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Comparison of periapical radiography, panoramic, and cone-beam CT in the detection of dental caries in dog teeth

Year 2019, , 379 - 384, 09.09.2019
https://doi.org/10.33988/auvfd.544263

Abstract

The aim of this study was to compare the
effectiveness of panoramic, periapical and two different Cone Beam Computed
Tomography (CBCT) devices in the detection of dental caries of dog teeth ex vivo. A total of 880 teeth were
investigated, 33 of which were with caries, whereas; 33 healthy teeth were the
controls. Periapical, panoramic and CBCT scans were made for the assessment of
the teeth. All images were evaluated separately by two observers experienced in
image interpretation. The presence or absence of occlusal caries was scored
using a 5-point scale.
Kappa values were calculated to assess intra and
interobserver agreement.
Receiver Operating Characteristic (ROC) analysis
was performed to compare the effectiveness of different imaging methods in the
detection of dental caries. For both observers, the order of success of the
image sets in the estimation of the caries tooth was CBCT Morita, CBCT Iluma,
periapical and panoramic radiograph (Area Under Curve (AUC): 0.929, 0.882,
0.861, and 0.704 for observer 1, AUC: 0.927, 0.896, 0.875, and 0.693 for
observer 2, respectively).
CBCT was found to be the best
imaging method for the ex vivo detection of caries in dog teeth. In
addition, panoramic images performed worse than all other modalities.
 

References

  • 1. Haiter-Neto F, Wenzel A, Gotfredsen E (2008): Diagnostic accuracy of cone beam computed tomography scans compared with intraoral image modalities for detection of caries lesions. Dentomaxillofac Radiol, 37, 18–22.
  • 2. Hale FA (1998): Dental Caries in the Dog. J Vet Dent, 15, 79–83.
  • 3. Kalathingal SM, Mol A, Tyndall DA, et al (2007): In vitro assessment of cone beam local computed tomography for proximal caries detection. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 104, 699–704.
  • 4. Lee G-S, Kim J-S, Seo Y-S, et al (2013): Effective dose from direct and indirect digital panoramic units. Imaging Sci Dent, 43, 77–84.
  • 5. Ludlow JB, Timothy R, Walker C, et al (2015): Effective dose of dental CBCT—a meta analysis of published data and additional data for nine CBCT units. Dentomaxillofac Radiol, 44, 20140197.
  • 6. Pavlica Z, Erjavec V, Erzen D, et al (2003): A full-mouth radiographic survey of periodontal bone loss in dogs. Acta Vet Brno, 72, 391–398.
  • 7. Rathore S, Tyndall D, Wright J, et al (2012): Ex vivo comparison of Galileos cone beam CT and intraoral radiographs in detecting occlusal caries. Dentomaxillofac Radiol, 41, 489–493.
  • 8. Riggs GG, Arzi B, Cissell DD, et al (2016): Clinical application of cone-beam computed tomography of the rabbit head: part 1 – normal dentition. Front Vet Sci, 3, 93.
  • 9. Ritchie C (2014): Class I restoration of maxillary first molar caries in a dog. J Vet Dent, 31, 66–9.
  • 10. Roza MR, Silva LAF, Barriviera M, et al (2011): Cone beam computed tomography and intraoral radiography for diagnosis of dental abnormalities in dogs and cats. J Vet Sci, 12, 387–392.
  • 11. Senel B, Kamburoglu K, Ucok O, et al (2010): Diagnostic accuracy of different imaging modalities in detection of proximal caries. Dentomaxillofacial Radiol, 39, 501–511.
  • 12. Soukup JW, Drees R, Koenig LJ, et al (2015): Comparison of the diagnostic image quality of the canine maxillary dentoalveolar structures obtained by cone beam computed tomography and 64-multidetector row computed tomography. J Vet Dent, 32, 80–86.
  • 13. Tsuchida R, Araki K, Okano T. (2007): Evaluation of a limited cone-beam volumetric imaging system: comparison with film radiography in detecting incipient proximal caries. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 104, 412–416.
  • 14. Van Thielen B, Siguenza F, Hassan B (2012): Cone beam computed tomography in veterinary dentistry. J Vet Dent, 29, 27–34. 15. Verstraete F, Kass P, Terpak C (1998): Diagnostic value of full-mouth radiography in dogs. Am J Vet Res, 59, 686–691.
  • 16. Young SM, Lee JT, Hodges RJ, et al (2009): A comparative study of high-resolution cone beam computed tomography and charge-coupled device sensors for detecting caries. Dentomaxillofac Radiol, 38, 445–451.

