Insight in the Chemistry of Laser‐Activated Dental Bleaching

Moor, R. J. G. De; Verheyen, Jeroen; Diachuk, Andrii; Verheyen, Peter; Meire, Maarten; Coster, P. J. De; Keulemans, Filip; Bruyne, Mieke De; Walsh, L. J.

doi:10.1155/2015/650492

Cited by 52 publications

(59 citation statements)

References 26 publications

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“…Lazerler, dişlerdeki renkli moleküllerin foto oksidasyonu veya fotokimyasal reaksiyonlar yoluyla ağartma jeli bileşenleri ile etkileşime girerek ağartmayı artırabilmektedir. 16 Diyot lazer, ağartma işlemleri için kullanılması Amerikan Gıda ve İlaç Dairesi tarafından onaylanmış bir cihazdır. 17 Ağartma ajanını etkinleştirmek için dalga boyu 790 nm'den 980 nm'ye kadar değişen diyot lazer sistemleri, uygulanan güce bağlı olarak farklı sürelerde kullanılmaktadır.…”

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Spectrophotometric and Morphologic Comparison of Bleaching with LED and Diode Laser

Hazar¹,

Sağlam²

2019

Turkiye Klinikleri J Dental Sci

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Spectrophotometric and Morphologic Comparison of Bleaching with LED and Diode Laser

Hazar¹,

Sağlam²

2019

Turkiye Klinikleri J Dental Sci

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“…Erbium and Alexandrite enhanced bleaching process leads to smoother enamel surface as compared to Nd: YAG. [23][24][25] When selecting a laser for enhancing the bleaching potential, the wavelength and the target substrate must be considered. Each wavelength has a different chromophore where the absorption is maximum and which in turn will potentiate the desired outcome.…”

Section: Bleachingmentioning

confidence: 99%

“…The pH will determine the kind of and quantity of free radicalsliberated. 25 The buffering of peroxide to a pH range of 9.5 to 10.8 provides a greater amount of perhydroxyl free radicals For stubborn tetracycline stains, the laser which isadvocated is the KTP laser (potassiumtitanyl-phosphate) which is a Nd: YAG frequency-doubled laser. Initially, the laser effuses a 1064nm wavelength visible green light, which is passed through a KTP crystal and the resultant lased light is KTP laser in which the original wavelength of Nd: YAG is halved to 532nm.…”

Section: Bleachingmentioning

confidence: 99%

Biomodification of Tooth Discolouration

Sharma¹

2019

IJPHC

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Many an attractive smile are marred by discolouration or staining, either of an individual tooth or of all teeth, which has a far-reaching psychological impact. Management of intrinsic stains have in the past relied on masking discolourations by full-coverage crowns. Today, the Minimal invasive concepts, methods and techniques have permeated in all disciplines of dentistry and esthetic dentistry is no exception. The minimally invasive approach in dentistry is based on safeguarding and shielding the tooth structure framework, especially enamel. Biomodification is the rationale or a process by chemical, physical, genetic means oftransmogrifying aliving organism. In dentistry, biomodification is a non-invasive or a minimally invasive concept which by chemical or physical means bring about a revision in tooth architecture. This paper gives an insight to the current status and emerging minimal invasive and non-invasive trends like microabrasion, macroabrasion and bleaching or a combination of these in management of discoloured dentition.

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“…They tend to get an electron by oxidation of stains present in adjacent enamel and dentin and more whiter tooth structure [8]. Many researches mentioned that accelerating peroxide bleaching treatment can be achieved by shortening the chemical redox reactions with different sources of light energy such as, lasers, light-emitting diodes (LED), plasma arc lamps, and halogen curing lights, in a variety of wavelengths and spectral power [9][10][11][12][13][14]. The Er:YAG laser wavelengths (2940 nm) is highly diffused in hydroxyapatite and the highest absorption of water of any dental laser wavelengths [15] .…”

Section: Introductionmentioning

confidence: 99%

“…Many studies stated that bleaching procedures have some adverse effects on tooth structure as enamel changes in micro-hardness, surface roughness and modulus of elasticity. All bleaching adverse effects attributed to chemical and morphological changes of dental hard tissues [11,17,18,19,20,21].…”

Section: Introductionmentioning

confidence: 99%

Er: YAG Laser Assisted Bleaching Procedures Effect on Enamel Topography

Sakr¹

2018

IJDSR

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The aim of this study was to evaluate the effect of using Er: YAG laser during in-office tooth bleaching on enamel surface. Method: Thirty enamel discs specimens of human anterior teeth and divided into three groups, Group 1: (control) specimens received no bleaching treatment; Group 2: specimens received conventional in-office bleaching treatment using Opalescence Boost PF tooth whitening systems; Group 3: specimens received laser assisted bleaching procedure using low energy Er: YAG laser to assist tested bleaching gels. After bleaching, Specimens were stored for 15 days in artificial saliva. Digital microscope and images analysis used to evaluate surface roughness. Scanning electron micrographs were captured to evaluate enamel surface changes. Data were statistically analyzed using Aasistat 7.6 statistics software with Student t-test. Results Conventional in-office bleached enamel showed statistically significant higher enamel surface roughness than unbleached enamel surface with changes in enamel surface morphology were observed. While ER: YAG laser assisted bleached enamel, surfaces showed non-statistically significant higher enamel surface roughness than unbleached enamel surface with minor changes in enamel surface morphology were observed. Conclusions: Tested laser assisted bleaching procedures showed safely enamel surface treatment than conventional in-office bleaching procedures.

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Insight in the Chemistry of Laser‐Activated Dental Bleaching

Cited by 52 publications

References 26 publications

Spectrophotometric and Morphologic Comparison of Bleaching with LED and Diode Laser

Spectrophotometric and Morphologic Comparison of Bleaching with LED and Diode Laser

Biomodification of Tooth Discolouration

Er: YAG Laser Assisted Bleaching Procedures Effect on Enamel Topography

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