, Bangalore, Karnataka, India Ph : 8129852092 Email Id: deenaelizabeth.92@gmail.com

Year: 2019, Volume: 11, Issue: 2, Page no. 11-16, DOI: 10.26715/rjds.11_2_3
Views: 1543, Downloads: 25
Licensing Information:
CC BY NC 4.0 ICON
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0.
Abstract

Objective: To evaluate the colour stability of three different nano composites using a spectrophotometer after bleaching with 10% carbamide peroxide.

Materials and methods: Total of 60 composite disc were prepared and grouped as Group A (n = 20): ceram.x® SphereTEC™ one universal (Densply Asia), Group B (n = 20): Filtek Z250 XT (3M EPSE) and Group C (n = 20):Tetric N-Ceram ( Ivoclar Vivadent). Each group was further subdivided into 2 subgroups of 10 specimens, the control subgroup(n=10): where the samples were stored in distilled water and thetest subgroup(n=10): for which Opalescence PF (Carbamide peroxide 10%) was applied once daily for 4 hours for a total duration of 2 weeks. Color parameters were assessed using a spectophotometerbefore bleaching procedure and after 2 week of bleaching treatment for the test samples and in the control specimens before and after 2 weeks of storage in distilled water. The effect of the type of composite and bleaching agent on the colour parameters was analyzed with the two-way ANOVA. If the interaction effect was significant one-way ANOVA was used.

Results: Group A (ceram.x®)showed the least difference in colour change after the bleaching procedure.

Conclusion: Following bleaching with Opalescence PF, ceram.x® showed the best results of having clinically accepted colour stability.

<p><strong>Objective:</strong> To evaluate the colour stability of three different nano composites using a spectrophotometer after bleaching with 10% carbamide peroxide.</p> <p><strong>Materials and methods: </strong>Total of 60 composite disc were prepared and grouped as Group A (n = 20): ceram.x&reg; SphereTEC&trade; one universal (Densply Asia), Group B (n = 20): Filtek Z250 XT (3M EPSE) and Group C (n = 20):Tetric N-Ceram ( Ivoclar Vivadent). Each group was further subdivided into 2 subgroups of 10 specimens, the control subgroup(n=10): where the samples were stored in distilled water and thetest subgroup(n=10): for which Opalescence PF (Carbamide peroxide 10%) was applied once daily for 4 hours for a total duration of 2 weeks. Color parameters were assessed using a spectophotometerbefore bleaching procedure and after 2 week of bleaching treatment for the test samples and in the control specimens before and after 2 weeks of storage in distilled water. The effect of the type of composite and bleaching agent on the colour parameters was analyzed with the two-way ANOVA. If the interaction effect was significant one-way ANOVA was used.</p> <p><strong>Results:</strong> Group A (ceram.x&reg;)showed the least difference in colour change after the bleaching procedure.</p> <p><strong>Conclusion: </strong>Following bleaching with Opalescence PF, ceram.x&reg; showed the best results of having clinically accepted colour stability.</p>
Keywords
Bleaching, Nanocomposite, Colour Stability
Downloads
  • 1
    FullTextPDF
Article

INTRODUCTION

Smile is the first thing that people notice on meeting a person. It plays such a crucial role in appearance that the aim to achieve the perfect white smile tops the outlook check list. Popularity of aesthetic dentistry has led to a scenario where unaesthetic restoration are being replaced by aesthetic restorations. Due to high aesthetic requirements, most patient for tooth bleaching also opt for aesthetic composite restorations.

The use of more aesthetically pleasingcomposite restorationshas drastically increased. Nanofilled composites claims to have a more considerable colour stability due to their filler characteristics.Introduction of nanotechnology has enabled the nano scale incorporation of nanofiller particles into the resin matrix of composites which has resulted in a substantial upgradation in the overall mechanical and aesthetic properties in comparison with the conventional, conventional resins.1)

Bleaching is a relatively safe aesthetic treatment for whitening the teeth. (2) The contents of the available home and the in - office agents of bleaching include either hydrogen peroxide, carbamide peroxide or sodium perborate. Bleaching fundamentally is an oxidation process by which the molecules causing discoloration are chemically modified (3)

However, one drawback of this procedure is that theteeth reverts back to the original color after a period of time. (4)Satisfactory results persist only for 1-2 years and patient should be advised regarding the need for re-bleaching procedures (5) Hence maintenance therapy of bleaching has become a requisite.

Cases planned for full mouth aesthetic rehabilitation may require teeth bleaching in conjunction with composite restoration. Composites used in such cases should have adequate colour stability to ensuring a limited or insignificant colour change with the bleaching maintenance therapy.

Bleaching agents tend toimpart some colour change in composite restorations. This impactdepends on the composition of the materialtoo.6 Certain studies have concluded that the effect of bleaching treatment with peroxide on the color of composite restorations is not clinically perceptible.7,8

In assessing chromatic differences, generally two systems are used: the Munsell color system and the Standard Comision Internationale de L, Eclairage (CIELAB) Color System. The American Dental Association advices the use of the CIELAB color differential system. Colour stability can be assessed by the CIELAB colorimetric values which can be procured from a spectrophotometer.3

This study was aimed at the spectrophoto metric evaluation the colour stability three commercially available nano composites after bleaching procedure.

