Comparison of effects of diode laser and CO2 laser on human teeth and their usefulness in topical fluoridation

Various authors have reported more effective fluoridation from the use of lasers combined with topical fluoride than from conventional topical fluoridation. Besides the beneficial effect of lasers in reducing the acid solubility of an enamel surface, they can also increase the uptake of fluoride. Th...

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Bibliographic Details
Published in:Lasers in medical science 2011-05, Vol.26 (3), p.317-324
Main Authors: González-Rodríguez, Alberto, de Dios López-González, Juan, del Castillo, Juan de Dios Luna, Villalba-Moreno, Juan
Format: Article
Language:English
Subjects:
Comparative studies
Dental Caries - prevention & control
Dental Enamel - drug effects
Dental Enamel - metabolism
Dental Enamel - radiation effects
Dental Enamel - ultrastructure
Dental Pulp - radiation effects
Dentistry
Fluoridation
Fluorides, Topical - administration & dosage
Fluorides, Topical - pharmacokinetics
Humans
Lasers
Lasers, Gas - therapeutic use
Lasers, Semiconductor - therapeutic use
Low-Level Light Therapy - methods
Medicine
Medicine & Public Health
Microscopy, Electron, Scanning
Optical Devices
Optics
Original Article
Photonics
Quantum Optics
Surface Properties
Teeth
Temperature
Tooth - drug effects
Tooth - metabolism
Tooth - radiation effects
Tooth - ultrastructure
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Summary:Various authors have reported more effective fluoridation from the use of lasers combined with topical fluoride than from conventional topical fluoridation. Besides the beneficial effect of lasers in reducing the acid solubility of an enamel surface, they can also increase the uptake of fluoride. The study objectives were to compare the action of CO 2 and GaAlAs diode lasers on dental enamel and their effects on pulp temperature and enamel fluoride uptake. Different groups of selected enamel surfaces were treated with amine fluoride and irradiated with CO 2 laser at an energy power of 1 or 2 W or with diode laser at 5 or 7 W for 15 s each and compared to enamel surfaces without treatment or topical fluoridated. Samples were examined by means of environmental scanning electron microscopy (ESEM). Surfaces of all enamel samples were then acid-etched, measuring the amount of fluoride deposited on the enamel by using a selective ion electrode. Other enamel surfaces selected under the same conditions were irradiated as described above, measuring the increase in pulp temperature with a thermocouple wire. Fluorination with CO 2 laser at 1 W and diode laser at 7 W produced a significantly greater fluoride uptake on enamel (89 ± 18 mg/l) and (77 ± 17 mg/l) versus topical fluoridation alone (58 ± 7 mg/l) and no treatment (20 ± 1 mg/l). Diode laser at 5 W produced a lesser alteration of the enamel surface compared to CO 2 laser at 1 W, but greater pulp safety was provided by CO 2 laser (ΔT° 1.60° ± 0.5) than by diode laser (ΔT° 3.16° ± 0.6). Diode laser at 7 W and CO 2 laser at 2 W both caused alterations on enamel surfaces, but great pulp safety was again obtained with CO 2 (ΔT° 4.44° ± 0.60) than with diode (ΔT° 5.25° ± 0.55). Our study demonstrates that CO 2 and diode laser irradiation of the enamel surface can both increase fluoride uptake; however, laser energy parameters must be carefully controlled in order to limit increases in pulpal temperature and alterations to the enamel surface.
ISSN:0268-8921
1435-604X
DOI:10.1007/s10103-010-0784-y