The ventral cochlear nucleus is divided into the anterior ventral ( anteroventral ) cochlear nucleus ( AVCN ) and the posterior ventral ( posteroventral ) cochlear nucleus ( PVCN ).
32.
The ventral cochlear nucleus is divided into the anterior ventral ( anteroventral ) cochlear nucleus ( AVCN ) and the posterior ventral ( posteroventral ) cochlear nucleus ( PVCN ).
33.
The ventral cochlear nucleus is divided into the anterior ventral ( anteroventral ) cochlear nucleus ( AVCN ) and the posterior ventral ( posteroventral ) cochlear nucleus ( PVCN ).
34.
The trapezoid body is where most of the cochlear nucleus ( CN ) fibers decussate ( cross left to right and vice versa ); this cross aids in sound localization.
35.
The fusiform cells of the dorsal cochlear nucleus ( DCN ), which are thought to contribute to localization in elevation, bypass the SOC and project directly to the inferior colliculus.
36.
CI electrode arrays are implanted in the cochlea, ABI electrode arrays stimulate the cochlear nucleus complex in the lower brain stem, and AMIs stimulates auditory neurons in the inferior colliculus.
37.
The loss of hearing and speech recognition in most NF2 patients may be due to the tumor interfering with the blood supply to the cochlea, VIIIn, and / or cochlear nucleus.
38.
In the VCN, auditory nerve fibers bifurcate, the ascending branch innervates the ( AVCN ) and the descending branch innervates the ( PVCN ) and then continue to the dorsal cochlear nucleus.
39.
The superior olivary complex is located in the pons, and receives projections predominantly from the ventral cochlear nucleus, although the dorsal cochlear nucleus projects there as well, via the ventral acoustic stria.
40.
The superior olivary complex is located in the pons, and receives projections predominantly from the ventral cochlear nucleus, although the dorsal cochlear nucleus projects there as well, via the ventral acoustic stria.
