Author dc.contributor.author | Hegedűs, Máté | |
Author dc.contributor.author | K Kis, Viktória | |
Author dc.contributor.author | Rózsa, Noémi | |
Author dc.contributor.author | Kovács, Zsolt | |
Availability Date dc.date.accessioned | 2024-04-12T14:53:56Z | |
Availability Date dc.date.available | 2024-04-12T14:53:56Z | |
Release dc.date.issued | 2024 | |
uri dc.identifier.uri | http://hdl.handle.net/10831/107831 | |
Abstract dc.description.abstract | Abstract Enamel prism is the main microstructural unit of mammalian enamel which composed of hundreds of bioapatite nanocrystals. Prism structure plays a key role in the excellent mechanical performance of dental enamel during millions of chewing cycles without significant remodeling. Thus, quantitative understanding of prism architecture is of utmost importance for biomechanical materials design. To characterize enamel prism orientation quantitatively, a novel image processing method has been developed. Our method is based on scanning electron microscopy images of etched enamel surface and consists of an ellipse fitting procedure, which provides a numerical approximation of prism shape and orientation in the studied cross section. The obtained analytical data allow to construct color coded orientation maps, which provide quick and useful insight into the microstructure of enamel. Besides striking visualization, orientation maps allow to extract and plot the rich information on the azimuthal and inclination angles of the prisms as function of location. Numerical data on prism arrangement can be analyzed using statistical tools over large areas, which paves the way towards quantifying comparative investigation of prism arrangement either in dentistry research or evolution biology. The application of the method is demonstrated for a distal?mesial cross-section of sound human tooth enamel. Highlights Scanning electron microscopy images of etched enamel surface are analyzed using ellipse fitting. Geometrical parameters of the fitted ellipses provide numerical data of thousands of prisms. Prism arrangement is visualized on color coded orientation maps and analyzed using statistical tools. | |
Language dc.language | Angol | |
dc.rights | Nevezd meg! - Ne add el! - Ne változtasd! CC BY-NC-ND | |
dc.rights.uri | https://creativecommons.org/licenses/by-nc-nd/4.0/ | |
Title dc.title | A novel image processing procedure for the quantitative evaluation of dental enamel prism arrangement | |
Type dc.type | folyóiratcikk | |
Date Change dc.date.updated | 2024-04-12T14:51:06Z | |
Scope dc.format.page | 808-817 | |
Doi ID dc.identifier.doi | https://doi.org/10.1002/jemt.24473 | |
Wos ID dc.identifier.wos | 001123802300001 | |
ID Scopus dc.identifier.scopus | 85179916369 | |
MTMT ID dc.identifier.mtmt | 34435717 | |
Issue Number dc.identifier.issue | 4 | |
abbreviated journal dc.identifier.jabbrev | MICROSC RES TECHNIQ | |
Journal dc.identifier.jtitle | MICROSCOPY RESEARCH AND TECHNIQUE | |
Volume Number dc.identifier.volume | 87 | |
Release Date dc.description.issuedate | 2024 | |
Pubmed ID dc.identifier.pubmed | 38093599 | |
department of Author dc.contributor.institution | Ásványtani Tanszék | |
department of Author dc.contributor.institution | Fizikai Intézet | |
department of Author dc.contributor.institution | Gyermekfogászati és Fogszabályozási Klinika | |
department of Author dc.contributor.institution | Műszaki Fizikai és Anyagtudományi Intézet | |
department of Author dc.contributor.institution | Vékonyrétegfizika Laboratórium | |
department of Author dc.contributor.institution | Anyagfizikai Tanszék | |
department of Author dc.contributor.institution | Transzlációs Medicina Központ | |
Author institution dc.contributor.department | Vékonyrétegfizika Laboratórium | |
Author institution dc.contributor.department | Gyermekfogászati és Fogszabályozási Klinika | |
Author institution dc.contributor.department | Anyagfizikai Tanszék |
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