Bioengineering (Jul 2024)

Auxiliary Diagnosis of Dental Calculus Based on Deep Learning and Image Enhancement by Bitewing Radiographs

  • Tai-Jung Lin,
  • Yen-Ting Lin,
  • Yuan-Jin Lin,
  • Ai-Yun Tseng,
  • Chien-Yu Lin,
  • Li-Ting Lo,
  • Tsung-Yi Chen,
  • Shih-Lun Chen,
  • Chiung-An Chen,
  • Kuo-Chen Li,
  • Patricia Angela R. Abu

DOI
https://doi.org/10.3390/bioengineering11070675
Journal volume & issue
Vol. 11, no. 7
p. 675

Abstract

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In the field of dentistry, the presence of dental calculus is a commonly encountered issue. If not addressed promptly, it has the potential to lead to gum inflammation and eventual tooth loss. Bitewing (BW) images play a crucial role by providing a comprehensive visual representation of the tooth structure, allowing dentists to examine hard-to-reach areas with precision during clinical assessments. This visual aid significantly aids in the early detection of calculus, facilitating timely interventions and improving overall outcomes for patients. This study introduces a system designed for the detection of dental calculus in BW images, leveraging the power of YOLOv8 to identify individual teeth accurately. This system boasts an impressive precision rate of 97.48%, a recall (sensitivity) of 96.81%, and a specificity rate of 98.25%. Furthermore, this study introduces a novel approach to enhancing interdental edges through an advanced image-enhancement algorithm. This algorithm combines the use of a median filter and bilateral filter to refine the accuracy of convolutional neural networks in classifying dental calculus. Before image enhancement, the accuracy achieved using GoogLeNet stands at 75.00%, which significantly improves to 96.11% post-enhancement. These results hold the potential for streamlining dental consultations, enhancing the overall efficiency of dental services.

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