An evaluation of the effects of an Nd:YAG laser on subgingival calculus, dentine and cementum. An in vitro study.

M Radvar, SL Creanor, WH Gilmour, AP Payne, J McGadey, RH Foye, CJ Whitters, DF Kinane

Research output: Contribution to journalArticlepeer-review

Abstract

The aim of this study was to evaluate the effects of Nd:YAG laser treatment on subgingival calculus, cementum and dentine, in vitro at different power settings and durations. The study included 2 experiments. In the 1st experiment, 32 extracted teeth with calculus were divided into 8 laser treatment groups. Each tooth was treated on 2, 3 or 4 sites. In the 2nd experiment, 3 extracted cementum covered teeth and 3 extracted root planed teeth with exposed dentine were selected. 1 surface of each tooth was subjected to 8 different laser treatments. In both experiments, all specimens were assessed using scanning electron microscopy. Micrographs were taken from each treated site at x 100 and x 750 magnifications. An arbitrary scale (from 0 to 3) was used to score the degree of damage caused by the laser. Generally, the laser caused greater damage on calculus than either cementum or dentine. Linear regression analysis showed that higher total energy input caused a greater mean damage score on calculus (R2 = 66%, p < 0.001). 3-way analysis of variance showed that for calculus, the power setting, number of pulses per second and the duration of exposure contributed independently to the mean damage score in an additive way. Cementum specimens were not affected by treatment 1 (50 mJ, 10 pps, 1 s), treatment 2 (50 mJ, 10 pps, 5 s), and treatment 5 (50 mJ, 20 pps, 1 s). Dentine specimens were not affected by treatment 1 (50 mJ, 10 pps, 1 s).(ABSTRACT TRUNCATED AT 250 WORDS)
Original languageEnglish
Pages (from-to)71-77
Number of pages0
JournalJ Clin Periodontol
Volume22
Issue number1
DOIs
Publication statusPublished - Jan 1995

Keywords

  • Analysis of Variance
  • Dental Calculus
  • Dental Cementum
  • Dentin
  • Humans
  • Laser Therapy
  • Lasers
  • Linear Models
  • Microscopy
  • Electron
  • Scanning

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