Temperature change during non-contact diode laser irradiation of implant surfaces
Thu, 2011-01-27 19:37 — Guest
Abstract
A temperature increase of more than 10°C can compromise bone vitality. Laser radiation with different wavelengths has been
used for the treatment of peri-implantitis, but little is known about the effect of laser irradiation on temperature rise
on the implant surface. In this study, the temperature gradient (∆T) generated by laser irradiation of implant surface using
two diode lasers (810 nm and a 980 nm) with 2 W of power has been recorded by two thermocouples (one in the cervical area
and one in the apical area) and studied. The 810-nm diode laser showed the following results: after 60 s of irradiation with
2 W of continuous mode the temperature gradient in the cervical area of the implant (∆Tc) was 37.2°C, while in the apical
area (∆Ta) was 27.2°C. The 980-nm diode laser showed the following results: after 60 s of irradiation with 2 W continuous
mode ∆Tc was 41.1°C, and ∆Ta was 30.6°C. The 810-nm diode laser with 2 W continuous mode generated a temperature increase
of 10°C after only 14 s. The 980-nm diode lasers groups produced a much more rapid temperature increase. In only 12 s, the
continuous wave of 980 nm reached the 10°C temperature rise. From the present in vitro study it was concluded that the irradiation
of implant surfaces with diode lasers may produce a temperature increase above the critical threshold (10°C ) after only 10
s.
used for the treatment of peri-implantitis, but little is known about the effect of laser irradiation on temperature rise
on the implant surface. In this study, the temperature gradient (∆T) generated by laser irradiation of implant surface using
two diode lasers (810 nm and a 980 nm) with 2 W of power has been recorded by two thermocouples (one in the cervical area
and one in the apical area) and studied. The 810-nm diode laser showed the following results: after 60 s of irradiation with
2 W of continuous mode the temperature gradient in the cervical area of the implant (∆Tc) was 37.2°C, while in the apical
area (∆Ta) was 27.2°C. The 980-nm diode laser showed the following results: after 60 s of irradiation with 2 W continuous
mode ∆Tc was 41.1°C, and ∆Ta was 30.6°C. The 810-nm diode laser with 2 W continuous mode generated a temperature increase
of 10°C after only 14 s. The 980-nm diode lasers groups produced a much more rapid temperature increase. In only 12 s, the
continuous wave of 980 nm reached the 10°C temperature rise. From the present in vitro study it was concluded that the irradiation
of implant surfaces with diode lasers may produce a temperature increase above the critical threshold (10°C ) after only 10
s.
- Content Type Journal Article
- Pages 1-4
- DOI 10.1007/s10103-010-0876-8
- Authors
- Alessandro Geminiani, Division of Periodontology, Eastman Institute for Oral Health, University of Rochester, Rochester, NY USA
- Jack G. Caton, Division of Periodontology, Eastman Institute for Oral Health, University of Rochester, Rochester, NY USA
- Georgios E. Romanos, Division of Periodontology, Eastman Institute for Oral Health, University of Rochester, Rochester, NY USA
- Journal Lasers in Medical Science
- Online ISSN 1435-604X
- Print ISSN 0268-8921
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