Objective: This study aimed to define a spatial position of the cochlea in
the skull based on anatomical studies and to design an appropriate method o
f skull radiography for demonstration of the multichannel intracochlear ele
ctrode array and the structures of the inner ear, for use in evaluating the
electrode position and its related pitch perception.
Background: The conventional skull radiograph (plain radiograph) can offer
a complete and direct image of an intracochlear electrode array, if the x-r
ay is directed to the cochlea and parallel to the axis of the cochlea.
Methods: Measurement from computed tomography imaging and three-dimensional
reconstruction were performed to define the spatial position of the cochle
a in the skull.
Results: A radiographic projection, the cochlear view, was designed. A deta
iled radiographic method and radiologic interpretation of the cochlear view
is described. An improved clinical method for measuring the longitudinal a
nd angular position of the electrodes from the cochlear view is recommended
.
Conclusions: The application of the cochlear view has proved that it is ben
eficial postoperatively in documenting the results of cochlear implantation
, and in evaluating the depth of insertion and position of individual elect
rodes. It serves as a valuable reference for managing frequency mapping, op
timizing speech processing strategies, and further research purposes. The m
ethod can be widely used in cochlear implant clinics because of its simplic
ity, low radiation, speed, and minimal cost.