Ultrasonic Monitoring of Dentin Demineralization

Ultrasonic Monitoring of Dentin Demineralization

Demineralization is a process of loss of minerals in the dental hard tissue that affects seriously the health of the patients, as it diminishes the tooth resistance, generating chewing problems by altering the occlusal structure, hypersensitivity, and pulpal problems. Demineralization can be produce...

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Published in:IEEE transactions on ultrasonics, ferroelectrics, and frequency control Vol. 68; no. 3; pp. 570 - 578
Main Authors: Rodriguez-Sendra, Josep, Torres, Ines, Jimenez, Noe, Sauro, Salvatore, Camarena, Francisco
Format: Journal Article
Language:English
Published: United States IEEE 01-03-2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Acoustics
Boundaries
Deceleration
Demineralization
Demineralizing
denistry
Dentin
Dentistry
In vivo methods and tests
Laboratories
Mechanical properties
Monitoring
Phosphoric acid
pulse-echo
Scanning electron microscopy
Teeth
ultrasonic
Ultrasonic imaging
Ultrasonic methods
Ultrasonic testing
Ultrasonic variables measurement
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Summary:Demineralization is a process of loss of minerals in the dental hard tissue that affects seriously the health of the patients, as it diminishes the tooth resistance, generating chewing problems by altering the occlusal structure, hypersensitivity, and pulpal problems. Demineralization can be produced by pathological processes as erosion or caries, or by surgical processes as etching. Due to the complexity of natural demineralization processes, it is mandatory to provide quantitative and standardized tests to allow their study in controlled laboratory conditions. Ultrasonic techniques are suitable for this purpose as they are nondestructive, quick, and provide localized mechanical information about the tissue, which is related with its degree of demineralization. In the present work, we evaluate the complete process of demineralization of the human dentin under controlled laboratory conditions using a pulse-echo ultrasonic technique. Up to 15 human dentin teeth have been demineralized with phosphoric acid at 10%. The time-of-flight measurements using the pulse-echo system allows to obtain the speed of sound in healthy (3415 m/s) and demineralized dentin tissue (1710 m/s), as well as to characterize the dynamical process of the acid penetration, which generates well-defined boundaries between two media (demineralized and mineralized dentin), showing very different mechanical properties. These boundaries advance in depth at an initial rate of <inline-formula> <tex-math notation="LaTeX">2.9~\mu \text{m} </tex-math></inline-formula>/min, decelerating at −9.3 nm/min 2 until the whole demineralization of the sample is achieved. In addition, the technique allows to measure the relevance of the demineralization produced by the acid residues inside the tooth once it has been removed from the acidic solution. Beyond the assessment of artificial demineralization lesions under laboratory conditions, as demonstrated in this article, the proposed technique opens new approaches to the assessment of demineralization caused by natural caries in vivo .
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ISSN:0885-3010
1525-8955
DOI:10.1109/TUFFC.2020.3015668