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  • Title: Intraoperative Evaluation of Cochlear Implant Electrodes Using Mobile Cone-Beam Computed Tomography.
    Author: Yamamoto N, Okano T, Yamazaki H, Hiraumi H, Sakamoto T, Ito J, Omori K.
    Journal: Otol Neurotol; 2019 Feb; 40(2):177-183. PubMed ID: 30624399.
    Abstract:
    OBJECTIVE: To evaluate the electrode status during cochlear implantation (CI) using mobile cone-beam CT (mCBCT). STUDY DESIGN: Retrospective case review. SETTING: Tertiary referral hospital. PATIENTS: Fifty-seven patients (7 bilateral surgeries, 64 ears) who underwent CI and who received intraoperative mCBCT imaging. INTERVENTION: CI and CBCT during surgery. MAIN OUTCOME MEASURE: Electrode location and angular insertion depth determined by intraoperative mCBCT images. RESULTS: There were six cases with cochlear malformation where intraoperative mCBCT was useful to confirm electrode location. Of 58 ears with a normal cochlear morphology, perimodiolar, straight, and mid-scalar electrodes were used in 30 (cochleostomy; 14 advance off-stylet technique cases), 27 (26 round window [RW] insertion, 1 extended round window [ERW] insertion), and 1 (RW insertion) ears, respectively. Complete scala-tympani (ST) insertion was achieved in 35 ears (14 cochleostomy, 21 RW or ERW insertion). The complete ST-insertion rate was significantly higher with RW or ERW insertion than that for cochleostomy insertion (p = 0.03), although cochleostomy insertion using the advanced off-stylet technique had a similar rate to RW or ERW insertion. The angular insertion depth values (average ± standard deviation) for perimodiolar electrodes (354.4 ± 29.44 degrees) were significantly smaller than those for Flex24 (464.8 ± 43.09 degrees) and Flex28 (518.2 ± 61.91 degrees) electrodes (p < 0.05). CONCLUSIONS: Evaluation of CI electrodes using intraoperative mCBCT was comparable to that with fan-beam CT or c-arm-based CBCT. Considering the low radiation dose of mCBCT and its availability in any operation room, mCBCT is the better modality for evaluating cochlear implant electrode arrays.
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