00:00
The afferent fibers conveying information from the organ of Corti are going to convey this information
to auditory nuclei. These will be the conductors of beautiful music or audition. There are several
auditory nuclei that are conductors of audition. First, we have up here superiorly, the medial geniculate body.
00:30
This is a thalamic nucleus. Another member of the auditory nuclei is the inferior colliculus that we see in through here.
00:42
Third member is the nuclei that are associated with the lateral lemniscus. We also have cochlear nuclei
in this area. Then we have the olivary nuclei. These are paired structures hence, plural. Now, I want you to
understand the circuitry of the auditory pathway. First again will be depolarization of the cochlear hair cells
in the cochlea. Action potentials will then be conveyed along the cochlear nerve fibers to the ipsilateral
anterior cochlear nucleus. That has been highlighted here. From this nucleus, fibers then will travel
to the superior olivary nucleus on the same and opposite sides. Here is the superior olivary nucleus
on the same side receiving information from the auditory nucleus. Then there’s also signaling taking
place to the superior olivary nucleus on the opposite side as well. Synapses occur within here.
02:10
Then neurons will then travel through the lateral lemniscus from the cochlear and superior olivary nuclei.
02:24
Their destination is to the inferior colliculus that we see here. Then from the inferior colliculus,
there will be another neuron that will convey auditory information to the medial geniculate body
of the thalamus. Then synapses within this body will send auditory signals to the primary auditory
cortex which is associated with the transverse temporal gyrus that’s a part of the temporal lobe
of the cerebrum. There can be some lesions associated along the auditory pathway that can impair hearing.
03:15
So, it’s important for you to understand those in a clinical context. The first area that’s going to be
lesioned is going to be that at the green line. So here, we’re having a lesion along the cochlear
or the vestibular cochlear component of cranial nerve number eight. If this is a unilateral lesion,
an individual will have sensorineural hearing loss on that side. Lesions either here at the black line
or even more superiorly here on the contralateral side will result in bilateral sensorineural diminishment
of hearing. Individuals that have lesions along these pathways at the black lines are also going to have a
poor ability to localize the source of the sound. Now, we have an opportunity for you to understand
some clinical considerations. Let’s talk about for a moment about conductive hearing loss. Conductive hearing loss is essentially poor
transmission from the external to the middle ear. There are several causes for this poor transmission.
04:40
One may be the fusion of the ear ossicles together which decreases their ability to conduct sound
from the tympanic membrane to the oval window. This, in and of itself, is called otosclerosis.
04:58
If there’s impacted wax in the external acoustic meatus, that may make it more difficult for sound
to strike the tympanic membrane resulting in poor transmission. If the tympanic membrane
is perforated, this too will lead to a poor transmission. Then fluid that accumulates in the middle ear
makes it much more difficult as well for there to be transmission from the external to the middle ear.