Materials and methods

Characteristics of the three different nano composite materialsselected for this studyare presented according to the manufacturers in (Table 1). Composite materials of shade A2 was selected. 60 samples were prepared based on the material used. Specimens were divided into three groups containing 20 samples each:

Group A (n = 20): ceram.x® SphereTEC™ one universal (Densply Asia)

Group B (n = 20): Filtek Z250 XT (3M EPSE)

Group C (n = 20):Tetric N-Ceram ( Ivoclar Vivadent)

The specimens were fabricated using plastic disc molds 10 mm in diameter and 2 mm in depth covered by polyethylene sheets and pressed flat with glass plates (Figure 1). The composite materials were placed incrementally in two stages and cured for 20 seconds after each increment with a LED curing light system through the glass and polyethylene sheets on the top and bottom of the specimens. The composite specimens were polished with a Soflex disc (3M dental products) starting with coarse discs and ending with extra fine discs. Once the specimens were light cured, they were stored in distilled water to complete their polymerization for 24 hours.

Specimens in the three groups were further subdivided into 2 subgroups of 10 specimens each. The specimens were bleached following the manufacturer’s instructions.

Control Subgroup(n=10): Immersed in distilled water

Test Subgroup(n=10): Opalescence PF was applied once daily for 4 hours for a total duration of 2 weeks.

After each cycle of treatment, specimens were cleaned using a soft brush for a duration of 1 min. In between treatment phases, the specimens were immersed in vials filled with distilled water at room temperature. Distilled water was refreshed daily in all groups.

Color Change Measurement

Delta a*, delta b*, delta L*, delta H and delta C color parameters were evaluated in test specimens before and after the 2 week bleaching treatment and in control specimens at baseline and after 2 weeks of storage in distilled water using a spectrophotometer ( DATA COLOR 800) in accordance to the CIE-L*a*b* color space ( Figure 2). CIE L* parameter were as follows: (Table 2)

Statistical analysis

The impact of the type of composite and bleaching agent on delta a*, delta b*, delta L*, delta H and delta C was analyzed with two-way ANOVA. If there was a significant interaction effect, oneway ANOVA was used. Tukey’s HSD test was carried out for multiple comparisons.The level of significance was set at P<0.05. The sample size had been estimated using the GPower software v. 3.1.9.2

Results

Among the A2 shade before bleaching procedure Filtek Z250 XT showed a lighter shadein accordance to the L parameters.Hue value was of A2 shade increased from

Tetric N-Ceram to ceram.x® followed by Filtek Z250 XT. (Figure 3)

After bleaching Tetric N-Ceram showed the lowest L value compared to Filtek Z250 XT and ceram.x®.

The test specimens showed the delta E values of 4.17±2.21, 1.91±1.40 and 1.63±1.40 for Filtek Z250 XT, ceram.x® andTetric N-Ceram respectively after bleaching.ceram.x® presented with the least difference in the colour change in accordance to the delta E values.There was a statistically significant difference of the total colour values of Tetric N-Ceram and Filtek Z250 XT. (Table 3, 4, 5)

After bleaching Tetric N-Ceram showed the lowest L value compared to Filtek Z250 XT and ceram.x®.

The test specimens showed the delta E values of 4.17±2.21, 1.91±1.40 and 1.63±1.40 for Filtek Z250 XT, ceram.x® andTetric N-Ceram respectively after bleaching.ceram.x® presented with the least difference in the colour change in accordance to the delta E values.There was a statistically significant difference of the total colour values of Tetric N-Ceram and Filtek Z250 XT. (Table 3, 4, 5) 

Discussion

Swift et al. concluded from his study that the satisfactory results of bleaching onlypersist for 1-2 years and patient should be advised regarding the need for re-bleaching procedures for 1 week every year.5 The data procured from the studyby Moghadam FV et al clearly indicated that bleached teeth reverted back to the original color.4 All this affirmed the need for a maintenance therapy for the bleaching procedure.

To assess the performance of an aesthetic material in clinical situations, colour stability is an important in vitro analysis. Three recently introduced nanocomposites were selected in the present studyas there was a high demandin the use of nanocomposites owing to their superior properties. These nano composites have gained universal usage because of their advantage of better strength, aesthetics and lower shrinkage. According to Nair et al, itwas deduced that the nanofilled composites with their advanced filler characteristics have a higher color stability compared to the microfilled composite resins.9 The shade A2 was made use in this studyas it is currently the most commonly used shade in dentistry.9

The delta E values of the test specimens were 4.17±2.21, 1.91±1.40 and 1.63±1.40 for Filtek Z250 XT , ceram.x® and Tetric N-Ceram respectively after bleaching of which Tetric N-Ceram and Filtek Z250 XT showed statistically significant colour change. No consensus has been reached on the clinically perceptible ΔE value. Values of 1, 2, more than 3 and even more than 3.7 have been reported to be the clinically perceptible ΔE.10,11,12

