Lasers in Dentistry IV 1998
DOI: 10.1117/12.306027
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Er:YAG laser ablation: evaluation after a two-year clinical treatment

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Cited by 11 publications
(6 citation statements)
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“…Pulse energies exceeding 500 mJ per pulse have been explored for erbium pulses of 200-s duration; however, for the higher single pulse energies, the mechanical-recoil effects increase to the point that they are disturbing to the patient and thermal injury may result. 49,50 Moreover, by increasing the spot size and increasing the single pulse ablation rates to more than 100 m per pulse, precision and selectivity must be sacrificed and greater thermal and mechanical peripheral damage are likely. CO 2 lasers can be operated with repetition rates in the kilohertz regime.…”
Section: Lensmentioning
confidence: 99%
“…Pulse energies exceeding 500 mJ per pulse have been explored for erbium pulses of 200-s duration; however, for the higher single pulse energies, the mechanical-recoil effects increase to the point that they are disturbing to the patient and thermal injury may result. 49,50 Moreover, by increasing the spot size and increasing the single pulse ablation rates to more than 100 m per pulse, precision and selectivity must be sacrificed and greater thermal and mechanical peripheral damage are likely. CO 2 lasers can be operated with repetition rates in the kilohertz regime.…”
Section: Lensmentioning
confidence: 99%
“…It is also capable of removing certain fillings such as composite resins and glass ionomer cement. 2,3 There are many remarkable advantages of laser application in dental practice, such as safe ablation of hard dental tissues, 4 pain reduction, 5 and less noise and vibration. 6 Laser irradiation causes vaporization of water within a mineral substrate, providing volume expansion and disruption of dental tissues using microexplosions.…”
Section: Introductionmentioning
confidence: 99%
“…17 The lower ablation rates of early Er:YAG lasers than of the mechanical bur presented a limitation of their use in dental practice. 5,[18][19][20][21][22][23] The second-generation Er:YAG Fidelis laser (Fotona, Ljubljana, Slovenia) introduced Variable Square Pulse technology (VSP-technology) and achieved ablation rates even higher than those obtained with a mechanical handpiece. 24 This specific erbium laser offers a selection of different modes during treatment procedure: super short pulse (50 ms), very short pulse (100 ms), short pulse (SP, 300 ms), long pulse (600 ms), and very long pulse (1000 ms).…”
Section: Introductionmentioning
confidence: 99%
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“…2 In comparison with conventional cavity preparation with low-speed and high-speed rotary instruments, early Er:YAG lasers were found to be inferior, limiting their use in dental practice. [3][4][5][6][7][8] With the development of variable square pulse technology (VSPt), the Er:YAG laser ablation rates became more effective, rivaling the efficacy of mechanical handpieces. [9][10][11] The unique characteristic of erbium laser with VSPt is a selection of very short, squareshaped pulses of adjustable durations.…”
Section: Introductionmentioning
confidence: 99%