Background: The internal auditory canal (IAC) contains the vestibulocochlear and facial nerves
and serves as an important landmark during resection of vestibular schwannomas (VSs).
We have observed anatomical variability of the IAC and differences in surgical exposure
depending on individual anatomy. Based on these observations, we analyzed whether
facial nerve outcome after a translabyrinthine approach for resection of a VS is correlated
with IAC anatomic variability.
Methods: We retrospectively identified patients with pathologically confirmed VSs treated
using the translabyrinthine approach between May 2014 and March 2019. Patients <18
years, with tumors found intraoperatively to be arising from the facial nerve, or
who underwent nonelective procedures were excluded. To determine the size and variability
of the IAC, we assessed preoperative axial thin-slice T2-weighted MRI sequences. We
measured the anterior (APD) and posterior (PPD) petrous distances, the porus dilation,
and the internal auditory angle (IAA). We also estimated tumor volume. Facial nerve
outcomes were quantified using the House–Brackman (HB) score recorded in the medical
record on postoperative day (POD) 1, at discharge, and at 1-month follow-up.
Results: The study population included 65 consecutive patients (33 female) with a mean age
of 50.5 years (18–85 years). All patients presented with moderate to severe sensorineural
hearing loss. Tumor volume ranged from 0.03 to 52.8 cm3 (mean, 8.3 cm3). APD ranged from 7.3 to 34.9 mm (mean, 13.29 mm). PPD ranged from 7.8 to 33.3 mm
(mean, 25.19 mm). IAA ranged from 0 to 28 degrees (mean 12.8 degrees). PD ranged from
0 to 11.3 mm (mean 3.17 mm). On univariate and multivariate linear regression, there
was weak correlation between tumor volume and facial nerve outcomes at POD 1 (p = 0.03), discharge (p = 0.01), and follow-up (p = 0.1). IAA was an independent predictor of facial nerve outcomes at POD 1 (p = 0.0001), discharge (p = 0.0001), and follow-up (p = 0.0001). Using an ROC curve, an IAA cutoff value of 14.5 degrees predicting poor
HB grade (≤2) was identified. This cutoff yielded a sensitivity and specificity, respectively,
of 0.72 and 0.66 at POD1, 0.76 and 0.64 at discharge, and 0.76 and 0.64 at follow-up.
Conclusion: We have shown that the IAA is an independent predictor of short-term facial nerve
outcome in patients being treated via a translabyrinthine approach for VSs. We hypothesize
that the angle of the facial nerve toward the IAC affects its visualization during
the translabyrinthine approach and that a smaller IAA (anteriorly angled IAC) is likely
to direct tumor growth anteriorly. Therefore, the IAA is a critical measurement that
can be used to determine the relative risk of facial nerve palsy using the TL approach.
Our results here indicate that the translabyrinthine approach will likely provide
suboptimal facial nerve visualization with an IAA <14.5 degree and a retrosigmoid
approach should be considered because of the better visualization of the facial nerve
and worse facial nerve outcome in the group using a translabyrinthine approach.
