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Dental microfracture detection using wavelet features and machine learning.
Vicory, Jared; Chandradevan, Ramraj; Hernandez-Cerdan, Pablo; Huang, Wei Angel; Fox, Dani; Qdais, Laith Abu; McCormick, Matthew; Mol, Andre; Walters, Rick; Marron, J S; Geha, Hassem; Khan, Asma; Paniagua, Beatriz.
Afiliação
  • Vicory J; Kitware Inc, Carrboro NC 27510, USA.
  • Chandradevan R; Kitware Inc, Carrboro NC 27510, USA.
  • Hernandez-Cerdan P; Kitware Inc, Carrboro NC 27510, USA.
  • Huang WA; University of North Carolina Department of Psychiatry, Chapel Hill, NC, 27599, USA.
  • Fox D; University of North Carolina School of Dentistry, Chapel Hill, NC, 27599, USA.
  • Qdais LA; University of Texas in San Antonio, School of Dentistry UT Health San Antonio, TX, 78229, USA.
  • McCormick M; Kitware Inc, Carrboro NC 27510, USA.
  • Mol A; University of North Carolina School of Dentistry, Chapel Hill, NC, 27599, USA.
  • Walters R; University of North Carolina School of Dentistry, Chapel Hill, NC, 27599, USA.
  • Marron JS; University of North Carolina Department of Statistics and Operations Research, Chapel Hill, NC, 27599, USA.
  • Geha H; University of Texas in San Antonio, School of Dentistry UT Health San Antonio, TX, 78229, USA.
  • Khan A; University of Texas in San Antonio, School of Dentistry UT Health San Antonio, TX, 78229, USA.
  • Paniagua B; Kitware Inc, Carrboro NC 27510, USA.
Article em En | MEDLINE | ID: mdl-35505894
Microfractures (cracks) are the third most common cause of tooth loss in industrialized countries. If they are not detected early, they continue to progress until the tooth is lost. Cone beam computed tomography (CBCT) has been used to detect microfractures, but has had very limited success. We propose an algorithm to detect cracked teeth that pairs high resolution (hr) CBCT scans with advanced image analysis and machine learning. First, microfractures were simulated in extracted human teeth (n=22). hr-CBCT and microCT scans of the fractured and control teeth (n=14) were obtained. Wavelet pyramid construction was used to generate a phase image of the Fourier transformed scan which were fed to a U-Net deep learning architecture that localizes the orientation and extent of the crack which yields slice-wise probability maps that indicate the presence of microfractures. We then examine the ratio of high-probability voxels to total tooth volume to determine the likelihood of cracks per tooth. In microCT and hr-CBCT scans, fractured teeth have higher numbers of such voxels compared to control teeth. The proposed analytical framework provides a novel way to quantify the structural breakdown of teeth, that was not possible before. Future work will expand our machine learning framework to 3D volumes, improve our feature extraction in hr-CBCT and clinically validate this model. Early detection of microfractures will lead to more appropriate treatment and longer tooth retention.
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2021 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2021 Tipo de documento: Article