Cervical wear pathobiology by robot-simulated 3-year toothbrushing - New methodological approach

K Wilke; S Nietzsche; M Hemmleb; S Mason; R Varghese; T Lang; P Gaengler

doi:10.1016/j.archoralbio.2024.105981

Cervical wear pathobiology by robot-simulated 3-year toothbrushing - New methodological approach

Arch Oral Biol. 2024 Jul:163:105981. doi: 10.1016/j.archoralbio.2024.105981. Epub 2024 Apr 24.

Authors

K Wilke¹, S Nietzsche², M Hemmleb³, S Mason⁴, R Varghese⁴, T Lang¹, P Gaengler⁵

Affiliations

¹ ORMED - Institute for Oral Medicine at the University of Witten/Herdecke, Witten, Germany.
² Centre for Electron Microscopy, University Hospital Jena, Jena, Germany.
³ Point electronic GmbH, Halle/Saale, Germany.
⁴ Haleon, Weybridge, Surrey, UK.
⁵ ORMED - Institute for Oral Medicine at the University of Witten/Herdecke, Witten, Germany. Electronic address: peter.gaengler@uni-wh.de.

PMID: 38669743
DOI: 10.1016/j.archoralbio.2024.105981

Abstract

Objectives: An ex-vivo study was aimed at (i) programming clinically validated robot three-year random toothbrushing, (ii) evaluating cervical macro- and microwear patterns on all tooth groups of different functional age, (iii) documenting and codificating wear related morphological features at the cemento-enamel junction in young teeth and on roots in older teeth.

Design: Following ethical approval random toothbrushing (44 strokes per tooth horizontally, rotating, vertically; 2x/d) with manual toothbrushes and low-abrasive dentifrice was performed in an artificial oral cavity with brushing-force 3.5 N on 14 extracted human teeth. Morphological features were examined by SEM at baseline and after simulated 3 years using the replication technique. 3D-SEM analyses were carried out with a four-quadrant back scattered electron detector. Wilcoxon-Mann-Whitney-test was used for statistical analyses.

Results: 3-year random toothbrushing with horizontal, rotating and vertical brushing movements revealed morphological features classified as four enamel patterns, one dentin pattern and three cervical patterns. Negative impacts were enamel, cementum and dentin loss. Positive impact on oral health was removing dental calculus and straightening cervical traumatic and iatrogenic damages. The volume loss varied from x̅=34.25nl to x̅=87.75nl. Wear extended apically from 100 to 1500 micrometres.

Conclusion: Robot simulated toothbrushing in an artificial oral cavity, with subsequent SEM and 3D-SEM assessment, elucidated both negative and oral health-contributing micromorphology patterns of cervical wear after simulated 3-year random toothbrushing. Cervical macro- and microwear of cementum revealed, for the first time, what we describe as overhanging enamel peninsulas and enamel islands on roots in young teeth, but no enamel islands on roots from older teeth after root cementum loss. In contrast, many older teeth exhibited enamel peninsulas.

Keywords: Biophysics; Dentin; Electron microscopy; Enamel; Oral hygiene; Tooth Wear.

MeSH terms

Dental Cementum / pathology
Dental Enamel
Dentifrices
Dentin
Humans
In Vitro Techniques
Microscopy, Electron, Scanning*
Robotics*
Tooth Cervix* / pathology
Tooth Wear* / etiology
Toothbrushing*

Substances

Dentifrices