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Cranial Nerve | Sensory or motor? | Components | Location of Neuronal Cell bodies |
Olfactory nerve (CN I) | Sensory | Special Sensory | 1st order neurons: Olfactory epithelium |
Optic nerve (CN II) | Sensory | Special Sensory | 1st order neurons: Retina |
Oculomotor nerve (CN III) | Motor | Somatic Motor | Nucleus of Oculomotor nerve |
Visceral Motor (Parasympathetic) | Preganglionic: Edinger-Westphal nucleus Postganglionic: Ciliary ganglion | ||
Trochlear nerve (CN IV) | Motor | Somatic Motor | Nucleus of Trochlear nerve |
Trigeminal nerve (CN V) | Both | Somatic (Branchial) Motor | Motor nucleus of Trigeminal nerve |
Somatic Sensory | 1st order neurons: Trigeminal ganglion | ||
Abducens nerve (CN VI) | Motor | Somatic Motor | Nucleus of Abducens nerve |
Facial nerve (CN VII) | Both | Somatic (Branchial) Motor | Motor nucleus of Facial n. |
Visceral Motor (Parasympathetic) | Preganglionic: superior salivatory nucleus Postganglionic:
| ||
Special Sensory | 1st order neurons: Geniculate ganglion | ||
Vestibulocochlear nerve (CN VIII) | Sensory | Special Sensory | 1st order neurons: Vestibular ganglion & Cochlear (spiral) ganglion |
Glossopharyngeal nerve (CN IX) | Both | Somatic (Branchial) Motor | Nucleus Ambiguus |
Visceral Motor (Parasympathetic) | Preganglionic: Inferior Salivatory Nucleus Postganglionic: Otic ganglion | ||
Somatic Sensory | 1st order neurons: Superior ganglion of Glossopharyngeal nerve | ||
Visceral Sensory | 1st order neurons: Inferior (Petrosal) ganglion of Glossopharyngeal nerve | ||
Special Sensory | |||
Vagus nerve (CN X) | Both | Somatic (Branchial) Motor | Nucleus Ambiguus |
Visceral Motor (Parasympathetic) | Preganglionic: Dorsal Motor Nucleus of the Vagus n. Postganglionic: Cardiac, pulmonary & myenteric ganglia | ||
Somatic Sensory | 1st order neurons: Superior Ganglion of Vagus nerve | ||
Visceral Sensory | 1st order neurons: Inferior Ganglion of Vagus nerve | ||
Special Sensory | |||
Accessory nerve (CN XI) | Motor | Somatic (Branchial) motor (cranial portion of nerve) | Nucleus Ambiguus |
Somatic Motor (spinal portion of nerve) | Nucleus of Spinal Accessory nerve | ||
Hypoglossal nerve (CN XII) | Motor | Somatic Motor | Nucleus of Hypoglossal nerve |
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Not only are there 12 cranial nerves with unique functions, each cranial nerve also has its own unique pathway from where it begins to where it ends. All this information can surely make your brain explode, but we are going to break it down for you!
Simply put, cranial nerves connect centrally to cranial nerve nuclei which is where cranial motor nerves begin, or where cranial sensory nerves terminate. Remember, nerve fibers leaving the brain are considered efferent fibers, where nerves fibers entering the brain are considered afferent fibers. These centrally located nuclei contain the cell bodies of motor and sensory neurons of the cranial nerves, and the nuclei are where these neurons will synapse with the neurons of higher brain centers such as the thalamus and cerebral cortex.
So essentially, these nuclei act as a pit stop for the exchange of signals travelling between higher brain centers such as our cerebral cortex, to all of the structures our cranial nerves go on to innervate, ultimately facilitating the function of the cranial nerves. This is important as the cranial nerves will carry different types of motor and sensory information, so the nuclei help organize all this information.
In short, cranial nerves can carry two types of motor information, the first being somatic and branchial motor information, and the second being visceral motor or parasympathetic motor information. Then there are the three types of sensory information, the first being somatic sensory information, the second is visceral sensory information, and the third is special sensory information. So, we used the analogy before that cranial nerve pathways are like highways, so let’s talk about these highways and how they transmit the information carried along cranial nerves from the brain centrally to our head, neck, and body peripherally.
Let’s begin by talking about the cranial nerves that carry somatic motor fibers and branchial motor fibers, which eventually go on to innervate voluntary muscles. Of note, the difference between somatic and branchial motor is that branchial motor fibers are just fibers that innervate structures derived from the pharyngeal arches, which are also sometimes called the branchial arches.
Cranial nerve pathways are responsible for transmitting information between the brain and the rest of the body. They consist of different fibers carrying information from the brain and afferent fibers which carry information to the brain. Humans have twelve cranial nerves, each of which provides motor, sensory, or sympathetic innervation to a specific region of the head, face, and some visceral organs. Some of the most important functions that cranial nerves control include vision, hearing and balance, facial sensation, facial movement, swallowing, and vomiting.
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