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Review Article | Open Access
Volume 2018 | Article ID 7868531 | https://doi.org/10.1155/2018/7868531
Bruno G. S. Casado,1Sandra L. D. Moraes,1Gleicy F. M. Souza,1Catia M. F. Guerra,2Juliana R. Souto-Maior,1Cleidiel A. A. Lemos,3Belmiro C. E. Vasconcelos,1and Eduardo P. Pellizzer3
Academic Editor: Izzet Yavuz
Received16 Mar 2018
Accepted13 Aug 2018
Published30 Oct 2018
Abstract
A systematic review was performed to evaluate whether whitening toothpastes promote tooth whitening when compared to the use of conventional (nonbleaching) dentifrices. This review was registered at PROSPERO (CRD42017065132) and is based on the Preferred Reporting Items for Systematic Reviews and Meta-Analyses. Electronic systematic searches of PubMed/MEDLINE, Scopus, and the Cochrane Library were conducted for published articles. Only randomized clinical trials in adults that compared the use of so-called whitening dentifrices to the use of nonwhitening dentifrices were selected. The outcome was tooth color change. Twenty-two articles from 703 data sources met the eligibility criteria. After title and abstract screening, 16 studies remained, after which a further five studies were excluded. In total, nine studies were qualitatively analyzed. Significant differences in tooth color change were found between the groups using whitening dentifrices and those using nonwhitening dentifrices. Within the limitations of this study, the evidence from this systematic review suggests that bleaching dentifrices have potential in tooth whitening. However, although many whitening dentifrices have been introduced into the dental market for bleaching treatments, it is important to analyze tooth surface and color changes when performing home bleaching.
1. Introduction
Tooth discoloration is one of the most commonly reported complaints in patients seeking aesthetic treatment. Variation in tooth color can be influenced by intrinsic and extrinsic factors, ranging from chemical ingestion to consumption of foods that cause staining [1, 2].
Currently, there are several products on the market that remove stains and claim to whiten teeth. Options range from simple professional prophylaxis and the application of bleaching gels to vital teeth for home use or supervised in a dental office [3]. Bleaching gels normally consist of different concentrations of hydrogen peroxide or carbamide peroxide and involve various forms of application. Furthermore, these different applications result in different mechanisms of activation, which provide dental bleaching through oxi-reduction reactions, based on partial oxidation of the active principle, through which the whitening agent alters the structure of pigment molecules, thus promoting tooth whitening [4, 5].
Several companies have developed bleaching toothpastes, which are considered an alternative to home and/or dental whitening procedures, and which promise bleaching results within 2 to 4 weeks. These toothpastes thus offer increasingly simpler and less costly bleaching methods for those wishing to have whiter teeth [6, 7]. Many of these bleaching toothpastes contain hydrogen peroxide, whereas others contain abrasive components, which promote the removal of extrinsic stains [7, 8].
These abrasives may remove blemishes from the coronary surfaces, giving rise to the idea that alterations in tooth coloration have occurred, which is often used as a marketing strategy by companies to show that teeth are healthy. However, little is known about the efficacy of these bleaching dentifrices compared with conventional (nonbleaching) dentifrices and their effects/alterations on stained teeth regardless of etiology [7, 9, 10].
Therefore, the objective of this systematic review was to evaluate whether whitening toothpastes promote tooth whitening when compared to the use of nonbleaching dentifrices. The hypothesis of the study is that bleaching dentifrices do not promote tooth whitening.
2. Materials and Methods
2.1. Protocol Registration
The current systematic review was performed following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses. The methods used in this review are registered on PROSPERO (CRD42017065132).
2.2. Research Methods
The selection of articles was performed individually by two authors (Bruno G. S. Casado and Cleidiel A. A. Lemos) using published papers found in the Cochrane Library, PubMed/MEDLINE, and Scopus databases from inception to December 2017. The following terms were used in the search strategy: “tooth bleaching and dentifrice OR dental bleaching and dentifrice OR tooth bleaching and toothpaste OR dental bleaching and toothpaste.”
Two researchers also manually searched for papers published up to December 2017 in specific journals such as Dental Materials and Journal of Dentistry and Operative Dentistry. A third author (Gleicy F. M. Souza) determined divergences in paper selection by the researchers and a consensus was obtained through discussion.
2.3. Eligibility Criteria
The selection criteria included randomized clinical trials (RCTs) and articles published in English. The exclusion criteria included prospective and retrospective studies, crossover studies, in vitro studies, animal studies, mechanical studies, case reports, and literature reviews.
