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Year 2015, Volume: 32 Issue: 1, 1 - 5, 24.04.2015

Abstract

References

  • Bamiou, D.E., Worth, S., Phelps, P., Sirimanna, T., Rajput, K., 2001. Eighth nerve aplasia and hipoplasia in cochlear implant candidates: The clinical perspective. Otol. Neurotol. 22, 492-496.
  • Batman, Ç., Inanlı, S., Öztürk, Ö., Tutkun, A., Sehitoğlu, M.A., 2001. Cochlear implantation: Patients, problems and surgical complications. Turk. Arch. Otol. 39, 89-95.
  • Casselman, J.W., Kuhweide, R., Deimling, M., Ampe, W., Dehaene, I., Meeus, L., 1993. Constructive interference in steady state-3DFT MR imaging of the inner ear and cerebellopontine angle. AJNR Am. J. Neuroradiol. 14, 47-57.
  • Dahm, M.C., Shepherd, R.K., Clark, G.M., 1993. The postnatal growth of the temporal bone and its implications for cochlear implantation in children. Acta. Otolaryngol. 505,1-39.
  • Fraser, R.A.R., Carter, B.L., 1975. Unilateral dilatation of the internal auditory canal. Neuroradiology. 5, 227-229.
  • Incesulu, A., Kocatürk, S., Keyik, B., Cakmakçi, E., Erkam, U., Hekimoğlu, B., 2003. A comparison between findings of high resolution computed tomography and magnetic resonance imaging in the preoperative assessment of cochlear implant patients. Kulak Burun Bogaz Ihtisas Dergisi. 10, 98-104.
  • Jackler, R.K., Luxford, W.M., House, W.F., 1987. Congenital malformations of the inner ear: A classification based on embryogenesis. Laryngoscope. 97, 2-14.
  • Lo, W.W., 1998. Imaging of cochlear and auditory brain stem implantation. AJNR Am. J. Neuroradiol. 19, 1147-1154.
  • Miyasaka, M. , Nosaka, S., Morimoto, N., Taiji, H., Masaki, H., 2010. CT and MR imaging for pediatric cochlear implantation: emphasis on the relationship between the cochlear nevre canal and the cochlear nevre. Pediatr Radiol. 40, 1509-1516. doi: 10.1007/s00247-010-1609-7.
  • Miyashita, H., Isono, M., Murata, K., Nakayama, K., Tanaka, H., Ishikawa, M., 2000. Three-dimensional magnetic resonance imaging findings of inner ear anomaly. Acta. Otolaryngol. 542, 67-70.
  • Morris, D.P., Walsh, R., Ramsden, R.T., Gillespie, J.E., 2000. Nevre agenesis and hypoplasia in the internal auditory meatus: The importance of early radiologycal diagnosis in cochlear implantation. Presented at the 5th European Symposium on Pediatric cochlear implantation. June, Antwerp, Abstract Book. 054 pp 112.
  • O’Donoghue, G.M., 1996. Cochlear implants in children: Principles, practice and predictions. J. R. Soc. Med. 89, 345-347.
  • Pabla, H.S., McCormick, B., Gibbin, K.P., 1991. Retrospective study of the prevalance of bilateral sensorineural deaffness in childhood. Int J Pediatr Otorh. 22, 161-165.
  • Reardon, W., OMahoney, C.F., Trembath, R., Jan, H., Phelps, P.D., 2000. Enlarged vestibular aqueduct: A radiological marker of pendred syndrome, and mutation of the PDS gene. QJM. 93, 99-104.
  • Sennaroğlu, L., Saatçi, I., 2002. A New classification for cochleovestibular malformations. Laryngoscope. 112, 2230-2241. doi: 10.1097/00005537- 200212000-00019.
  • Van den Broek, P., Cohen, N., O’Donoghue, G., Fraysse, B., Laszig, R., Offeciers, E., 1995. Cochlear implantation in children. Int. J. Pediatr. Otorhinolaryngol. 32, 217-23. doi: 10.1016/0165-5876(94)01162-Q.
  • Vartiqinen, E., Kemppinen, P., Karjalainen, S.., 1997. Prevalance of bilateral sensorineural hearing impairment in a Finnish childhood population. Int. J. Pediatr. Otorhinolaryngol. 41, 175-185. doi: 10.1016/S0165-5876(97)00080-3.
  • Witte, R.J., Lane, J.I., Driscoll, C.L., Lundy, L.B., Bernstein, M.A., Kotsenas, A.L., Kocharian, A., 2003. Pediatric and adult cochlear implantation. Radiographics. 23, 1185-1200. doi: http://dx.doi.org/10.1148/rg.235025046.
  • Woolley, A.L., Oser, A.B., Lusk, R.P., Bahadori, R.S., 1997. Preoperative temporal bone computed tomography scan and its use in evaluating the pediatric cochlear implant candidate, Laryngoscope. 107, 1100-1106.
  • Zhu, J., Wen, Z., Huang, F., 2002. Preoperative cochlear implantation imaging. Lin. Chuang. Er. Bi. Yan. Hou. Ke. Za. Zhi. 16, 328-329.

