TY - JOUR
T1 - Impedance changes in cochlear implant electrodes one year after switch on
T2 - A cohort study at a tertiary referral hospital in Jakarta, Indonesia
AU - Zizlavsky, Semiramis
AU - Saleh, Rangga
AU - Priyono, Harim
N1 - Publisher Copyright:
© 2023, Malaysian Medical Association. All rights reserved.
PY - 2023/9
Y1 - 2023/9
N2 - Introduction: Monitoring of impedance field telemetry is crucial to maintaining optimal function of cochlear implants. This study aims to investigate impedance changes in cochlear implant electrodes one year after switch on. Materials and Methods: A retrospective repeated cross-sectional study was conducted by recruiting patients with cochlear implants presenting to the Dr. Cipto Mangunkusumo National General Hospital, Jakarta, Indonesia between 2017 and 2021. Basal (b1, b2) and apical (a1, a2) electrodes, representing the outermost and innermost parts of the cochlear implant electrodes, were measured at switch on and at 1 year post-implantation. Results: A total of 123 patients, with a total of 123 cochlear implant samples, were included in the analysis. We found a substantial change in electrical impedance between switch on and follow-up periods, where the impedance levels of basal electrodes decreased (b1: mean difference (MD) −1.13 [95% confidence interval (CI): −1.71, −0.54], p<0.001; b2: MD −0.60 [95%CI: −1.17, −0.03], p=0.041) and those of apical electrodes increased (a1: MD 0.48 [95%CI: −0.28, 0.99], p=0.064; a2: MD 0.67 [95%CI: 0.12, 1.22], p=0.017). We also found that the choice of surgical approaches for implant insertion may affect the electrode impedance. Cochleostomy approach resulted in a higher impedance than round window in basal (b1) and apical (a2) electrodes both at switch on and follow-up (b1 at switch on and at follow-up: p=0.019 and p=0.004; a2 at follow-up: p=0.012). Extended round window approach also resulted in a higher impedance than round window in basal (b1) and apical (a2) electrodes at follow-up (p=0.013 and p=0.003, respectively). Conclusion: Electrical impedance of cochlear implant electrodes may change over time, highlighting the importance of regular impedance assessments for cochlear implant users to ensure optimal device function. The round window approach resulted in better initial and long-term impedance levels compared to cochleostomy, and better long-term impedance levels than extended round window. Extended round window approach also gives better impedance level than cochleostomy. Further research should investigate the potential interplay between surgical approach and other factors that may impact impedance levels to confirm our findings.
AB - Introduction: Monitoring of impedance field telemetry is crucial to maintaining optimal function of cochlear implants. This study aims to investigate impedance changes in cochlear implant electrodes one year after switch on. Materials and Methods: A retrospective repeated cross-sectional study was conducted by recruiting patients with cochlear implants presenting to the Dr. Cipto Mangunkusumo National General Hospital, Jakarta, Indonesia between 2017 and 2021. Basal (b1, b2) and apical (a1, a2) electrodes, representing the outermost and innermost parts of the cochlear implant electrodes, were measured at switch on and at 1 year post-implantation. Results: A total of 123 patients, with a total of 123 cochlear implant samples, were included in the analysis. We found a substantial change in electrical impedance between switch on and follow-up periods, where the impedance levels of basal electrodes decreased (b1: mean difference (MD) −1.13 [95% confidence interval (CI): −1.71, −0.54], p<0.001; b2: MD −0.60 [95%CI: −1.17, −0.03], p=0.041) and those of apical electrodes increased (a1: MD 0.48 [95%CI: −0.28, 0.99], p=0.064; a2: MD 0.67 [95%CI: 0.12, 1.22], p=0.017). We also found that the choice of surgical approaches for implant insertion may affect the electrode impedance. Cochleostomy approach resulted in a higher impedance than round window in basal (b1) and apical (a2) electrodes both at switch on and follow-up (b1 at switch on and at follow-up: p=0.019 and p=0.004; a2 at follow-up: p=0.012). Extended round window approach also resulted in a higher impedance than round window in basal (b1) and apical (a2) electrodes at follow-up (p=0.013 and p=0.003, respectively). Conclusion: Electrical impedance of cochlear implant electrodes may change over time, highlighting the importance of regular impedance assessments for cochlear implant users to ensure optimal device function. The round window approach resulted in better initial and long-term impedance levels compared to cochleostomy, and better long-term impedance levels than extended round window. Extended round window approach also gives better impedance level than cochleostomy. Further research should investigate the potential interplay between surgical approach and other factors that may impact impedance levels to confirm our findings.
KW - Cochlear implant
KW - cross-sectional
KW - electrical impedance
KW - follow-up studies
KW - surgical approach
UR - http://www.scopus.com/inward/record.url?scp=85173946021&partnerID=8YFLogxK
M3 - Article
AN - SCOPUS:85173946021
SN - 0300-5283
VL - 78
SP - 589
EP - 593
JO - Medical Journal of Malaysia
JF - Medical Journal of Malaysia
IS - 5
ER -