2.4. Search Strategy
Clinical studies were selected from the title and abstract through electronic searches conducted by two independent researchers. In studies where it was not possible to obtain sufficient information, the complete article was downloaded. After reading the title and abstract, the studies that did not meet the inclusion criteria were excluded.
The following specific question was elaborated based on the population, intervention, control, and outcomes criteria: “Do bleaching dentifrices effectively promote tooth whitening?” According to these criteria, the population was composed of patients who used dentifrices, and the intervention was the use of so-called whitening dentifrices compared with the use of nonwhitening dentifrices. The evaluated outcome was the efficacy of bleaching dentifrices on tooth color change.
2.5. Risk of Bias and Evaluation of Study Quality
Two investigators (Bruno G. S. Casado and Cleidiel A. A. Lemos) evaluated the methodological quality of the included studies using bias analyses based on the Cochrane criteria for assessing the risk of bias. This tool assessed the quality and risk of bias of the included studies based on sequence generation, allocation concealment, blinding of participants, personnel or outcome investigator, incomplete outcome data, selective outcome reporting, and other sources of bias and was rated as low/high or unclear risk of bias according to the studies evaluated.
2.6. Data Collection and Analysis
The data collected from the articles were classified as quantitative and qualitative by one researcher (Bruno G. S. Casado) and then verified by another researcher (Gleicy F. M. Souza). All disagreements were resolved by a third researcher (Cleidiel A. A. Lemos) through discussion until a consensus was reached. Quantitative and qualitative data were tabulated to aid the comparison.
2.7. Additional Analysis
An additional analysis was performed using the kappa coefficient, which was calculated to establish the interexaminer agreement in study selection from the three databases. The kappa value was obtained by evaluating the titles and abstracts selected. The Cochrane Library (K = 0.94), PubMed/MEDLINE (K = 0.71), and Scopus (K = 0.92) showed a high level of agreement.
3. Results
The database search identified a total of 703 articles, 287 of which were from PubMed/MEDLINE, 303 from Scopus, and 113 from the Cochrane Library. After removal of duplicate references and a thorough review of titles and abstracts, 16 studies were read in full. After reading, nine studies were excluded (Table 1). Details regarding the search strategy are presented in the flow diagram (Figure 1).
Table 1
Reasons for exclusion of “9” articles.
Figure 1
Flow chart showing the steps in the literature search.
In total, seven studies were selected for qualitative analyses and are summarized in Table 2. All selected studies were RCTs published between 2001 and 2016. A total of 1,399 patients with a mean age of 36.89 years were included in the studies, of which 879 used some type of dentifrice considered to be a bleaching agent by the manufacturer. The groups of patients evaluated varied according to the dentifrice, and the effectiveness of nine products was tested: Arm & Hammer® Advance White® Extreme Whitening Baking Soda and Peroxide Toothpaste (), Arm & Hammer® Truly Radiant Toothpaste (), Crest® 3-D white radiant mint toothpaste (), Crest® Extra whitening (), Colgate® Simple White® Advanced Whitening Toothpaste Sparkling Mint (), Colgate® Baking Soda Peroxide (), Colgate Luminous White® (), Close-Up White Now® (), and Oral B 3D white ().
Table 2
Summary of characteristics of included studies.
The bleaching effectiveness of the studied dentifrices was evaluated. Four studies showed that the products evaluated were effective in bleaching teeth using the VITA color scale (subjective method), and three studies showed that the products were effective in bleaching teeth using spectrophotometry (objective method).
In relation to daily brushing frequency, most studies [20–24] reported that using toothpaste twice a day increased tooth whitening, but two studies indicated that patients who brushed three times a day were more likely to have whiter teeth. In addition, the follow-up period ranged from 5 days to 8 weeks, with the most common period being 4 weeks (six studies). All studies included in this review examined subjects who used conventional toothpaste (not considered to have a bleaching effect by the manufacturers) as the control group.
The relevance of the articles included in this systematic review was considered satisfactory as all studies were RCTs with a low risk of bias (Figure 2). We included Cochrane randomized clinical trial studies to determine the bias scale in each study. All included studies were characterized as double-blind (randomized studies were performed with the patient and the evaluator blinded to the product), which is considered important in understanding responses in experimental clinical research.
Figure 2
Cochrane scale for bias risk.
