Surface morphology, elemental distribution,
and spectroscopic changes subsequent the
application of nanosecond pulsed Nd:YAG
laser on dental enamel surface

Antunes, Augusto Celso; Vianna, S. S.; Gomes, Anderson S. L.; Rossi, Wagner de; Zezéll, Denise Maria

doi:10.1002/lapl.200410152

Cited by 17 publications

(26 citation statements)

References 24 publications

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“…The reduced acid solubility of dental enamel after irradiation with high-intensity lasers has been well documented in literature, 4,[20][21][22][42][43][44][45][46][47] and this change is related to the physical and chemical alterations caused by photothermal and photochemical effects. 46 It is well known that intrinsic factors of the laser source (wavelength, emission mode, pulse energy, spot size, pulse duration, and application method on the tissue) and external parameters (energy density and time exposition) are relevant to understanding the mechanism of interaction between the laser and biological tissue.…”

Section: Discussionmentioning

confidence: 99%

“…46 It is well known that intrinsic factors of the laser source (wavelength, emission mode, pulse energy, spot size, pulse duration, and application method on the tissue) and external parameters (energy density and time exposition) are relevant to understanding the mechanism of interaction between the laser and biological tissue. 45 The absorption coefficient of tissue components determines the degree of interaction between laser and tissue.…”

Section: Discussionmentioning

confidence: 99%

“…3) was preserved or increased in all experimental groups, except for the FCL group, which showed decreases like the CTR group. Antunes et al 45 observed that after laser irradiation (Nd:YAG) on enamel surfaces, there were decreases in calcium and phosphorus content. They attributed the phosphorus reduction after irradiation to a volatilization caused by temperature, but this did not happen in our study.…”

Section: Discussionmentioning

confidence: 99%

“…5), denoting greater preservation of calcium mineral, even under cariogenic challenge. Studies with Nd:YAG 45 and ARF excimer laser 59 showed that after irradiation, the Ca=P ratios were higher when compared with nonirradiated controls; however, these samples were not submitted to cariogenic challenge. However, Muller et al, 60 using a low-power laser, did not find a statistically significant difference in the calculated Ca=P weight (as %) after lasing treatments.…”

Section: Enamel Irradiated With Infrared Laser: Edx Studymentioning

confidence: 96%

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Dental Enamel Irradiated with Infrared Diode Laser and Photo-Absorbing Cream: Part 2—EDX Study

Sant'Anna

Santos

Soares

et al. 2009

Photomedicine and Laser Surgery

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Objective: The effects of laser-induced compositional changes on the enamel were investigated by energydispersive X-ray fluorescence spectrometry (m-EDX). After cariogenic challenge, we administered treatment of low-level infrared diode laser and a photo-absorbing cream (used to intensify the superficial light absorption). Background Data: Dental caries is considered the most prevalent oral disease. A simple and noninvasive caries preventive regimen is treating tooth enamel with a laser, either alone or in combination with fluoride, which reduces enamel solubility and dissolution rates. High power lasers are still not widely used in private practice. Low-power near-infrared lasers may be an alternative approach. Energy-dispersive m-EDX is a versatile and nondestructive spectroscopic technique that allows for a qualitative and quantitative elemental analysis of inorganic enamel components, such as calcium and phosphorus. Materials and Methods: Twenty-four extracted or exfoliated caries-free deciduous molars were divided into six groups: 1) control group (CTR-no treatment); 2) infrared laser treatment (L) (l ¼ 810 nm, 100 mW=cm 2 , 90 sec, 4.47 J=cm 2 , 9 J); 3) infrared laser irradiation and photo-absorbing agent (CL); 4) photo-absorbing agent alone (C); 5) infrared laser irradiation and fluoridated photo-absorbing agent (FCL); and 6) fluoridated photo-absorbing agent alone (FC). Samples were analyzed using m-EDX after two sets of treatments and pH cycling cariogenic challenges. Results: The CL group showed statistically significant increases in calcium and phosphorus (wt%) compared with the CTR group. The Ca=P ratio was similar in the FCL and CTR groups. There was a significant laser-induced reduction compared with the CTR group, and there was a possible modification of the organic balance content in enamel treated with laser and cream. Conclusion: m-EDX may be able to detect compositional changes in mineral phases of lased enamel under cariogenic challenge. Our results suggest that with a combined laser and photo-absorbing agent (CL) treatment, there was a possible disorganization of organic content in the tooth enamel with hydroxyapatite crystal reordering and reorganization.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Enamel Irradiated With Infrared Laser: Edx Studymentioning