Kim JH et al stated thatcross-linking within nano-filled composite make them less prone to change in colourby bleaching procedure.13 Better results of ceram.x® could be due to is composition of organically modified ceramic nano particles comprising polysiloxane back bone. These nanoceramic particles can be best described as inorganic – organic hybrid particles where the inorganic siloxane part imparts the strength and the organic methacrylic part makes the particles compatible and polymerizable with the resin matrix.14

Lower colour stability of Tetric N Ceram could be due of the fillers in it, barium and strontium respectively. These are difficult to incorporate into the resin matrix, when compared with zirconia fillers.9

A study by Al Nuaimi et al reported that composite restorative material with large filler particle size has more color instability than a composite with small fillers.(15)Average particle size of Tetric N-Ceram, Filtek Z250 XT and ceram. x® were 40nm,5-20nm and 10nmrespectively which were consistent with the test values.(14) When comparedwith ceram.x®,Filtek Z250 XTshowed a higher filler content. This could aid in the higher colour stability of ceram.x®.

Conclusion

The current study revealed that ceram. x® presented with best results of clinically accepted colour stability following the use of Opalescence PF bleaching agent.From the clinical stand point while planning for full mouth aesthetic rehabilitation in conjunction with bleaching procedure it is important for the clinician to select a combination ofcomposite and bleaching agent which results in no or minimal colour change. 

Supporting File
References
  1. Sachdeva S, Kapoor P, Tamrakar AK, Noor R. Nano-composite dental resins: an overview. Ann Dent Specialty 2015 Apr- Jun;3(2):52-55.
  2. Hannig C, Duong S, Becker K, Brunner E, Kahler E, Attin T. Effect of bleaching on subsurface microhardness of composite and a polyacid modified composite. Dent Mater 2007;23:198-203.
  3. Rao YM, Srilakshmi V, Vinayagam KK, Narayanan LL. An evaluation of the color stability of tooth-colored restorative materials after bleaching using CIELAB color technique. Indian J Dent Res. 2009;20:60–64
  4. Moghadam FV, Majidinia S, Chasteen J, Ghavamnasiri M. The degree of color change, rebound effect and sensitivity of bleached teeth associated with at-home and power bleaching techniques: A randomized clinical trial. Eur J Dent. 2013;7(4):405–411.
  5. Swift EJ, Jr, May KN, Jr, Wilder AD, Jr, Heymann HO, Bayne SC. Two-year clinical evaluation of tooth whitening using an at-home bleaching system. J Esthet Dent. 1999;11:36–42.
  6. Canay Ş, Çehreli MC. The effect of current bleaching agents on the color of lightpolymerized composites in vitro. J Prosthet Dent 2003;89:474-478.
  7. Swift EJ. Effects of bleaching on tooth structure and restorations, part IV: effects on restorative materials. J Esthet Restor Dent 2008;20:206-211.
  8. Silva Costa SX, Becker AB, de Souza Rastelli AN, de Castro Monteiro Loffredo L, de Andrade MF, Bagnato VS. Effect of four bleaching regimens on color changes and microhardness of dental nanofilled composite. Int J Dent 2009;2009:313845.
  9. Nair SR, Niranjan NT, Jayasheel A, Suryakanth DB. Comparative Evaluation of Colour Stability and Surface Hardness of Methacrylate Based Flowable and Packable Composite -In vitro Study. J Clin Diagn Res. 2017;11(3):ZC51–ZC54.
  10. Monaghan P, Trowbridge T, Lautenschlager E. Composite resin color change after vital tooth bleaching. J Prosthet Dent 1992;67(6):778-781.
  11. Ruyter I, Nilner K, Möller B. Color stability of dental composite resin materials for crown and bridge veneers. Dent Mater 1987;3:246-251.
  12. Johnston W, Kao E. Assessment of appearance match by visual observation and clinical colorimetry. J Dent Res 1989;68:819-822. 
  13.  Kim JH, Lee YK, Lim BS, Rhee SH, Yang HC. Effect of tooth-whitening strips and films on changes in color and surface roughness of resin composites. Clin Oral Invest 2004;8(3):118–122
  14. Hegde MN, Hegde P, Bhandary S, Deepika K. An evalution of compressive strength of newer nanocomposite: An in vitro study. J Conserv Dent 2011;14(1):36-39.
  15. Al Nuaimi, Husham & Ragab, Hala. Effect of aggressive beverage on the color stability of different nano-hybrid resin based composite. European Journal of General Dentistry. 3. 190-193.
  16.  
HealthMinds Logo
RGUHS Logo

© 2024 HealthMinds Consulting Pvt. Ltd. This copyright specifically applies to the website design, unless otherwise stated.

We use and utilize cookies and other similar technologies necessary to understand, optimize, and improve visitor's experience in our site. By continuing to use our site you agree to our Cookies, Privacy and Terms of Use Policies.