Vestibular Disorders. Группа авторов
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24Brenner D, Elliston C, Hall E, Berdon W: Estimated risks of radiation-induced fatal cancer from pediatric CT. AJR Am J Roentgenol 2001;176:289–296.
25Nauer CB, Zubler C, Weisstanner C, Stieger C, Senn P, Arnold A: Radiation dose optimization in pediatric temporal bone computed tomography: influence of tube tension on image contrast and image quality. Neuroradiology 2012;54:247–254.
26Weisstanner C, Mantokoudis G, Huth M, Verma RK, Nauer C, Senn P, et al: Radiation dose reduction in postoperative computed position control of cochlear implant electrodes in lambs – an experimental study. Int J Pediatr Otorhinolaryngol 2015;79:2348–2354.
27Erovic BM, Chan HH, Daly MJ, Pothier DD, Yu E, Coulson C, et al: Intraoperative cone-beam computed tomography and multi-slice computed tomography in temporal bone imaging for surgical treatment. Otolaryngol Head Neck Surg 2014;150:107–114.
28Zou J, Hannula M, Lehto K, Feng H, Lahelma J, Aula AS, et al: X-ray microtomographic confirmation of the reliability of CBCT in identifying the scalar location of cochlear implant electrode after round window insertion. Hear Res 2015;326:59–65.
29Kakinuma R, Moriyama N, Muramatsu Y, Gomi S, Suzuki M, Nagasawa H, et al: Ultra-high-resolution computed tomography of the lung: image quality of a prototype scanner. PLoS One 2015;10:e0137165.
30Peltonen LI, Aarnisalo AA, Kortesniemi MK, Suomalainen A, Jero J, Robinson S: Limited cone-beam computed tomography imaging of the middle ear: a comparison with multislice helical computed tomography. Acta Radiol 2007;48:207–212.
31Kurt H, Orhan K, Aksoy S, Kursun S, Akbulut N, Bilecenoglu B: Evaluation of the superior semicircular canal morphology using cone beam computed tomography: a possible correlation for temporomandibular joint symptoms. Oral Surg Oral Med Oral Pathol Oral Radiol 2014;117:e280–e288.
32Rafferty MA, Siewerdsen JH, Chan Y, Daly MJ, Moseley DJ, Jaffray DA, et al: Intraoperative cone-beam CT for guidance of temporal bone surgery. Otolaryngol Head Neck Surg 2006;134:801–808.
33Mlynski R, Nguyen TD, Plontke SK, Kosling S: Presentation of floating mass transducer and vibroplasty couplers on CT and cone beam CT. Eur Arch Otorhinolaryngol 2014;271:665–672.
34Razafindranaly V, Truy E, Pialat JB, Martinon A, Bourhis M, Boublay N, et al: Cone beam CT versus multislice CT: radiologic diagnostic agreement in the postoperative assessment of cochlear implantation. Otol Neurotol 2016;37:1246–1254.
35Zhu L, Xie Y, Wang J, Xing L: Scatter correction for cone-beam CT in radiation therapy. Med Phys 2009;36:2258–2268.
36Mail N, Moseley DJ, Siewerdsen JH, Jaffray DA: An empirical method for lag correction in cone-beam CT. Med Phys 2008;35:5187–5196.
37Meilinger M, Schmidgunst C, Schutz O, Lang EW: Metal artifact reduction in cone beam computed tomography using forward projected reconstruction information. Z Med Phys 2011;21:174–182.
38Guldner C, Wiegand S, Weiss R, Bien S, Sesterhenn A, Teymoortash A, et al: Artifacts of the electrode in cochlea implantation and limits in analysis of deep insertion in cone beam tomography (CBT). Eur Arch Otorhinolaryngol 2012;269:767–772.
39Gupta R, Bartling SH, Basu SK, Ross WR, Becker H, Pfoh A, et al: Experimental flat-panel high-spatial-resolution volume CT of the temporal bone. AJNR Am J Neuroradiol 2004;25:1417–1424.
40Diogo I, Franke N, Steinbach-Hundt S, Mandapathil M, Weiss R, Werner JA, et al: Differences of radiological artefacts in cochlear implantation in temporal bone and complete head. Cochlear Implants Int 2014;15:112–117.
41Pearl MS, Roy A, Limb CJ: High-resolution secondary reconstructions with the use of flat panel CT in the clinical assessment of patients with cochlear implants. AJNR Am J Neuroradiol 2014;35:1202–1208.
42Ruivo J, Mermuys K, Bacher K, Kuhweide R, Offeciers E, Casselman JW: Cone beam computed tomography, a low-dose imaging technique in the postoperative assessment of cochlear implantation. Otol Neurotol 2009;30:299–303.
43Verbist BM, Frijns JH, Geleijns J, van Buchem MA: Multisection CT as a valuable tool in the postoperative assessment of cochlear implant patients. AJNR Am J Neuroradiol 2005;26:424–429.
44Trieger A, Schulze A, Schneider M, Zahnert T, Murbe D: In vivo measurements of the insertion depth of cochlear implant arrays using flat-panel volume computed tomography. Otol Neurotol 2011;32:152–157.
45Struffert T, Hertel V, Kyriakou Y, Krause J, Engelhorn T, Schick B, et al: Imaging of cochlear implant electrode array with flat-detector CT and conventional multislice CT: comparison of image quality and radiation dose. Acta Otolaryngol 2010;130:443–452.
46Zou J, Koivisto J, Lahelma J, Aarnisalo A, Wolff J, Pyykko I: Imaging optimization of temporal bones with cochlear implant using a high-resolution cone beam CT and the corresponding effective dose. Ann Otol Rhinol Laryngol 2015;124:466–473.
47Zou J, Lähelmä J, Aarnisalo A, Pyykko I: Clinically relevant human temporal bone measurements using novel high-resolution cone-beam CT. J Otol 2017;12:9–17.
48Theunisse HJ, Joemai RM, Maal TJ, Geleijns J, Mylanus EA, Verbist BM: Cone-beam CT versus multi-slice CT systems for postoperative imaging of cochlear implantation – a phantom study on image quality and radiation exposure using human temporal bones. Otol Neurotol 2015;36:592–599.
49Yamane H, Iguchi H, Konishi K, Sakamaoto H, Wada T, Fujioka T, et al: Three-dimensional cone beam computed tomography imaging of the membranous labyrinth in patients with Meniere’s disease. Acta Otolaryngol 2014;134:1016–1021.
50Koivisto J, Kiljunen T, Wolff J, Kortesniemi M: Assessment of effective radiation dose of