Abstract
Peroxides have been used to whiten teeth for over 100 years and among all whitening therapies the oldest is in-office bleaching. In this article, we will present the summary of the step-by-step procedure and side effects of this bleaching. Some comments regarding the number of clinical appointments for teeth whitening, concentration of the bleaching products, the effects of dentin dehydration and demineralization on the final outcome as well as bleaching-induced tooth sensitivity are given. At the end, some references for further reading can be found.
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Quick reference/description
Tooth whitening is a dental procedure that involves use of bleaching agents for obtaining a lighter tooth shade. Different whitening methods include:
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In-office bleaching, done by a dental professional.
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At-home bleaching, done by the patient at home, include materials prescribed by dental professionals and materials available over-the-counter to be applied without the involvement of a dental professional.
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The combination of in-office and at-home bleaching (“combined bleaching technique”).
In-office tooth whitening is a treatment option usually considered for the patients who do not adapt well to the at-home protocol.
Indications
In-office tooth whitening is indicated in following cases:
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In patients who have difficulty in wearing tray delivery products.
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To motivate patients before starting an at-home protocol in the combined or jump-start technique.
Materials/instruments
Hydrogen peroxide (HP)
Rubber dam
Light-cured gingival barrier
Lip and cheek retractors
Shade guide
Desensitizing gel
Rotating brush
Gauze
Saliva Ejector
Quartz–tungsten halogen light curing units
LED (Light-emitting diode)
Lasers
Procedure
In-office bleaching protocols can vary significantly, like the application time of the bleaching gel, the number of bleaching sessions, whether or not the protocol is associated with light and the number of product refreshment on the dental surface.
Following are the steps involved in an effective in-office bleaching protocol:
Advantages and disadvantages
Below, a table is given (Table 1) that describes advantages and disadvantages of in-office and at-home bleaching treatment.
Making a decision about the in-office bleaching gel
Different in-office bleaching products vary in the active concentration of HP, which ranges from 15 to 40%. Use of 35% alkaline gels, containing desensitizing agents, is recommended.
The pH of in-office bleaching gels may vary from 2.0 to 9.0. Whitening products should also be relatively alkaline pH to minimize potential damage.
Determination of the baseline tooth color
Determination of the baseline tooth color allows the dentist and also the patient to monitor color change during the bleaching protocol. It can also help in observing the whitening degree obtained after dental bleaching.
Shade recording can be done with a value-oriented or bleach shade guide (Fig. 1), spectrophotometer, or by means of dental photographs.
Application of a desensitizing agent
Tooth sensitivity is one of the main side effects of in-office dental bleaching.
It is difficult to completely eliminate this side effect, but its absolute risk and intensity can be reduced by previous application of a desensitizing gel composed of 5% potassium nitrate.
Desensitizers containing glutaraldehyde and HEMA (2-hydroxyethyl methacrylate) are also effective in reducing bleaching-induced tooth sensitivity.
This procedure can be performed before or after isolation of the dental arch, as the materials are not aggressive to the gingival tissue. As the gel is usually agitated with the aid of a rotating brush, it is recommended to apply the desensitizer before the protection of the soft tissues.
The buccal surface of all the teeth to be bleached is covered with a 1 mm (mm) thick layer of the desensitizer and left in place for 10 min (min) (Fig. 2). After this, the product is agitated in each dental surface for 20 s (s) with a rotating brush.
The product is then removed with gauze (Fig. 3) or with a saliva ejector before application of the in-office bleaching gel. Finally, the surface is rinsed to remove the product completely.
Protection of the soft tissues
Higher concentrations of hydrogen peroxide used for in-office bleaching may cause burning of the soft tissues.
For protection of the soft tissue, lip and cheek retractor (keeps lips, cheeks, and tongue away from the bleaching gel) along with light-cured gingival barrier (prevents the contact of the bleaching gel with the gingival tissue) is commonly used (Fig. 4).
Rubber dam isolation can also be used for protection of the soft tissues.
Before rubber dam installation, a thick layer of petroleum jelly should be applied on the gingival tissue of the teeth to be bleached. Due to its hydrophobic nature, it prevents the bleaching gel from contacting the gingival tissue even if eventual isolation failure occurs.
Application of the in-office bleaching gel
After choosing the in-office bleaching product, the manufacturer’s instructions should be followed.
Most in-office bleaching gels require replenishing the product during a period that varies from 40 to 50 min. Some products require more product replenishments in each clinical session. Few products are indicated for a single 40–50-min application without replenishment.
