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Advanced Time-Stepping Interpretation of Fly-Scan Continuous Rotation Synchrotron Tomography of Dental Enamel Demineralization.

Authors :
Besnard C
Marie A
Sasidharan S
Marathe S
Wanelik K
Harper RA
Rau C
Shelton RM
Landini G
Korsunsky AM
Source :
Chemical & biomedical imaging [Chem Biomed Imaging] 2024 Feb 08; Vol. 2 (3), pp. 213-221. Date of Electronic Publication: 2024 Feb 08 (Print Publication: 2024).
Publication Year :
2024

Abstract

High-resolution spatial and temporal analysis and 3D visualization of time-dependent processes, such as human dental enamel acid demineralization, often present a challenging task. Overcoming this challenge often requires the development of special methods. Dental caries remains one of the most important oral diseases that involves the demineralization of hard dental tissues as a consequence of acid production by oral bacteria. Enamel has a hierarchically organized architecture that extends down to the nanostructural level and requires high resolution to study its evolution in detail. Enamel demineralization is a dynamic process that is best investigated with the help of in situ experiments. In previous studies, synchrotron tomography was applied to study the 3D enamel structure at certain time points (time-lapse tomography). Here, another distinct approach to time-evolving tomography studies is presented, whereby the sample image is reconstructed as it undergoes continuous rotation over a virtually unlimited angular range. The resulting (single) data set contains the data for multiple (potentially overlapping) intermediate tomograms that can be extracted and analyzed as desired using time-stepping selection of data subsets from the continuous fly-scan recording. One of the advantages of this approach is that it reduces the amount of time required to collect an equivalent number of single tomograms. Another advantage is that the nominal time step between successive reconstructions can be significantly reduced. We applied this approach to the study of acidic enamel demineralization and observed the progression of demineralization over time steps significantly smaller than the total acquisition time of a single tomogram, with a voxel size smaller than 0.5 μm. It is expected that the approach presented in this paper can be useful for high-resolution studies of other dynamic processes and for assessing small structural modifications in evolving hierarchical materials.<br />Competing Interests: The authors declare no competing financial interest.<br /> (© 2024 The Authors. Co-published by Nanjing University and American Chemical Society.)

Details

Language :
English
ISSN :
2832-3637
Volume :
2
Issue :
3
Database :
MEDLINE
Journal :
Chemical & biomedical imaging
Publication Type :
Academic Journal
Accession number :
38551010
Full Text :
https://doi.org/10.1021/cbmi.3c00121