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CHAPITRE V L’apport du numérique en endodontie

3. Lozano, A., Forner, L., & Llena, C. (2002). In vitro comparison of root canal measurements with conven-
tional and digital radiology. International Endodontic Journal, 35 (6), pp. 542-550.
4. Calberson, F. L., Hommez, G. M., & De Moor, R. J. (2008). Fraudulent use of digital radiography: methods
to detect and protect digital radiographs. Journal of endodontics, 34(5), pp. 530-536.
5. Güneri, P., & Akdeniz, B. G. (2004). Fraudulent management of digital endodontic images. International
Endodontic Journal, 37 (3), pp. 214-220.
6. Nasseh, I., & Al-Rawi, W. (2018). Cone beam computed tomography. Dental Clinics of North America,
62(3), pp. 361-391.
7. Haute Autorité de Santé (HAS) (2009). Tomographie volumique à faisceau conique de la face (cone
beam computerized tomography). Service évaluation des actes professionnels. Saint-Denis.
8. Patel, S., Durack, C., Abella, F., Roig, M., Shemesh, H., Lambrechts, P., & Lemberg, K. (2014). Euro-
pean Society of Endodontology position statement: the use of CBCT in endodontics. International endo-
dontic journal, 47 (6), pp. 502-504.
9. Patel, S., Brown, J., Semper, M., Abella, F., & Mannocci, F. (2019). European Society of Endodontology
position statement: use of cone beam computed tomography in Endodontics: European Society of Endo-
dontology (ESE) developed by. International endodontic journal, 52 (12), pp. 1675-1678.
10. Fayad, M. I., Nair, M., Levin, M. D., Benavides, E., Rubinstein, R. A., Barghan, S., ... & Ruprecht, A.
(2015). AAE and AAOMR joint position statement: use of cone beam computed tomography in endodon-
tics 2015 update. Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology, 120(4), pp. 508-512.
11. Reymus, M., Fotiadou, C., Hickel, R., & Diegritz, C. (2018). 3D printed model for hands on training in
dental traumatology. International endodontic journal, 51 (11), pp. 1313-1319.
12. Reymus, M., Fotiadou, C., Kessler, A., Heck, K., Hickel, R., & Diegritz, C. (2019). 3D printed replicas for
endodontic education. International endodontic journal, 52 (1), pp. 123-130.
13. Tavares, W. L. F., Viana, A. C. D., de Carvalho Machado, V., Henriques, L. C. F., & Sobrinho, A. P.
R. (2018). Guided endodontic access of calcified anterior teeth. Journal of endodontics, 44(7), pp.
1195-1199.

14. Byun, C., Kim, C., Cho, S., Baek, S. H., Kim, G., Kim, S. G., & Kim, S. Y. (2015). Endodontic treatment
of an anomalous anterior tooth with the aid of a 3-dimensional printed physical tooth model. Journal of
endodontics, 41(6), pp. 961-965.
15. Mena-Álvarez, J., Rico-Romano, C., Lobo-Galindo, A. B., & Zubizarreta-Macho, Á. (2017). Endodontic
treatment of dens evaginatus by performing a splint guided access cavity. Journal of esthetic and resto-
rative dentistry, 29(6), pp. 396-402.
16. Perez, C., Finelle, G., & Couvrechel, C. (2019). Optimisation of a guided endodontics protocol for removal
of fibre reinforced posts. Australian Endodontic Journal.
17. Buchgreitz, J., Buchgreitz, M., Mortensen, D., & Bjørndal, L. (2016). Guided access cavity preparation
using cone beam computed tomography and optical surface scans–an ex vivo study. International endo-
dontic journal, 49 (8), pp. 790-795.

18. Ahn, S. Y., Kim, N. H., Kim, S., Karabucak, B., & Kim, E. (2018). Computer-aided Design/Computer-aided
Manufacturing–guided Endodontic Surgery: Guided Osteotomy and Apex Localization in a Mandibular
Molar with a Thick Buccal Bone Plate. Journal of endodontics, 44(4), pp. 665-670.

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