As heat and light can accelerate the dissociation of hydrogen peroxide, both methods have been associated with in-office bleaching. In-office bleaching gels can be categorized on the basis of their activation as:
Chemically activated bleaching gels
The in-office gels are more stable in acid solutions than in alkaline solutions. Commercially available bleaching gels are packed in two syringes/bottles, one containing the HP product and other containing the colorants, thickening agent, etc.
When clinician mixes both syringes/bottles, chemical activation occurs due to mixing of two components. This increases HP decomposition and the in-office gel can be used (Fig. 5).
The activating gel increases the pH of the mixed gel to achieve an alkaline pH close to the pKa of the hydrogen peroxide (pka = 11.0), thereby increasing the decomposition rate of peroxide and the formation of oxidative radicals.
Light activated bleaching gels
Some manufacturers advocate the application of their products with light activation (quartz–tungsten halogen light curing units, LEDs or lasers) to optimize the bleaching outcome. This is only recommended with low concentration of HP (15–20%).
Another option is addition of some metals (ferrous compounds or titanium dioxide) to enhance the oxidizing power of the HP. The photolysis of HP associated with these compounds needs to be activated by a very specific wavelength, which depends on the metals included.
Products that contain ferrous components are activated by ultraviolet light.
HP when combined with iron is known as “Fenton reagent”. Fenton reagents result in disproportion in which the iron is simultaneously reduced and oxidized to form both hydroxyl and peroxide radicals by the same HP.
When iron reacts (with or without UV radiation), the process is renewed and the redox reaction is further fueled.
When low-concentrated HP gels (6–15%) containing semiconductors of titanium oxide nanoparticles doped with nitrogen is exposed to blue light (LED/laser device), catalysis of reaction of hydroxyl radicals formation from HP occurs.
As these titanium oxide bleaching formulations can be used with visible lights, they are safer than the formulations that recommend UV light activation.
Pitfalls and complications
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Bleaching-induced tooth sensitivity is a common side effect. Although pain in bleached teeth can be evoked by cold or other stimuli, most patients complain of tingling or shooting pain of very short duration but variable frequency without provoking stimuli.
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Gingival tissue irritation can occur due to the bleaching agents (Fig. 6). A drop of catalase and/or sodium bicarbonate (usually provided by the manufacturer) should be applied on the ulcerated lesion to arrest the burning effect.
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Dental dehydration is always associated with the procedure (Fig. 7).
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Enamel demineralization.
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Ultraviolet radiations can cause skin damage.
Change history
04 April 2018
The name of the second author was originally rendered incorrectly. The article has now been corrected accordingly.
Further reading
Perdigão J (ed) Tooth whitening. https://doi.org/10.1007/978-3-319-38849-6_7 In-office whitening
He LB, Shao MY, Tan K, Xu X, Li JY (2012) The effects of light on bleaching and tooth sensitivity during in-office vital bleaching: a systematic review and meta-analysis. J Dent 40:644–653
Luque-Martinez I, Reis A, Schroeder M, Muñoz MA, Loguercio AD, Masterson D, Maia LC (2016) Comparison of efficacy of tray-delivered carbamide and hydrogen peroxide for at-home bleaching: a systematic review and meta-analysis. Clin Oral Investig 20:1419–1433
Wang Y, Gao J, Jiang T, Liang S, Zhou Y, Matis BA (2015) Evaluation of the efficacy of potassium nitrate and sodium fluoride as desensitizing agents during tooth bleaching treatment—a systematic review and meta-analysis. J Dent 43:913–923
Loguercio AD, Servat F, Stanislawczuk R, Mena-Serrano A, Rezende M, Prieto MV, Cereño V, Rojas MF, Ortega K, Fernandez E, Reis A (2017) Effect of acidity of in-office bleaching gels on tooth sensitivity and whitening: a two-center double-blind randomized clinical trial. Clin Oral Investig. (In press)
de Geus JL, Wambier LM, Kossatz S, Loguercio AD, Reis A (2016) At-home vs in-office bleaching: a systematic review and meta-analysis. Oper Dent 41:341–356
Rezende M, Loguercio AD, Kossatz S, Reis A (2016) Predictive factors on the efficacy and risk/intensity of tooth sensitivity of dental bleaching: a multi regression and logistic analysis. J Dent 45:1–6
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The name of the second author was originally rendered incorrectly. The article has now been corrected accordingly.
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Reis, A., Mendonça da Silva, L., Martins, L. et al. In-office tooth whitening. Clin Dent Rev 2, 10 (2018). https://doi.org/10.1007/s41894-018-0021-9
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DOI: https://doi.org/10.1007/s41894-018-0021-9