3.1. Bleaching Effectiveness
In the four studies that evaluated tooth color change using the VITA shade guide, all studies [20, 22–24] reported that bleaching dentifrices were effective for tooth whitening when compared with regular dentifrices (). However, Gerlach et al. [20] found differences between the groups only in the evaluation period following 4 weeks of dentifrice use.
In the studies that used a spectrophotometer to analyze tooth whitening, two studies [21, 25] demonstrated that bleaching dentifrices differed in relation to conventional dentifrices. However, Horn et al. [25] tested three different dentifrices, and found that only the use of Colgate Luminous White® had a tooth-whitening effect after 2 weeks. In agreement, a study by Pintado-Palomino et al. [7] showed that most bleaching and control dentifrices showed similar clinical performances, without a significant chromatic reduction, during a 4-week follow-up period.
4. Discussion
The results of this systematic review indicate that most of the included studies showed a significant change in dental coloration following the use of commercially available bleaching dentifrice agents when used for a period of between 5 days and 8 weeks.
Although peroxide bleaching materials are well-established for aesthetic tooth whitening, the use of these substances in dentifrices is quite limited [25]. In addition to causing alterations in products, high concentrations of hydrogen peroxide need to be counterbalanced by the use of soft tissue protective barriers in order to maintain contact with dental surfaces, which is not the case with bleaching toothpastes [8].
However, Isaacs et al. [21], Kakar et al. [22], and Ghassemi et al. [23] observed that the presence of 1.0% hydrogen peroxide in the chemical formulation of dentifrices caused tooth coloration changes when compared with nonwhitening toothpastes. These findings agreed with those obtained by Sharma et al. [17] who demonstrated the bleaching potential of these dentifrices and concluded that the presence of hydrogen peroxide was able to significantly interfere with dental chromatic alterations over a brushing period of 2 to 6 weeks. Therefore, it is important to consider the concentration of hydrogen peroxide and its contact time as important contributors to effective tooth whitening [19].
On the other hand, studies by Gerlach et al. [20], Horn et al. [25], and Ghassemi et al. [24] tested bleaching dentifrices that were free from any type of peroxide and obtained satisfactory results regarding changes in tooth coloration during the use of these toothpastes. These results may have been due to the presence of high performance abrasive agents contained in the bleaching dentifrices such as silica, which was present in almost all products included in this review [7, 21–25]. These abrasive agents promote the gradual physical removal of extrinsic pigments without effectively whitening teeth. Therefore, these bleaching dentifrices are sometimes considered only as surface spot removers [7, 8, 25].
Interestingly, the studies by Hilgenberg et al. [26] and Özkan et al. [27] showed that bleaching dentifrices promoted morphological changes on the surfaces of tooth enamel. Therefore, it is important to consider that brushing with toothpastes containing abrasive substances should be done with caution, as the indiscriminate use of dentifrices with large quantities of these agents can lead to irreversible damage of hard dental tissues and restorative materials; they can also lead to recession of the gingiva, abrasion in the cervical region, and in some cases, dentin hypersensitivity [8, 26].
Another limiting factor is that these studies did not use similar evaluation methods, making it difficult to compare the parameters studied in the coloration change analyses in this review. Dozic et al. [28] proposed that the spectrophotometer was the most reliable instrument on the market for tooth coloration analysis; the accuracy of the results is related to the positioning of the equipment at the same point of the dental surface at all times of analysis [14].
However, among the studies selected in this review which used spectrophotometry as the evaluation method, only the study by Isaacs et al. [21] demonstrated a significant color change following use of the bleaching dentifrices. This probably occurred because the products tested by Isaacs et al. [21] contained hydrogen peroxide associated with a high performance silica. These results are in agreement with those by Sharma et al. [17], who confirmed that these two substances in a dentifrice were able to remove extrinsic stains, reducing the yellow color pigmentation ( parameter) of the teeth, when compared to conventional dentifrices.
The findings of Horn et al. [25] and Pintado-Palomino et al. [7], who also used spectrophotometry as a method of evaluation, did not show a significant difference between bleaching and conventional dentifrices, a factor justified by the absence of hydrogen peroxide in the dentifrices tested. Although in the study by Horn et al. [25], a statistical difference was shown in one of the test groups (Colgate Luminous White dentifrice) by altering the values of (brightness), it was also seen that according to the NBS criterion, the value of was 1.15, which meant a change in color was not perceived by the human eye. This change in luminosity probably occurred due to the presence of abrasive contents in this dentifrice, such as hydrated silica.
The four studies that used the VITA shade guide observed a statistically significant difference between the test and control groups. These favorable findings may have been attributed to the method used to analyze the color on the total surface of the tooth, without taking into account specific points [14].
