Introduction:
The chorda
tympani nerve is a branch of facial nerve. It exits the facial nerve
just before it exits via the stylomastoid foramen. It is one of the
three cranial nerves that is involved in transmission of taste fibers
from the tongue. Chorda tympani nerve conveys taste fibers from the
anterior 2/3 of tongue. Mechanism of taste sensation is rather
unique in that it involves a complicated feed back loop with each
nerve acting to inhibit the signal of other nerves. The chorda
tympani exerts stong inhibitory influence on other taste fibers as
well as pain fibers from the tongue. When chorda tympani nerve is
damaged its inhibitory function is disrupted, causing the other taste
fibers to act in an uninhibited manner.
The chorda
tympani nerve carries with it two types of fibres which traverse via
lingual nerve to reach their destination. These fibers include:
- Special sensory fibers providing taste sensation from anterior 2/3 of tongue.
- Presynaptic parasympathetic fibers to submandibular ganglion providing secretomotor fibers to submandibular and sublingual salivary glands
- Presynaptic parasympathetic fibers is also supplies the blood vessels of the tongue. When stimulated the chorda tympani nerve causes dilatation of blood vessels of the tongue.
Central
connections:
Chorda tympani
nerve contains fibers from two brain stem nuclei. They are:
Superior
salivatory nucleus: This nucleus houses cell bodies of secretomotor
preganglionic parasympathetic neurons
Nucleus of
tractus solitarius: The superior portion contributes to chorda
tympami fibers. It receives central processes of taste neurons which
have their cell bodies in the ganglia of the three cranial nerves
conveying taste sensation. After synapsing in this nucleus secondary
axons ascend in the lateral lemniscus to relay in the thalamus. This
pathway then passes through the posterior limb of internal capsule to
reach the primary gustatory cortex.
Connections
seen within the facial canal:
Sensory branch
of facial nerve Nervus intermedius of Wrisberg joins the facial nerve
here. It conveys special sensory fibers from taste buds present in
the anterior 2/3 of tongue and soft palate. It also contains
secretomotor fibers to salivary glands present below the oral cavity.
Nerves intermedius exits the brain stem adherent to the vestibuo
cochlear nerve. At the level of internal auditory meatus it leaves
this nerve to merge with that of facial nerve.
Chorda tympani
nerve exits from the facial nerve before the facial nerve exits via
the stylomastoid foramen. It is the largest branch of facial nerve
in its intrapetrous compartment. It arises below the nerve to
stapedius. It traverses antero superiorly via the posterior
canaliculus usually accompanied by posterior tympanic branch of
stylomastoid artery. This canaliculus opens into the middle ear
cavity through an aperture situated at the junction of posterior and
lateral walls of tympanic cavity. This opening lies just medial to
the fibrocartilagenous annulus. The posterior canaliculus is roughly
0.5 mm in diameter. Chorda tympani nerve shows a large number of
variations. In some patients the chorda tympani nerve may arise from
more proximal portion of facial nerve, even close to the geniculate
ganglion. The length of the posterior canaliculus is also highly
variable ranging from 3 – 14 mm. In 10% of individuals there may
not be a posterior canaliculus at all but could be replaced by a
groove.
If the chorda
tympani nerve originates outside the temporal bone then the posterior
canaliculus will be separate from that of the facial nerve canal.
In fetus and young infants the chorda tympani nerve leaves the facial
nerve outside the skull, but the postnatal growth of mastoid process
causes it to migrate to a more proximal position. Since the facial
canal grows more than the mastoid segment of facial nerve the chorda
tympani nerve typically diverges from the facial nerve in an infant
of 1 yr of age.
Course of
chorda tympani in the tympanum:
The chorda
tympani arches across pars flaccida medial to the upper part of the
handle of malleus and traverses above the insertion of tensor
tympani. In patients with congenital anamolies of malleus chorda is
also displaced laterally.
Chorda tympani
nerve exits the middle ear via a separate bony canal, the anterior
canaliculus also known as the canal of Hugier. This canal runs in
the medial portion of petrotympanic fissure. Anterior tympanic
branch of maxillary artery accompanies this nerve along this canal.
Chorda exits the skull through a small foramen behind the base of
spine of the sphenoid. At its exit it is closely related to the
medial surface of temporomandibular joint.
Course of
Chorda in the infratemporal fossa:
In the
infratemporal fossa the chorda tympani nerve descends medial to the
spine of sphenoid and angles forward to join the lingual nerve about
2 cms below the skull base. This junction lies close to the lower
border of lateral pterygoid muscle.
Diagram
showing relationship of chorda to middle ear structures
Functions of
chorda tympani nerve:
- It carries taste sensation from the anterior 2/3 of tongue
- Supplies secretomotor fibers to the salivary glands in the floor of the mouth
- Conveys general sensation from the anterior 2/3 of tongue which includes pain and temperture
- Supplies secretomotor fibers to the parotid gland
- Supplies efferent vasodilator fibers to the tongue
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