Brenner, D. J. & Hall, E. J. Computed tomography an increasing source of radiation exposure. N. Engl. J. Med. 22, 2277–2284 (2007).
Hidalgo Rivas, J. A., Horner, K., Thiruvenkatachari, B., Davies, J. & Theodorakou, C. Development of a low-dose protocol for cone beam CT examinations of the anterior maxilla in children. Br. J. Radiol. 88, 20150559 (2015).
Seeram, E. Computed Tomography. Physical Principles, Clinical Applications, and Quality Control 4th edn, 221–224 (Elsevier, 2015).
Oenning, A. C. et al. Cone-beam CT in paediatric dentistry: DIMITRA project position statement. Pediatr. Radiol. 48, 308–316 (2018).
Yeung, A. W. K., Jacobs, R. & Bornstein, M. M. Novel low-dose protocols using cone beam computed tomography in dental medicine: A review focusing on indications, limitations, and future possibilities. Clin. Oral Investig. 26, 2573–2581 (2019).
Loubele, M. et al. Comparison between effective radiation dose of CBCT and MSCT scanners for dentomaxillofacial applications. Eur. J. Radiol. 71, 461–468 (2009).
Lofthag-Hansen, S., Thilander-Klang, A. & Grondahl, K. Evaluation of subjective image quality in relation to diagnostic task for cone beam computed tomography with different fields of view. Eur. J. Radiol. 80, 483–488 (2011).
Harris, D. et al. E.A.O. guidelines for the use of diagnostic imaging in implant dentistry 2011. A consensus workshop organized by the European Association for Osseointegration at the Medical University of Warsaw. Clin. Oral Implants 23, 1243–1253 (2012).
Pauwels, R. et al. Optimization of dental CBCT exposures through mAs reduction. Dentomaxillofac. Radiol. 44, 20150108 (2015).
EzEldeen, M. et al. As low dose as sufficient quality: Optimization of cone-beam computed tomographic scanning protocol for tooth autotransplantation planning and follow-up in children. J. Endod. 43, 210–217 (2016).
McGuigan, M. B., Duncan, H. F. & Horner, K. An analysis of effective dose optimization and its impact on image quality and diagnostic efficacy relating to dental cone beam computed tomography (CBCT). Swiss Dent. J. 128, 297–316 (2018).
Meilinger, M., Schmidgunst, C., Schutz, O. & Lang, E. W. Metal artefact reduction in cone beam computed tomography using forward projected reconstruction information. Z. Med. Phys. 21, 174–182 (2011).
Candemil, A. P. et al. Metallic materials in the exomass impair cone beam CT voxel values. Dentomaxillofac. Radiol. 47, 20180011 (2018).
Candemil, A. P., Salmon, B., Freitas, D. Q., Haiter-Neto, F. & Oliveira, M. L. Distribution of metal artifacts arising from the exomass in small field-of-view cone beam computed tomography scans. Oral Surg. Oral Med. Oral Pathol. Oral Radiol. 130, 116–125 (2020).
Candemil, A. P. et al. Influence of the exomass on the detection of simulated root fracture in cone-beam CT—An ex-vivo study. Dentomaxillofac. Radiol. 50, 20200450 (2021).
American Association of Endodontists. Colleagues for Excellence—Cracking the Cracked Tooth Code (American Association of Endodontists, 2008).
Fayad, M. I. et al. AAE & AAOMR joint position statement: Use of cone beam computed tomography in endodontics 2015 update. Oral Surg. Oral Med. Oral Pathol. Oral Radiol. 120, 508–512 (2015).
Salineiro, F. C. S., Kobayashi-Velasco, S., Braga, M. M. & Cavalcanti, M. G. P. Radiographic diagnosis of root fractures: A systematic review. Dentomaxillofac. Radiol. 46, 20170400 (2017).
Patel, S., Brown, J., Semper, M., Abella, F. & Mannocci, F. European Society of Endodontology position statement: Use of cone beam computed tomography in endodontics: European Society of Endodontology (ESE) developed by. Int. Endod. J. 52, 1675–1678 (2019).
Bushberg, J. T. Eleventh annual Warren K. Sinclair keynote address-science, radiation protection and NCRP: Building on the past, looking to the future. Health Phys. 108, 115–123 (2015).
Durack, C., Patel, S., Davies, J., Wilson, R. & Mannocci, F. Diagnostic accuracy of small volume cone beam computed tomography and intraoral periapical radiography for the detection of simulated external inflammatory root resorption. Int. Endod. J. 44, 136–147 (2011).