The limitations of the present systematic review include the following: the lack of clinical studies using the same method to evaluate the color of dental substrates, in order to allow a comparison of the parameters included in the data analysis; the lack of studies that took into account the durability of color change following discontinuation of the bleaching dentifrices; and the studies did not take into account the frequency of brushing with bleaching dentifrices, as brushing time can influence color change. [7]. Thus, future studies are necessary in order to investigate characteristics such as morphological alterations of the dental surface caused by dentifrice materials, in order to establish an effective time-of-use protocol, the influence of dentifrice components on whitening properties, and the durability of tooth whitening after whitening toothpaste is discontinued.
5. Conclusions
Within the limitations of this study, the evidence from this systematic review suggested that bleaching dentifrices have potential in tooth whitening. However, these results should be interpreted with caution before any decision is made, and more randomized clinical trials are required to better determine the efficacy of bleaching dentifrices due to their possible morphological alterations of dental tissues.
Conflicts of Interest
The authors declare that there are no conflicts of interest regarding the publication of this paper.
References
V. B. Haywood, “Nightguard vital bleaching: current concepts and research,” Journal of the American Dental Association, vol. 128, pp. 19S–25S, 1997.
View at:
C. D. Lynch and R. J. McConnell, “The use of microabrasion to remove discolored enamel: a clinical report,” Journal of Prosthetic Dentistry, vol. 90, no. 5, pp. 417–419, 2003.
View at:
A. Joiner, “The bleaching of teeth: a review of the literature,” Journal of Dentistry, vol. 34, no. 7, pp. 412–419, 2006.
View at:
M. Goldberg, M. Grootveld, and E. Lynch, “Undesirable and adverse effects of tooth-whitening products: a review,” Clinical Oral Investigations, vol. 14, no. 1, pp. 1–10, 2010.
View at:
H. Eimar, R. Siciliano, M. Abdallah et al., “Hydrogen peroxide whitens teeth by oxidizing the organic structure,” Journal of Dentistry, vol. 40, no. 2, pp. 25–33, 2012.
View at:
N. C. A. Claydon, J. Moran, M. L. Bosma, S. Shirodaria, M. Addy, and R. Newcombe, “Clinical study to compare the effectiveness of a test whitening toothpaste with a commercial whitening toothpaste at inhibiting dental stain,” Journal of Clinical Periodontology, vol. 31, no. 12, pp. 1088–1091, 2004.
View at:
K. Pintado-Palomino, C. V. M. Vasconcelos, R. J. Silva et al., “Effect of whitening dentifrices: a double-blind randomized controlled trial,” Brazilian Oral Research, vol. 30, no. 1, p. 82, 2016.
View at:
A. Joiner, “Whitening toothpastes: a review of the literature,” Journal of Dentistry, vol. 38, no. 2, pp. e17–e24, 2010.
View at:
E. Macdonald, A. North, B. Maggio et al., “Clinical Study investigating abrasive effects of three toothpastes and water in a in situ model,” Journal of Dentistry, vol. 38, no. 6, pp. 509–516, 2010.
View at:
C. N. Soraes, F. L. Amaral, M. F. Mesquita, F. M. Franca, R. T. Basting, and C.P. Turssi, “Toothpastes containing abrasive and chemical whitening agents: efficacy in reducing extrinsic dental staining,” General Dentistry, vol. 63, no. 6, pp. e24–e28, 2015.
View at:
C. Llena, C. Oteo, J. Oteo, J. Amengual, and L. Forner, “Clinical efficacy of a bleaching enzume-based toothpaste. A double-blind controlled clinical trial,” Journal of Dentistry, vol. 44, pp. 8–12, 2016.
View at:
R. J. G. Motta, R. Juns Da Silva, L. E. Adami, R. P. Souza, F. C. P. Pires-De-Souza, and C. Tirapelli, “Effectiveness of bleaching dentifrices: a randomized, double-blind, placebo-controlled clinical study,” in Proceedings of the General Session of the International Association for Dental Research, Seattle, WA, USA, March 2013.
View at:
L. Forner, J. Amengual, C. Llena, and P. Riutord, “Therapeutic effectiveness of a new enzymatic bleaching dentifrice,” European Journal of Esthetic Dentistry, vol. 7, no. 1, pp. 62–70, 2012.
View at:
S. Raoufi and D. Birkhed, “Effect of whitening toothpastes on tooth staining using two different colour measuring devices—a 12-week clinical trial,” International Dental Journal, vol. 60, no. 6, pp. 419–423, 2010.
