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Classification Algorithms for Early Tooth Demineralization Assessment by Impedance Spectroscopy.

Isabella Sannino1, Luca Lombardo2, Leila Es Sebar1

  • 1Department of Applied Science and Technology, Politecnico di Torino, 10129 Turin, Italy.

Sensors (Basel, Switzerland)
|September 19, 2025
PubMed
Summary
This summary is machine-generated.

Early detection of oral caries is now possible with a new, non-invasive impedance spectroscopy method. This radiation-free approach uses artificial intelligence (AI) to accurately identify enamel demineralization, improving dental diagnostics.

Keywords:
carious lesionsimpedance spectroscopymulti-layer perceptiontooth demineralizationtooth lesion classifiers

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Area of Science:

  • Biomedical Engineering
  • Dental Diagnostics
  • Artificial Intelligence in Healthcare

Background:

  • Oral caries, a prevalent global oral disease, begins with enamel demineralization and can lead to tooth loss.
  • Current diagnostic methods for demineralization lack sensitivity, rely on operator expertise, and may involve ionizing radiation.
  • There is a significant need for non-invasive, rapid, and accurate early detection tools for oral caries.

Purpose of the Study:

  • To investigate the feasibility of impedance spectroscopy for non-invasive, radiation-free early detection of oral caries.
  • To develop and validate AI-based classifiers for automated assessment of demineralization using impedance data.
  • To create a prototype portable diagnostic tool for early caries detection.

Main Methods:

  • In vitro demineralization of human teeth was performed to obtain impedance spectroscopy data.
  • Two binary classifiers were developed: a single-neuron classifier using a 15 Hz impedance phase measurement and a Multi-Layer Perceptron (MLP) using equivalent circuit element values.
  • A prototype diagnostic tool was built to measure impedance phase reliably.

Main Results:

  • The single-neuron classifier achieved 88% accuracy, offering a low-power solution for rapid measurements.
  • The MLP classifier achieved 86% accuracy.
  • The prototype tool demonstrated reliable impedance phase measurements with uncertainty less than 2°.
  • Classifier performance met or exceeded existing AI-based methods using radiographic data.

Conclusions:

  • Impedance spectroscopy, combined with AI, presents a novel and effective approach for early oral caries detection.
  • This non-invasive, radiation-free method offers a promising alternative to current diagnostic techniques.
  • The developed technology lays the foundation for an accessible and accurate tool for early caries management.