Diagnostic value of magnetic resonance imaging in children with congenital sensorineural hearing loss

Year 2015, Volume: 32 Issue: 1, 1 - 5, 24.04.2015

Abstract

This study aimed to investigate the value of Constructive Interference In Steady State (CISS) magnetic resonance imaging (MRI) assessment in evaluating the cranial nerve VIII, and the branches of this nerve for detection of the inner ear abnormalities. Ninety pediatric patients diagnosed with congenital sensorineural hearing loss (SNHL) between November 2006 and September 2008 were assessed by 3D-CISS MRI to evaluate the cranial nerve VIII with respect to congenital abnormalities of the inner ear. Of the 90 patients included in the study group, 44 were male (48.9%) and 46 were female (51.1%) at an age varying from 1 to 16 years old (5.97±4.04 years). The structures of 180 inner ears of 90 pediatric patients were assessed. Pathology was detected in 48 inner ears (26.6%) with any of the cochlear, vestibular, semi-circular canal and vestibular aqueduct abnormalities. Among 24 patients (26.6%), Michel deformity (1.66%), cochlear aplasia (4.98%), common cavity deformity (2.22%), cochlear hypoplasia (3.33%) and Mondini malformation (2.77%) was detected in 3, 9, 4, 6 and 5 inner ears, respectively. Internal auditory canal (IAC) assessment revealed dilatation in 11 inner ears, hypoplasia in 6, aplasia in 1 and vestibular aqueduct (VAD) dilatation in 9 inner ears. CISS MRI is an effective imaging technique for assessing the inner ear abnormalities, the presence of nerve VIII in patients with congenital sensorineural hearing loss. Thus, we believe CISSMRI imaging  should be performed before any operation in all patients, who may be candidates for cochlear implantation.

References

  • Bamiou, D.E., Worth, S., Phelps, P., Sirimanna, T., Rajput, K., 2001. Eighth nerve aplasia and hipoplasia in cochlear implant candidates: The clinical perspective. Otol. Neurotol. 22, 492-496.
  • Batman, Ç., Inanlı, S., Öztürk, Ö., Tutkun, A., Sehitoğlu, M.A., 2001. Cochlear implantation: Patients, problems and surgical complications. Turk. Arch. Otol. 39, 89-95.
  • Casselman, J.W., Kuhweide, R., Deimling, M., Ampe, W., Dehaene, I., Meeus, L., 1993. Constructive interference in steady state-3DFT MR imaging of the inner ear and cerebellopontine angle. AJNR Am. J. Neuroradiol. 14, 47-57.
  • Dahm, M.C., Shepherd, R.K., Clark, G.M., 1993. The postnatal growth of the temporal bone and its implications for cochlear implantation in children. Acta. Otolaryngol. 505,1-39.
  • Fraser, R.A.R., Carter, B.L., 1975. Unilateral dilatation of the internal auditory canal. Neuroradiology. 5, 227-229.
  • Incesulu, A., Kocatürk, S., Keyik, B., Cakmakçi, E., Erkam, U., Hekimoğlu, B., 2003. A comparison between findings of high resolution computed tomography and magnetic resonance imaging in the preoperative assessment of cochlear implant patients. Kulak Burun Bogaz Ihtisas Dergisi. 10, 98-104.
  • Jackler, R.K., Luxford, W.M., House, W.F., 1987. Congenital malformations of the inner ear: A classification based on embryogenesis. Laryngoscope. 97, 2-14.
  • Lo, W.W., 1998. Imaging of cochlear and auditory brain stem implantation. AJNR Am. J. Neuroradiol. 19, 1147-1154.
  • Miyasaka, M. , Nosaka, S., Morimoto, N., Taiji, H., Masaki, H., 2010. CT and MR imaging for pediatric cochlear implantation: emphasis on the relationship between the cochlear nevre canal and the cochlear nevre. Pediatr Radiol. 40, 1509-1516. doi: 10.1007/s00247-010-1609-7.
  • Miyashita, H., Isono, M., Murata, K., Nakayama, K., Tanaka, H., Ishikawa, M., 2000. Three-dimensional magnetic resonance imaging findings of inner ear anomaly. Acta. Otolaryngol. 542, 67-70.
  • Morris, D.P., Walsh, R., Ramsden, R.T., Gillespie, J.E., 2000. Nevre agenesis and hypoplasia in the internal auditory meatus: The importance of early radiologycal diagnosis in cochlear implantation. Presented at the 5th European Symposium on Pediatric cochlear implantation. June, Antwerp, Abstract Book. 054 pp 112.
  • O’Donoghue, G.M., 1996. Cochlear implants in children: Principles, practice and predictions. J. R. Soc. Med. 89, 345-347.
  • Pabla, H.S., McCormick, B., Gibbin, K.P., 1991. Retrospective study of the prevalance of bilateral sensorineural deaffness in childhood. Int J Pediatr Otorh. 22, 161-165.
  • Reardon, W., OMahoney, C.F., Trembath, R., Jan, H., Phelps, P.D., 2000. Enlarged vestibular aqueduct: A radiological marker of pendred syndrome, and mutation of the PDS gene. QJM. 93, 99-104.
  • Sennaroğlu, L., Saatçi, I., 2002. A New classification for cochleovestibular malformations. Laryngoscope. 112, 2230-2241. doi: 10.1097/00005537- 200212000-00019.
  • Van den Broek, P., Cohen, N., O’Donoghue, G., Fraysse, B., Laszig, R., Offeciers, E., 1995. Cochlear implantation in children. Int. J. Pediatr. Otorhinolaryngol. 32, 217-23. doi: 10.1016/0165-5876(94)01162-Q.
  • Vartiqinen, E., Kemppinen, P., Karjalainen, S.., 1997. Prevalance of bilateral sensorineural hearing impairment in a Finnish childhood population. Int. J. Pediatr. Otorhinolaryngol. 41, 175-185. doi: 10.1016/S0165-5876(97)00080-3.
  • Witte, R.J., Lane, J.I., Driscoll, C.L., Lundy, L.B., Bernstein, M.A., Kotsenas, A.L., Kocharian, A., 2003. Pediatric and adult cochlear implantation. Radiographics. 23, 1185-1200. doi: http://dx.doi.org/10.1148/rg.235025046.
  • Woolley, A.L., Oser, A.B., Lusk, R.P., Bahadori, R.S., 1997. Preoperative temporal bone computed tomography scan and its use in evaluating the pediatric cochlear implant candidate, Laryngoscope. 107, 1100-1106.
  • Zhu, J., Wen, Z., Huang, F., 2002. Preoperative cochlear implantation imaging. Lin. Chuang. Er. Bi. Yan. Hou. Ke. Za. Zhi. 16, 328-329.
There are 20 citations in total.

