1. Swain MV, Xue J. State of the art of Micro-CT applications in dental research. Int J Oral Sci. 2009; 1:177–188.
Article
2. Marciano MA, Duarte MAH, Ordinola-Zapata R, Del Carpio-Perochena A, Cavenago BC, Villas-Bôas MH, Minotti PG, Bramante CM, Moraes IG. Applications of micro-computed tomography in endodontic research. In : Méndez-Vilas A, editor. Current microscopy contributions to advances in science and technology. Badajoz, Spain: Formatex research center;2012. p. 782–788.
3. Versiani MA, Ordinola-Zapata R, Keleş A, Alcin H, Bramante CM, Pécora JD, Sousa-Neto MD. Middle mesial canals in mandibular first molars: a micro-CT study in different populations. Arch Oral Biol. 2016; 61:130–137.
Article
4. Verma P, Love RM. A micro CT study of the mesiobuccal root canal morphology of the maxillary first molar tooth. Int Endod J. 2011; 44:210–217.
Article
5. Versiani MA, Pécora JD, Sousa-Neto MD. Microcomputed tomography analysis of the root canal morphology of single-rooted mandibular canines. Int Endod J. 2013; 46:800–807.
Article
6. Ahmed HMA. A paradigm evolution shift in the endodontic map. Eur J Gen Dent. 2015; 4:98.
Article
7. Junaid A, Freire LG, da Silveira Bueno CE, Mello I, Cunha RS. Influence of single-file endodontics on apical transportation in curved root canals: an
ex vivo micro-computed tomographic study. J Endod. 2014; 40:717–720.
Article
8. Keleş A, Alcin H, Kamalak A, Versiani MA. Micro-CT evaluation of root filling quality in oval-shaped canals. Int Endod J. 2014; 47:1177–1184.
Article
9. Rödig T, Reicherts P, Konietschke F, Dullin C, Hahn W, Hülsmann M. Efficacy of reciprocating and rotary NiTi instruments for retreatment of curved root canals assessed by micro-CT. Int Endod J. 2014; 47:942–948.
Article
10. Peyrin F, Dong P, Pacureanu A, Langer M. Micro- and nano-CT for the study of bone ultrastructure. Curr Osteoporos Rep. 2014; 12:465–474.
Article
11. Kerckhofs G, Sainz J, Maréchal M, Wevers M, Van de Putte T, Geris L, Schrooten J. Contrast-enhanced nanofocus X-ray computed tomography allows virtual three-dimensional histopathology and morphometric analysis of osteoarthritis in small animal models. Cartilage. 2014; 5:55–65.
Article
12. Kerckhofs G, Sainz J, Wevers M, Van de Putte T, Schrooten J. Contrast-enhanced nanofocus computed tomography images the cartilage subtissue architecture in three dimensions. Eur Cell Mater. 2013; 25:179–189.
Article
13. van Hove RP, Nolte PA, Vatsa A, Semeins CM, Salmon PL, Smit TH, Klein-Nulend J. Osteocyte morphology in human tibiae of different bone pathologies with different bone mineral density-is there a role for mechanosensing? Bone. 2009; 45:321–329.
Article
14. Cuijpers VM, Jaroszewicz J, Anil S, Al Farraj Aldosari A, Walboomers XF, Jansen JA. Resolution, sensitivity, and
in vivo application of high-resolution computed tomography for titanium-coated polymethyl methacrylate (PMMA) dental implants. Clin Oral Implants Res. 2014; 25:359–365.
Article
15. Salmon PL, Sasov AY. Application of nano-CT and high-resolution micro-CT to study bone quality and ultrastructure, scaffold biomaterials and vascular networks. In : Qin L, Genant HK, Griffith JF, Leung K, editors. Advanced bioimaging technologies in assessment of the quality of bone and scaffold materials. 1st ed. Berlin: Springer Verlag Heidelberg;2007. p. 323–331.
16. Mavridou AM, Pyka G, Kerckhofs G, Wevers M, Bergmans L, Gunst V, Huybrechts B, Schepers E, Hauben E, Lambrechts P. A novel multimodular methodology to investigate external cervical tooth resorption. Int Endod J. 2016; 49:287–300.
Article