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Article Abstract
Processing the optimal length of electrode arrays for cochlear implants (CIs) is vital for achieving maximum effectiveness, and the results tend to differ between the preoperative radiological estimations and the depth reached at the time of surgery. This study evaluates the feasibility of using a flexible insertion test electrode with colored depth markers to determine the practically achievable electrode insertion depth before CI electrode array placement. The study was conducted at a tertiary center and included patients with inner ear anomalies, reimplantation cases, and profound deafness with no residual hearing. A custom insertion test electrode, 31.5 mm long, was inserted into the scala tympani (ST) to assess cochlear lumen accessibility. Standard CI surgical procedures were followed, including impedance field telemetry testing and evoked compound action potential measurements. A total of 10 patients (11 ears), aged 1 to 29, met the inclusion criteria. The proposed test electrode enabled real-time determination of insertion depth, allowing the surgeon to tailor electrode lengths to the most suitable depth for implantation. This advancement mitigated incomplete insertion and improved preoperative planning. This research describes a new approach for setting the limits of electrode selection that minimizes the complications of electrode placement during cochlear implantation. The proposed insertion test electrode could help achieve better accuracy in surgery and, consequently, better outcomes for patients with cochlear implants.
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