İşitme Sinirinin Elektriksel Uyarımında Özellikler

WHO. Deafness and Hearing Loss 2024. (15.07.2024 tarihinde https://www.who.int/news-room/fact-sheets/detail/deafness-and-hearing-loss adresinden ulaşılmıştır.

Wang, Y., Shi, L., Dong, G., Zhang, Z., & Chen, R. Effects of transcranial electrical stimulation on human auditory processing and behavior—a review. Brain Sciences. 2020; 10(8), 531. doi:10.3390/ijms21228511.

Van Schoonhoven, J.; Sparreboom, M.; van Zanten, B.G.A.; Scholten, R.J.P.M.; Mylanus, E.A.M.; Dreschler, W.A.; Grolman, W.; Maat, B. The effectiveness of bilateral cochlear implants for severe to profound deafness in adults: A systematic review. Otlogy and Neurootology. 2013; 34, 190-198.

Bai S, Encke J, Obando-Leitón M, Weiß R, Schäfer F, Eberharter J, Böhnke F, Hemmert W. Electrical Stimulation in the Human Cochlea: A Computational Study Based on High-Resolution Micro-CT Scans. Frontiers in Neuroscience. 2019 ; 51(3),1312. doi: 10.3389/fnins.2019.01312.

Potrusil, T., Heshmat, A., Sajedi, S., Wenger, C., Chacko, L. J., Glueckert, R., ... & Rattay, F. Finite element analysis and three-dimensional reconstruction of tonotopically aligned human auditory fiber pathways: a computational environment for modeling electrical stimulation by a cochlear implant based on micro-CT. Hearing Research. 2020; 393, 108001. https://doi.org/10.1016/j.heares.2020.108001.

Reiss, L. A., Kirk, J., Claussen, A. D., & Fallon, J. B. Animal models of hearing loss after cochlear implantation and electrical stimulation. Hearing research. 2022; 426, 108624. https://doi.org/10.1016/j.heares.2022.108624

Dhanasingh, A., & Jolly, C. An overview of cochlear implant electrode array designs. Hearing research;2017; 356, 93-103.

Bierer, JA . Probing the electrode-neuron interface with focused cochlear implant stimulation. Trends in Amplifikation; 2010; 14,84–95. doi: 10.1177/1084713810375249.

Dhanasingh, A. Design of a Cochlear Implant Electrode. ENT Updates. 2022; 12(2).

Sennaroğlu, L., & Bajin, M. D. Classification and current management of inner ear malformations. Balkan Medical Journal. 2017; 34(5), 397-411.

Shepherd RK, Hatsushika S, Clark GM. İşitsel sinirin elektriksel uyarımı: elektrot pozisyonunun sinirsel uyarım üzerindeki etkisi. Hearing Research. 1993; 66 :108–20. doi: 10.1016/0378-5955(93)90265-3.

Gstoettner, W. K., Adunka, O., Franz, P., Hamzavi, J., Plenk Jr, H., Susani, M., ... & Kiefer, J. Perimodiolar electrodes in cochlear implant surgery. Acta oto-laryngologica.2001; 121(2), 216-219.

Fraysse, B., Macías, Á. R., Sterkers, O., Burdo, S., Ramsden, R., Deguine, O., ... & James, C. Residual hearing conservation and electroacoustic stimulation with the nucleus 24 contour advance cochlear implant. Otology & neurotology; 2006; 27(5), 624-633.

Eshraghi, A. A., Yang, N. W., & Balkany, T. J. Comparative study of cochlear damage with three perimodiolar electrode designs. The Laryngoscope.2003; 113(3), 415-419.

Lehnhardt, E. Intracochlear placement of cochlear implant electrodes in soft surgery technique. HNO. 1993; 41(7), 356-359.

Lenarz T, Stöver T, Buechner A, Lesinski-Schiedat A, Patrick J, Pesch J. Hearing conservation surgery using the Hybrid-L electrode. Results from the first clinical trial at the Medical University of Hannover. Audiology and Neurotology; 2009;14(Suppl 1):22–31. doi: 10.1159/000206492.

Roland JT., Jr A model for cochlear implant electrode insertion and force evaluation: results with a new electrode design and insertion technique. Laryngoscope. 2005;115:1325–39. doi: 10.1097/01.mlg.0000167993.05007.35.

Aschendorff, A., Kromeier, J., Klenzner, T., & Laszig, R. Quality control after insertion of the nucleus contour and contour advance electrode in adults. Ear and hearing. 2007; 28(2), 75S-79S.

Dhanasingh, AE, Rajan, G, and van de Heyning, P. Presence of the spiral ganglion cell bodies beyond the basal turn of the human cochlea. Cochlear Implants International. 2020; 21:145–52. doi: 10.1080/14670100.2019.1694226

Vohra V, Andresen NS, Carver C, Dunham R, Marsiglia D, Yeagle J, Della Santina CC, Creighton FX Jr, Bowditch SP, Sun DQ. Cochlear Implant Electrode Array Design and Speech Understanding. Otology Neurotology. 2024; 1;45(2):136-142. doi: 10.1097/MAO.0000000000004083.