Details

Primary Language English
Subjects Health Care Administration
Journal Section Internal Medical Sciences
Authors

Ayşegül İdil Soylu

Ümit Belet

Mehmet Koyuncu This is me

Hüseyin Akan This is me

Publication Date April 24, 2015
Submission Date September 7, 2014
Published in Issue Year 2015 Volume: 32 Issue: 1

Cite

APA İdil Soylu, A., Belet, Ü., Koyuncu, M., Akan, H. (2015). Diagnostic value of magnetic resonance imaging in children with congenital sensorineural hearing loss. Journal of Experimental and Clinical Medicine, 32(1), 1-5.
AMA İdil Soylu A, Belet Ü, Koyuncu M, Akan H. Diagnostic value of magnetic resonance imaging in children with congenital sensorineural hearing loss. J. Exp. Clin. Med. May 2015;32(1):1-5.
Chicago İdil Soylu, Ayşegül, Ümit Belet, Mehmet Koyuncu, and Hüseyin Akan. “Diagnostic Value of Magnetic Resonance Imaging in Children With Congenital Sensorineural Hearing Loss”. Journal of Experimental and Clinical Medicine 32, no. 1 (May 2015): 1-5.
EndNote İdil Soylu A, Belet Ü, Koyuncu M, Akan H (May 1, 2015) Diagnostic value of magnetic resonance imaging in children with congenital sensorineural hearing loss. Journal of Experimental and Clinical Medicine 32 1 1–5.
IEEE A. İdil Soylu, Ü. Belet, M. Koyuncu, and H. Akan, “Diagnostic value of magnetic resonance imaging in children with congenital sensorineural hearing loss”, J. Exp. Clin. Med., vol. 32, no. 1, pp. 1–5, 2015.
ISNAD İdil Soylu, Ayşegül et al. “Diagnostic Value of Magnetic Resonance Imaging in Children With Congenital Sensorineural Hearing Loss”. Journal of Experimental and Clinical Medicine 32/1 (May 2015), 1-5.
JAMA İdil Soylu A, Belet Ü, Koyuncu M, Akan H. Diagnostic value of magnetic resonance imaging in children with congenital sensorineural hearing loss. J. Exp. Clin. Med. 2015;32:1–5.
MLA İdil Soylu, Ayşegül et al. “Diagnostic Value of Magnetic Resonance Imaging in Children With Congenital Sensorineural Hearing Loss”. Journal of Experimental and Clinical Medicine, vol. 32, no. 1, 2015, pp. 1-5.
Vancouver İdil Soylu A, Belet Ü, Koyuncu M, Akan H. Diagnostic value of magnetic resonance imaging in children with congenital sensorineural hearing loss. J. Exp. Clin. Med. 2015;32(1):1-5.