Köpek dişlerindeki çürüklerin tespitinde periapikal, panoramik ve konik ışınlı BT görüntülerinin karşılaştırılması

Year 2019, , 379 - 384, 09.09.2019
https://doi.org/10.33988/auvfd.544263

Abstract

Bu çalışmanın amacı, ex vivo olarak köpeklerde diş çürüğü tespitinde panoramik, periapikal ve iki farklı Konik Işınlı Bilgisayarlı Tomografi (KIBT) cihazının etkinliğini karşılaştırmaktır. Toplam 880 diş değerlendirilmiş olup 33 çürük diş tespit edilmiştir. Sağlıklı dişlerden rastgele 33’ü seçilerek kontrol grubu oluşturulmuştur. Çürüklerin radyografik olarak değerlendirilmesi için periapikal, panoramik ve KIBT yöntemleri kullanılarak görüntüler elde edildi. Tüm görüntüler, görüntü yorumlamada deneyimli iki gözlemci tarafından ayrı ayrı değerlendirildi. Okluzal çürüğün varlığı veya yokluğu, 5 puanlık bir ölçek kullanılarak puanlandı. Kappa değerleri, gözlemci içi ve gözlemciler arası uyumu değerlendirmek için hesaplandı. Diş çürüğü tespitinde farklı görüntüleme yöntemlerinin karşılaştırılması için ROC analizi yapıldı. Her iki gözlemci için, çürük dişin tespitinde görüntüleme yöntemlerinin başarı sırası KIBT Morita, KIBT Iluma, periapikal ve panoramik radyograf olarak bulunmuştur. (1. gözlemci için Area Under Curve (AUC): 0.929, 0.882, 0.861 ve 0.704, 2. gözlemci için AUC: 0.927, 0.896, 0.875 ve 0.693). KIBT’ın köpek dişlerinde çürüklerin ex vivo tespiti için en iyi görüntüleme yöntemi olduğu belirlenmiştir. Ayrıca, panoramik görüntüler diğer tüm yöntemlerden daha kötü performans göstermiştir. 

References

  • 1. Haiter-Neto F, Wenzel A, Gotfredsen E (2008): Diagnostic accuracy of cone beam computed tomography scans compared with intraoral image modalities for detection of caries lesions. Dentomaxillofac Radiol, 37, 18–22.
  • 2. Hale FA (1998): Dental Caries in the Dog. J Vet Dent, 15, 79–83.
  • 3. Kalathingal SM, Mol A, Tyndall DA, et al (2007): In vitro assessment of cone beam local computed tomography for proximal caries detection. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 104, 699–704.
  • 4. Lee G-S, Kim J-S, Seo Y-S, et al (2013): Effective dose from direct and indirect digital panoramic units. Imaging Sci Dent, 43, 77–84.
  • 5. Ludlow JB, Timothy R, Walker C, et al (2015): Effective dose of dental CBCT—a meta analysis of published data and additional data for nine CBCT units. Dentomaxillofac Radiol, 44, 20140197.
  • 6. Pavlica Z, Erjavec V, Erzen D, et al (2003): A full-mouth radiographic survey of periodontal bone loss in dogs. Acta Vet Brno, 72, 391–398.
  • 7. Rathore S, Tyndall D, Wright J, et al (2012): Ex vivo comparison of Galileos cone beam CT and intraoral radiographs in detecting occlusal caries. Dentomaxillofac Radiol, 41, 489–493.
  • 8. Riggs GG, Arzi B, Cissell DD, et al (2016): Clinical application of cone-beam computed tomography of the rabbit head: part 1 – normal dentition. Front Vet Sci, 3, 93.
  • 9. Ritchie C (2014): Class I restoration of maxillary first molar caries in a dog. J Vet Dent, 31, 66–9.
  • 10. Roza MR, Silva LAF, Barriviera M, et al (2011): Cone beam computed tomography and intraoral radiography for diagnosis of dental abnormalities in dogs and cats. J Vet Sci, 12, 387–392.
  • 11. Senel B, Kamburoglu K, Ucok O, et al (2010): Diagnostic accuracy of different imaging modalities in detection of proximal caries. Dentomaxillofacial Radiol, 39, 501–511.
  • 12. Soukup JW, Drees R, Koenig LJ, et al (2015): Comparison of the diagnostic image quality of the canine maxillary dentoalveolar structures obtained by cone beam computed tomography and 64-multidetector row computed tomography. J Vet Dent, 32, 80–86.
  • 13. Tsuchida R, Araki K, Okano T. (2007): Evaluation of a limited cone-beam volumetric imaging system: comparison with film radiography in detecting incipient proximal caries. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 104, 412–416.
  • 14. Van Thielen B, Siguenza F, Hassan B (2012): Cone beam computed tomography in veterinary dentistry. J Vet Dent, 29, 27–34. 15. Verstraete F, Kass P, Terpak C (1998): Diagnostic value of full-mouth radiography in dogs. Am J Vet Res, 59, 686–691.
  • 16. Young SM, Lee JT, Hodges RJ, et al (2009): A comparative study of high-resolution cone beam computed tomography and charge-coupled device sensors for detecting caries. Dentomaxillofac Radiol, 38, 445–451.
There are 15 citations in total.