View at:
L. Z. Collins, M. Naeeni, and S. M. Platten, “Instant tooth whitening from a silica toothpaste containing blue covarine,” Journal of Dentistry, vol. 36, pp. S21–S25, 2008.
View at:
R. Yhudira, M. Peumans, M. L. Barker, and R. W. Gerlach, “Clinical trial tooth whitening with 6% hydrogen peroxide whitening strips and two whitening dentifrices,” American Journal of Dentistry, vol. 20, pp. 32A–36A, 2007.
View at:
N. Sharma, H. J. Galustians, J. Qaqish et al., “Comparative tooth whitening and extrinsic tooth stain prevention efficacy of a new dentifrice and a commercially available tooth whitening dentifrice: six-week clinical trial,” Journal of Clinical Dentistry, vol. 15, no. 2, pp. 52–57, 2004.
View at:
P. Soparkar, K. Rustogi, Y. P. Zhang, M. E. Petrone, W. DeVizio, and H. M. Proskin, “Comparative tooth whitening and extrinsic tooth stain removal efficacy of two tooth whitening dentifrices: six-week clinical trial,” Journal of Clinical Dentistry, vol. 15, no. 2, pp. 46–51, 2004.
View at:
R. W. Gerlach, M. L. Barker, and H. L. Tucker, “Clinical response of three whitening products having different peroxide delivery: comparison of tray, paint-on gel, and dentifrice,” Journal of Clinical Dentistry, vol. 15, no. 4, pp. 112–117, 2004.
View at:
R. W. Gerlach, M. L. Barker, J. D. Hyde, M. B. Jones, and R. E. Cordero, “Effects of tartar control whitening dentifrice on tooth shade in a population with long-standing natural stain,” Journal of Clinical Dentistry, vol. 12, no. 2, pp. 47–50, 2001.
View at:
R. L. Isaacs, R. D. Bartizek, T. S. Owens, P. A. Walters, and R. W. Gerlach, “Maintenance of tooth color after prophylaxis: comparison of three dentifrices,” Journal of Clinical Dentistry, vol. 12, no. 2, pp. 51–55, 2001.
View at:
A. Kakar, K. Rustogi, Y. P. Zhang, M. E. Petrone, W. DeVizio, and H. M. Proskin, “A clinical investigation of the tooth whitening efficacy of a new hydrogen peroxide-containing dentifrice,” Journal of Clinical Dentistry, vol. 15, no. 2, pp. 41–45, 2004.
View at:
A. Ghassemi, W. Hooper, L. Vorwerk, T. Domke, P. DeSciscio, and S. Nathoo, “Effectiveness of a new dentifrice with baking soda and peroxide in removing extrinsic stain and whitening teeth,” Journal of Clinical Dentistry, vol. 23, no. 3, pp. 86–91, 2012.
View at:
A. Ghassemi, L. Vorwerk, A. Cirigliano, W. Hooper, P. DeSciscio, and S. Nathoo, “Clinical effectiveness evaluation of a new whitening dentifrice,” Journal of Clinical Dentistry, vol. 26, no. 3, pp. 66–71, 2015.
View at:
B. A. Horn, B. F. Bittencourt, O. M. Gomes, and P. A. Farhat, “Clinical evaluation of the whitening effect of over-the-counter dentifrices on vital teeth,” Brazilian Dental Journal, vol. 25, no. 3, pp. 203–206, 2014.
View at:
S. P. Hilgenberg, S. C. Pinto, P. V. Farago, F. A. Santos, and D. S. Wambier, “Physical-chemical characteristics of whitening toothpaste and evaluation of its effects on enamel roughness,” Brazilian Oral Research, vol. 25, no. 4, pp. 288–294, 2011.
View at:
P. Özkan, G. Kansu, S. T. Özak, S. Kurtulmuş-Yilmaz, and P. Kansu, “Effect of bleaching agents and whitening dentifrices on the surface roughness of human teeth enamel,” Acta Odontologica Scandinavica, vol. 71, no. 3-4, pp. 488–497, 2013.
View at:
A. Dozic, C. J. Kleverlaan, A. El-Zohairy, A. J. Feilzer, and G. Khashayar, “Performance of five commercially available tooth color-measuring device,” Journal of Prosthodontics, vol. 16, no. 2, pp. 93–100, 2007.
View at:
Copyright
Copyright © 2018 Bruno G. S. Casado et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
