Next in the pathway is the cochlear nucleus, which receives mainly ipsilateral ( that is, from the same side ) afferent input.
12.
In the "'ventral cochlear nucleus "'( VCN ), auditory nerve fibers enter the brain via the nerve root in the ( VCN ).
13.
The VCN is further divided by the nerve root into the posteroventral cochlear nucleus ( PVCN ) and the anteroventral cochlear nucleus ( AVCN ).
14.
The VCN is further divided by the nerve root into the posteroventral cochlear nucleus ( PVCN ) and the anteroventral cochlear nucleus ( AVCN ).
15.
The axons from the high-frequency region project to the dorsal portion of the anteroventral cochlear nucleus and the uppermost dorsal portions of the dorsal cochlear nucleus.
16.
In mammals, this region is anatomically and physiologically split into two regions, the dorsal cochlear nucleus ( DCN ), and ventral cochlear nucleus ( VCN ).
17.
In mammals, this region is anatomically and physiologically split into two regions, the dorsal cochlear nucleus ( DCN ), and ventral cochlear nucleus ( VCN ).
18.
The dorsal cochlear nucleus ( DCN ) has input from the LL and output to the contralateral LL via the ipsilateral and contralateral Dorsal Acoustic Stria.
19.
The axons from the high-frequency region project to the dorsal portion of the anteroventral cochlear nucleus and the uppermost dorsal portions of the dorsal cochlear nucleus.
20.
The "'dorsal cochlear nucleus "'( DCN, also known as the " tuberculum acusticum " ), is a cortex-like structure on the dorso-lateral surface of the brainstem.