Van de Heyning, P. H., Dazert, S., Gavilan, J., Lassaletta, L., Lorens, A., Rajan, G. P., ... & Polak, M. Systematic literature review of hearing preservation rates in cochlear implantation associated with medium-and longer-length flexible lateral wall electrode arrays. Frontiers in surgery; 2022; 9, 893839.

Li, H, Helpard, L, Ekeroot, J, Rohani, SA, Zhu, N, Rask-Andersen, H, et al. Three-dimensional tonotopic mapping of the human cochlea based on synchrotron radiation phase-contrast imaging. Science Reports ;2021; 11:4437. doi: 10.1038/s41598-021-83225-w.

Holder, JT, Yawn, RJ, Nassiri, AM, Dwyer, RT, Rivas, A, Labadie, RF, et al. Matched cohort comparison indicates superiority of precurved electrode arrays. Otology and Neurotology; 2019; 40:1160–6. doi: 10.1097/MAO.0000000000002366

Patro, A, Lindquist, NR, Schauwecker, N, Holder, JT, Perkins, EL, Haynes, DS, et al. Comparison of speech recognition and hearing preservation outcomes between the Mid-Scala and lateral wall electrode arrays. Otology and Neurotology; 2023; 45:52–7. doi: 10.1097/MAO.0000000000004064.

Li H, Helpard L, Ekeroot J, et al. Three-dimensional tonotopic mapping of the human cochlea based on synchrotron radiation phase-contrast imaging. Science Reports; 2021;11(1):4437.

Dorman MF, Natale SC, Noble JH, Zeitler DM. Upward shifts in the internal representation of frequency can persist over a 3-year period for cochlear implant patients fit with a relatively short electrode array. Frontiers in Human Neuroscience; 2022;16:863891.

Withers SJ, Gibson WP, Greenberg SL, Bray M. Comparison of outcomes in a case of bilateral cochlear implantation using devices manufactured by two different implant companies (Cochlear Corporation and MED-EL). Cochlear Implants International; 2011;12(2):124-126.

Alparslan M.S. Koklear İmplant Uygulanan Hastalarda Düz ve Perimodioloar Elektrodların Rezidüel İşitmeyi Koruyucu Etkilerinin Karşılaştırılması, İstanbul Ünversitesi İstanbul Tıp Fakültesi KBB Anabilim Dalı Tıpta Uzmanlık Tezi; 2014.

WHO. Deafness and Hearing Loss 2024. (15.07.2024 tarihinde https://www.who.int/news-room/fact-sheets/detail/deafness-and-hearing-loss adresinden ulaşılmıştır.

Wang, Y., Shi, L., Dong, G., Zhang, Z., & Chen, R. Effects of transcranial electrical stimulation on human auditory processing and behavior—a review. Brain Sciences. 2020; 10(8), 531. doi:10.3390/ijms21228511.

Van Schoonhoven, J.; Sparreboom, M.; van Zanten, B.G.A.; Scholten, R.J.P.M.; Mylanus, E.A.M.; Dreschler, W.A.; Grolman, W.; Maat, B. The effectiveness of bilateral cochlear implants for severe to profound deafness in adults: A systematic review. Otlogy and Neurootology. 2013; 34, 190-198.

Bai S, Encke J, Obando-Leitón M, Weiß R, Schäfer F, Eberharter J, Böhnke F, Hemmert W. Electrical Stimulation in the Human Cochlea: A Computational Study Based on High-Resolution Micro-CT Scans. Frontiers in Neuroscience. 2019 ; 51(3),1312. doi: 10.3389/fnins.2019.01312.

Potrusil, T., Heshmat, A., Sajedi, S., Wenger, C., Chacko, L. J., Glueckert, R., ... & Rattay, F. Finite element analysis and three-dimensional reconstruction of tonotopically aligned human auditory fiber pathways: a computational environment for modeling electrical stimulation by a cochlear implant based on micro-CT. Hearing Research. 2020; 393, 108001. https://doi.org/10.1016/j.heares.2020.108001.

Reiss, L. A., Kirk, J., Claussen, A. D., & Fallon, J. B. Animal models of hearing loss after cochlear implantation and electrical stimulation. Hearing research. 2022; 426, 108624. https://doi.org/10.1016/j.heares.2022.108624

Dhanasingh, A., & Jolly, C. An overview of cochlear implant electrode array designs. Hearing research;2017; 356, 93-103.

Bierer, JA . Probing the electrode-neuron interface with focused cochlear implant stimulation. Trends in Amplifikation; 2010; 14,84–95. doi: 10.1177/1084713810375249.

Dhanasingh, A. Design of a Cochlear Implant Electrode. ENT Updates. 2022; 12(2).

Sennaroğlu, L., & Bajin, M. D. Classification and current management of inner ear malformations. Balkan Medical Journal. 2017; 34(5), 397-411.

