Abstract
C-arm computed tomography (CT) is a new and innovative imaging technique. In combination with two-dimensional fluoroscopic or radiographic imaging, information provided by three-dimensional C-arm real time imaging can be valuable for therapy planning, guidance and outcome assessment in dental implant placement. This paper reports a case of two dental implant placement using Artis zee C-arm CT system first time in field of implantology.
This is a preview of subscription content, log in via an institution to check access.
References
Strobel N, Meissner O, Boese J et al (2009) Imaging with flat-detector C-arm systems. In: Reiser MF, Becker CR, Nicolaou K, Glazer G (eds) Multislice CT. Springer, Heidelberg, pp 33–51
Uzbelger-Feldman D, Susin C, Yang J (2008) The use of fluoroscopy in dentistry: a systematic review. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 105:61
Blinov NN, Mazurov AI (2000) An analysis of the outlook for using C-arm type mobile X-ray diagnostic apparatus. Med Tekh 5:19–23
U.S. Food and Drug Administration (2005) 21 C.F.R. Part 1020. Federal Register. Electronic products; performance standard for diagnostic X-ray systems and their major components; final rule, 70:33998–34042
Wallace MJ, Kuo MD, Glaiberman C et al (2008) Three-dimensional C-arm Cone-beam CT: applications in the interventional suite. J Vasc Interv Radiol 19(6):799–813
Eisenberg RL (1992) Radiology: an illustrated history. Mosby-Year Book, St Louis, pp 51–78
Chamberlain WE (1942) Fluoroscopes and fluoroscopy. Radiology 38:383–413
Carroll QB, Fuchs AW (2003) Fuch’s radiographic exposure and quality control, 7th edn. Charles C Thomas Publisher, Springfield, pp 451–469
Saint-Felix D, Trousset Y, Picard C et al (1994) In vivo evaluation of a new system for 3D computerized angiography. Phys Med Biol 39:583–595
Koppe R, Klotz E, de Beek JO et al (1995) Three-dimensional vessel reconstruction based on rotational angiography. In: Lemke HU, Inamura K, Jaffe CC et al (eds) Proceedings of the International Symposium Computer Assisted Radiology. Springer, Berlin Heidelberg, New York, pp 101–107
Fahrig R, Dixon R, Payne T et al (2006) Dose and image quality for a cone-beam C-arm CT system. Med Phys 3:4541–4550
Bani-Hashemi A, Navab N, Nadar M et al (1998) Interventional 3D-angiography: calibration, reconstruction and visualization system. In: Navab N (ed) Proceedings of the Fourth IEEE Workshop on Application of Computer Vision, WACV, pp 246–247
Jaffray DA, Siewerdsen JH (2000) Cone-beam computed tomography with a flat-panel imager: initial performance characterization. Med Phys 27:1311–1323
Groh BA, Siewerdsen JH, Drake DG et al (2002) A performance comparison of flat-panel imager-based MV and KV cone-beam CT. Med Phys 29:967–975
Zellerhoff M, Scholz B, Ruhrnschopf EP et al (2005) Low contrast 3D reconstruction from C-arm data. In: Michael J.Flynn (ed) Medical imaging. Physics of medical imaging. SPIE, San Diego, pp 646–655
Ritter D, Orman J, Schmidgunst C et al (2007) Three-dimensional soft tissue imaging with a mobile C-arm. Comput Med Imaging Graph 31:91–102
Kalender W, Kyriakou Y (2007) Flat-detector computed tomography (FD-CT). Eur Radiol 17:2767–2779
Linsenmaier U, Rock C, Wirth S et al (2002) Three dimensional CT with a modified C-arm image intensifier: feasibility. Radiology 224:286–292
Boruah L, Bhuyan A, Tyagi S (2010) Computed tomographic imaging in endodontics: a short literature review. Endo: Endodontic Practice Today 4(1):27–40
Patel S, Dawood A, Whaites E et al (2009) New dimensions in endodontic emaging. Part 1: conventional and alternative radiographic systems. Int Endod J 42:447–462
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Rajkumar, B., Boruah, L.C., Thind, A. et al. Dental Implant Placement using C-arm CT Real Time Imaging System: A Case Report. J Indian Prosthodont Soc 14 (Suppl 1), 308–312 (2014). https://doi.org/10.1007/s13191-014-0366-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s13191-014-0366-y