confidence: 96%

See 2 more Smart Citations

Dental Enamel Irradiated with Infrared Diode Laser and Photo-Absorbing Cream: Part 2—EDX Study

Sant'Anna

Santos

Soares

et al. 2009

Photomedicine and Laser Surgery

View full text Add to dashboard Cite

show abstract

“…These results suggest that USPLs do not significantly increase the temperature of HAp. On the other hand, the use of Nd:YAG operating with pulse duration of 6 ns and 200 ns on enamel promote melting and recrystallization of this tissue (Antunes et al, 2005), indicating temperature rises up to 1200 o C. Also, with the pulse duration of 6 ns, Nd:YAG promoted changes on organic content of enamel and dentin (Antunes et al, 2006). Thermal measurements were performed using a laser with pulse width of fs on enamel using thermocouples, and it was detected temperature rises about 2 o C on enamel surfaces after a 8 ms train of 70 fs pulses (Pike et al, 2007).…”

Section: Influence Of Pulse Width On Tissue Removalmentioning

confidence: 99%

Laser Technology for Caries Removal

Matos¹,

Azevedo²,

Ana³

et al. 2012

Contemporary Approach to Dental Caries

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Nanosecond Nd:YAG laser on dental enamel: compositional analysis by X-ray fluorescence

et al. 2005

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Non-invasive methods such as X-ray Fluorescence has been applied to study of the distinct pathologies and contamination levels analysis in various biological tissues among them nails, hair, and tooth. On the other hand, several works have demonstrated that the laser could be induced chemical and morphological alterations on the enamel surface occupying an important role as co-adjuvant in the caries disease prevention. Here, we have combined X-ray fluorescence using Fundamental Parameters method aiming to evaluate the variation in the chemical contend. The Ca and P concentrations as well as the Ca/P ratio were estimated in sound human and bovine enamel surface by X-ray fluorescence (XRF). We also evaluated the effect of the lactic and the acetic acids on the sound and irradiated bovine enamel surface by Scanning Electron Microscopy (SEM) verifying the acid attack changes in the sound and irradiated bovine enamel. The laser parameters applied produced lower ablation depths, but sufficient to induce compositional changes. Our results have indicating an alteration statically significative to Ca/P ratio and also indicated an increase in the Ca/P ratio for the irradiated groups in comparison to sound groups. We also verified that the acid attack is more pronounced to sound bovine enamel surface in relation to irradiated to the bovine enamel surface indicating that the nanosecond laser can be used to reduce the demineralization process. Ca / P ratio XRF analysis results of dental enamel surface to irradiation condition of 40 J/cm 2 (τ = 10 ns, repetition rate 5 Hz)

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Surface morphology, elemental distribution, and spectroscopic changes subsequent the application of nanosecond pulsed Nd:YAG laser on dental enamel surface

Cited by 17 publications

References 24 publications

Dental Enamel Irradiated with Infrared Diode Laser and Photo-Absorbing Cream: Part 2—EDX Study

Dental Enamel Irradiated with Infrared Diode Laser and Photo-Absorbing Cream: Part 2—EDX Study

Laser Technology for Caries Removal

Nanosecond Nd:YAG laser on dental enamel: compositional analysis by X-ray fluorescence

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