Shepherd RK, Hatsushika S, Clark GM. İşitsel sinirin elektriksel uyarımı: elektrot pozisyonunun sinirsel uyarım üzerindeki etkisi. Hearing Research. 1993; 66 :108–20. doi: 10.1016/0378-5955(93)90265-3.

Gstoettner, W. K., Adunka, O., Franz, P., Hamzavi, J., Plenk Jr, H., Susani, M., ... & Kiefer, J. Perimodiolar electrodes in cochlear implant surgery. Acta oto-laryngologica.2001; 121(2), 216-219.

Fraysse, B., Macías, Á. R., Sterkers, O., Burdo, S., Ramsden, R., Deguine, O., ... & James, C. Residual hearing conservation and electroacoustic stimulation with the nucleus 24 contour advance cochlear implant. Otology & neurotology; 2006; 27(5), 624-633.

Eshraghi, A. A., Yang, N. W., & Balkany, T. J. Comparative study of cochlear damage with three perimodiolar electrode designs. The Laryngoscope.2003; 113(3), 415-419.

Lehnhardt, E. Intracochlear placement of cochlear implant electrodes in soft surgery technique. HNO. 1993; 41(7), 356-359.

Lenarz T, Stöver T, Buechner A, Lesinski-Schiedat A, Patrick J, Pesch J. Hearing conservation surgery using the Hybrid-L electrode. Results from the first clinical trial at the Medical University of Hannover. Audiology and Neurotology; 2009;14(Suppl 1):22–31. doi: 10.1159/000206492.

Roland JT., Jr A model for cochlear implant electrode insertion and force evaluation: results with a new electrode design and insertion technique. Laryngoscope. 2005;115:1325–39. doi: 10.1097/01.mlg.0000167993.05007.35.

Aschendorff, A., Kromeier, J., Klenzner, T., & Laszig, R. Quality control after insertion of the nucleus contour and contour advance electrode in adults. Ear and hearing. 2007; 28(2), 75S-79S.

Dhanasingh, AE, Rajan, G, and van de Heyning, P. Presence of the spiral ganglion cell bodies beyond the basal turn of the human cochlea. Cochlear Implants International. 2020; 21:145–52. doi: 10.1080/14670100.2019.1694226

Vohra V, Andresen NS, Carver C, Dunham R, Marsiglia D, Yeagle J, Della Santina CC, Creighton FX Jr, Bowditch SP, Sun DQ. Cochlear Implant Electrode Array Design and Speech Understanding. Otology Neurotology. 2024; 1;45(2):136-142. doi: 10.1097/MAO.0000000000004083.

Van de Heyning, P. H., Dazert, S., Gavilan, J., Lassaletta, L., Lorens, A., Rajan, G. P., ... & Polak, M. Systematic literature review of hearing preservation rates in cochlear implantation associated with medium-and longer-length flexible lateral wall electrode arrays. Frontiers in surgery; 2022; 9, 893839.

Li, H, Helpard, L, Ekeroot, J, Rohani, SA, Zhu, N, Rask-Andersen, H, et al. Three-dimensional tonotopic mapping of the human cochlea based on synchrotron radiation phase-contrast imaging. Science Reports ;2021; 11:4437. doi: 10.1038/s41598-021-83225-w.

Holder, JT, Yawn, RJ, Nassiri, AM, Dwyer, RT, Rivas, A, Labadie, RF, et al. Matched cohort comparison indicates superiority of precurved electrode arrays. Otology and Neurotology; 2019; 40:1160–6. doi: 10.1097/MAO.0000000000002366

Patro, A, Lindquist, NR, Schauwecker, N, Holder, JT, Perkins, EL, Haynes, DS, et al. Comparison of speech recognition and hearing preservation outcomes between the Mid-Scala and lateral wall electrode arrays. Otology and Neurotology; 2023; 45:52–7. doi: 10.1097/MAO.0000000000004064.

Li H, Helpard L, Ekeroot J, et al. Three-dimensional tonotopic mapping of the human cochlea based on synchrotron radiation phase-contrast imaging. Science Reports; 2021;11(1):4437.

Dorman MF, Natale SC, Noble JH, Zeitler DM. Upward shifts in the internal representation of frequency can persist over a 3-year period for cochlear implant patients fit with a relatively short electrode array. Frontiers in Human Neuroscience; 2022;16:863891.

Withers SJ, Gibson WP, Greenberg SL, Bray M. Comparison of outcomes in a case of bilateral cochlear implantation using devices manufactured by two different implant companies (Cochlear Corporation and MED-EL). Cochlear Implants International; 2011;12(2):124-126.

Alparslan M.S. Koklear İmplant Uygulanan Hastalarda Düz ve Perimodioloar Elektrodların Rezidüel İşitmeyi Koruyucu Etkilerinin Karşılaştırılması, İstanbul Ünversitesi İstanbul Tıp Fakültesi KBB Anabilim Dalı Tıpta Uzmanlık Tezi; 2014.