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Comprehensive Analysis of Laserscanner Validity Used for Measurement of Wear.

OBJECTIVES: The aims of this study were to test the hypotheses that (1) a laser scanner used for measuring maximum depth and volume loss will yield the same results as a surface profilometer; (2) the surface roughness will affect the maximum depth and volume loss measured with the laserscanner; (3) analytical results using the laserscanner from multiple operators have no more than 10% inter-rater difference; (4) replicating samples using either stone or impression material is an accurate method for measuring wear using the laserscanner.

MATERIALS AND METHODS: The volume and maxiumum depth of indentations from fine, medium and rough burs on glass-ceramic disks were measured using two devices, a surface profilometer (Dektak II, Veeco) and a 3D Laserscanner (LAS-20, SD Mechatronik). Replicates of the indentations made from polyvinysiloxane impression material and gypsum were also measured.

RESULTS: Comparison of profilometer and laserscanner readings using ceramic disks demonstrated a mean error of 13.61% for depth and 25.32% for volume. Replication errors were minimal (2.6% for impression, 2.5% for stone). Surface profilometer data for volume measurements revealed a difference of 6.1% for impression and 6.5% for stone compared with ceramics. However, when measurements for replicates were compared between laserscanner and surface profilometer, depth had a mean error of 74% for impression and 51% for stone. Volume differences of 78% for impression and 44% for stone were recorded.

CONCLUSION: This work demonstrated that the laserscanner was a convenient device for measuring wear but there is a need to validate the accuracy of the measurements. This article is protected by copyright. All rights reserved.

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