Abstract

The recent proliferation of methods of 3D model generation has enabled the development of new approaches to the analysis of dental form, function and wear. This article assesses whether Structure-from-motion (SfM) photogrammetry is capable of producing virtual 3D models of teeth of adequate quality for assessing fine scale surface details, such as dental macrowear patterns. Reference models were generated using a high resolution structured light scanner to assess the accuracy of the photogrammetric models generated. Dental gypsum models of the molar teeth of human individuals from St. Michael's Litten, Chichester, Post-medieval assemblage (n = 17) were used for 3D model generation. Photogrammetry was performed using Agisoft Metashape and reference 3D models were generated using a GOM ATOS 80 scanner. Focus stacking was explored as a method of enhancing 3D model detail. Differences between the photogrammetric and reference models were assessed using CloudCompare and the quality of the surface detail was examined quantitatively using Occlusal Fingerprint Analysis. Photogrammetric model generation was highly replicable and the tooth models produced closely approximated the overall geometry of those derived from the structured light scanner. Dental wear facet area measurements on the photogrammetric models differed significantly, however, from those derived from the structured light scanning reference models. Photogrammetry can create virtual dental models from which crude quantitative size and shape data can be obtained. Finer scale surface details are not accurately reproduced on SfM models using the methods outlined in the current article due to high levels of surface noise.

Highlights

  • The recent proliferation of surface scanning technologies has enabled the development of new approaches to the analysis of dental morphology and wear

  • Computer-aided design and computer-aided manufacturing (CAD/CAM) systems are widely used within contemporary dental practice and can assist the analysis of specific teeth, arch form and malocclusion (Taneva, Kusnoto, & Evans, 2015)

  • The current study aimed to investigate the quality and fidelity of 3D dental models generated using SfM

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Summary

| INTRODUCTION

The recent proliferation of surface scanning technologies has enabled the development of new approaches to the analysis of dental morphology and wear. Most studies use structured light scanning (SLS), CT scanning or laser scanning for 3D model generation. In SLS systems, the target object is illuminated by a series of alternating 2D patterns of light whilst a sensor, such as a video camera, is used to acquire images of the scene under the structured light conditions. A previous study has indicated that the use of focus stacking may enhance the quality of the reproduction of small-scale surface details (Kontogianni, Chliverou, Georgopoulos, et al, 2017). Focus stacked structure-from-motion photogrammetry (FS-SfM) was assessed as a method of enhancing 3D dental model fidelity. The quality of the reproduction of fine object details was quantified by examining and comparing dental macrowear patterns between the virtual models produced using each method

| MATERIALS AND METHODS
| RESULTS
Findings
| DISCUSSION

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