Bechara, B. et al. Number of basis images effect on detection of root fractures in endodontically treated teeth using a cone beam computed tomography machine: An in vitro study. Oral Surg Oral Med. Oral Pathol. Oral Radiol. 115, 676–681 (2013).
Jones, D., Mannocci, F., Andiappan, M., Brown, J. & Patel, S. The effect of alteration of the exposure parameters of a cone-beam computed tomographic scan on the diagnosis of simulated horizontal root fractures. J. Endod. 41, 520–525 (2015).
Neves, F., Vasconcelos, T., Vaz, S., Freitas, D. & Haiter-Neto, F. Evaluation of reconstructed images with different voxel sizes of acquisition in the diagnosis of simulated external root resorption using cone beam computed tomography. Int. Endod. J. 45, 234–239 (2012).
Neves, F. S., Freitas, D. Q., Campos, P. S., Ekestubbe, A. & Lofthag-Hansen, S. Evaluation of cone-beam computed tomography in the diagnosis of vertical root fractures: The influence of imaging modes and root canal materials. J. Endod. 40, 1530–1536 (2014).
Oenning, A. C. et al. Halve the dose while maintaining image quality in paediatric Cone Beam CT. Sci. Rep. 9, 5521 (2019).
Landis, J. R. & Koch, G. G. An application of hierarchical kappa-type statistics in the assessment of majority agreement among multiple observers. Biometrics 33, 363–374 (1977).
Ayres, M., Ayres-Junior, M., Ayres, D. L. & Santos, A. S. Bioestat 4.0: Aplicacões estatísticas nas áreas das ciências biológicas e médicas. IOEPA. 4, 39–52 (2005).
Van Acker, J. W. G., Pauwels, N. S., Cauwels, R. G. E. C. & Rajasekharan, S. Outcomes of different radioprotective precautions in children undergoing dental radiography: A systematic review. Eur. Arch. Paediatr. Dent. 21, 463–508 (2020).
Pauwels, R. et al. A pragmatic approach to determine the optimal kVp in cone beam CT: Balancing contrast-to-noise ratio and radiation dose. Dentomaxillofac. Radiol. 43, 20140059 (2014).
Al-Okshi, A., Theodorakou, C. & Lindh, C. Dose optimization for assessment of periodontal structures in cone beam CT examinations. Dentomaxillofac. Radiol. 46, 20160311 (2017).
Draenert, F. G., Coppenrath, E., Herzog, P., Müller, S. & Mueller-Lisse, U. G. Beam hardening artefacts occur in dental implant scans with the NewTom cone beam CT but not with the dental 4-row multidetector CT. Dentomaxillofac. Radiol. 36, 198–203 (2007).
Pierrisnard, L., Bohin, F., Renault, P. & Barquins, M. Corono-radicular reconstruction of pulpless teeth: A mechanical study using finite element analysis. J. Prosthet. Dent. 88, 442–448 (2002).
Marinho, V. L. E. et al. Assessment of the influence of different intracanal materials on the detection of root fracture in birooted teeth by cone-beam computed tomography. J. Endod. 46, 264–270 (2020).
Khedmat, S., Rouhi, N., Drage, N., Shokouhinejad, N. & Nekoofar, M. H. Evaluation of three imaging techniques for the detection of vertical root fractures in the absence and presence of gutta-percha root fillings. Int. Endod. J. 45, 1004–1009 (2012).
Brito-Júnior, M., Santos, L. A. N., Faria-e-Silva, A. L., Pereira, R. D. & Souza-Neto, M. D. Ex vivo evaluation of artifacts mimicking fracture lines on cone-beam computed tomography produced by different root canal sealers. Int. Endod. J. 47, 26–31 (2014).
Hassan, B., Metska, M. E., Ozok, A. R., van der Stelt, P. & Wesselink, P. R. Comparison of five cone beam computed tomography systems for the detection of vertical root fractures. J. Endod. 36, 126–129 (2010).
Kajan, Z. D. & Taromsari, M. Value of cone beam CT in detection of dental root fractures. Dentomaxillofac. Radiol. 41, 3–10 (2012).
Gaêta-Araujo, H. et al. Cone-beam computed tomography in dentomaxillofacial radiology: A two-decade overview. Dentomaxillofac. Radiol. 49, 20200145 (2020).