Details

Primary Language English
Subjects Veterinary Surgery
Journal Section Articles
Authors

Kaan Orhan 0000-0003-1686-4746

Mehmet Özgür Özemre 0000-0001-5863-6990

Cansu Köseoğlu Seçgin 0000-0002-7896-1165

Sevil Atalay Vural 0000-0003-2111-3381

Gürkan Gür 0000-0002-4376-7848

Kıvanç Kamburoğlu 0000-0002-4134-5756

Publication Date September 9, 2019
Published in Issue Year 2019

Cite

APA Orhan, K., Özemre, M. Ö., Köseoğlu Seçgin, C., Atalay Vural, S., et al. (2019). Comparison of periapical radiography, panoramic, and cone-beam CT in the detection of dental caries in dog teeth. Ankara Üniversitesi Veteriner Fakültesi Dergisi, 66(4), 379-384. https://doi.org/10.33988/auvfd.544263
AMA Orhan K, Özemre MÖ, Köseoğlu Seçgin C, Atalay Vural S, Gür G, Kamburoğlu K. Comparison of periapical radiography, panoramic, and cone-beam CT in the detection of dental caries in dog teeth. Ankara Univ Vet Fak Derg. September 2019;66(4):379-384. doi:10.33988/auvfd.544263
Chicago Orhan, Kaan, Mehmet Özgür Özemre, Cansu Köseoğlu Seçgin, Sevil Atalay Vural, Gürkan Gür, and Kıvanç Kamburoğlu. “Comparison of Periapical Radiography, Panoramic, and Cone-Beam CT in the Detection of Dental Caries in Dog Teeth”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66, no. 4 (September 2019): 379-84. https://doi.org/10.33988/auvfd.544263.
EndNote Orhan K, Özemre MÖ, Köseoğlu Seçgin C, Atalay Vural S, Gür G, Kamburoğlu K (September 1, 2019) Comparison of periapical radiography, panoramic, and cone-beam CT in the detection of dental caries in dog teeth. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66 4 379–384.
IEEE K. Orhan, M. Ö. Özemre, C. Köseoğlu Seçgin, S. Atalay Vural, G. Gür, and K. Kamburoğlu, “Comparison of periapical radiography, panoramic, and cone-beam CT in the detection of dental caries in dog teeth”, Ankara Univ Vet Fak Derg, vol. 66, no. 4, pp. 379–384, 2019, doi: 10.33988/auvfd.544263.
ISNAD Orhan, Kaan et al. “Comparison of Periapical Radiography, Panoramic, and Cone-Beam CT in the Detection of Dental Caries in Dog Teeth”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66/4 (September 2019), 379-384. https://doi.org/10.33988/auvfd.544263.
JAMA Orhan K, Özemre MÖ, Köseoğlu Seçgin C, Atalay Vural S, Gür G, Kamburoğlu K. Comparison of periapical radiography, panoramic, and cone-beam CT in the detection of dental caries in dog teeth. Ankara Univ Vet Fak Derg. 2019;66:379–384.
MLA Orhan, Kaan et al. “Comparison of Periapical Radiography, Panoramic, and Cone-Beam CT in the Detection of Dental Caries in Dog Teeth”. Ankara Üniversitesi Veteriner Fakültesi Dergisi, vol. 66, no. 4, 2019, pp. 379-84, doi:10.33988/auvfd.544263.
Vancouver Orhan K, Özemre MÖ, Köseoğlu Seçgin C, Atalay Vural S, Gür G, Kamburoğlu K. Comparison of periapical radiography, panoramic, and cone-beam CT in the detection of dental caries in dog teeth. Ankara Univ Vet Fak Derg. 2019;66(4):379-84.