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13.4: The Peripheral Nervous System

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    711
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    Learning Objectives

    • Describe the structures found in the PNS
    • Distinguish between somatic and autonomic structures, including the special peripheral structures of the enteric nervous system
    • Name the twelve cranial nerves and explain the functions associated with each
    • Describe the sensory and motor components of spinal nerves and the plexuses that they pass through

    The PNS is not as contained as the CNS because it is defined as everything that is not the CNS. Some peripheral structures are incorporated into the other organs of the body. In describing the anatomy of the PNS, it is necessary to describe the common structures, the nerves and the ganglia, as they are found in various parts of the body. Many of the neural structures that are incorporated into other organs are features of the digestive system; these structures are known as the enteric nervous system and are a special subset of the PNS.

    Ganglia

    A ganglion is a group of neuron cell bodies in the periphery. Ganglia can be categorized, for the most part, as either sensory ganglia or autonomic ganglia, referring to their primary functions. The most common type of sensory ganglion is a dorsal (posterior) root ganglion. These ganglia are the cell bodies of neurons with axons that are sensory endings in the periphery, such as in the skin, and that extend into the CNS through the dorsal nerve root. The ganglion is an enlargement of the nerve root. Under microscopic inspection, it can be seen to include the cell bodies of the neurons, as well as bundles of fibers that are the posterior nerve root (Figure \(\PageIndex{1}\)). The cells of the dorsal root ganglion are unipolar cells, classifying them by shape. Also, the small round nuclei of satellite cells can be seen surrounding—as if they were orbiting—the neuron cell bodies.

    1320_The_Cranial_Nerves.jpg
    Figure \(\PageIndex{5}\): The Cranial Nerves. The anatomical arrangement of the roots of the cranial nerves observed from an inferior view of the brain. Three of the cranial nerves also contain autonomic fibers, and a fourth is almost purely a component of the autonomic system. The oculomotor, facial, and glossopharyngeal nerves contain fibers that contact autonomic ganglia. The oculomotor fibers initiate pupillary constriction, whereas the facial and glossopharyngeal fibers both initiate salivation. The vagus nerve primarily targets autonomic ganglia in the thoracic and upper abdominal cavities.
    QR Code representing a URL
    Visit this site to read about a man who wakes with a headache and a loss of vision. His regular doctor sent him to an ophthalmologist to address the vision loss. The ophthalmologist recognizes a greater problem and immediately sends him to the emergency room. Once there, the patient undergoes a large battery of tests, but a definite cause cannot be found. A specialist recognizes the problem as meningitis, but the question is what caused it originally. How can that be cured? The loss of vision comes from swelling around the optic nerve, which probably presented as a bulge on the inside of the eye. Why is swelling related to meningitis going to push on the optic nerve?

    Another important aspect of the cranial nerves that lends itself to a mnemonic is the functional role each nerve plays. The nerves fall into one of three basic groups. They are sensory, motor, or both (see Table \(\PageIndex{1}\)). The sentence, “Some Say Marry Money But My Brother Says Brains Beauty Matter More,” corresponds to the basic function of each nerve. The first, second, and eighth nerves are purely sensory: the olfactory (CNI), optic (CNII), and vestibulocochlear (CNVIII) nerves. The three eye-movement nerves are all motor: the oculomotor (CNIII), trochlear (CNIV), and abducens (CNVI). The spinal accessory (CNXI) and hypoglossal (CNXII) nerves are also strictly motor. The remainder of the nerves contain both sensory and motor fibers. They are the trigeminal (CNV), facial (CNVII), glossopharyngeal (CNIX), and vagus (CNX) nerves. The nerves that convey both are often related to each other. The trigeminal and facial nerves both concern the face; one concerns the sensations and the other concerns the muscle movements. The facial and glossopharyngeal nerves are both responsible for conveying gustatory, or taste, sensations as well as controlling salivary glands. The vagus nerve is involved in visceral responses to taste, namely the gag reflex. This is not an exhaustive list of what these combination nerves do, but there is a thread of relation between them.

     

    Table \(\PageIndex{1}\): Cranial Nerves
    Mnemonic # Name Function (S/M/B) Central connection (nuclei) Peripheral connection (ganglion or muscle)
    On I Olfactory Smell (S) Olfactory bulb Olfactory epithelium
    Old II Optic Vision (S) Hypothalamus/thalamus/midbrain Retina (retinal ganglion cells)
    Olympus’ III Oculomotor Eye movements (M) Oculomotor nucleus Extraocular muscles (other 4), levator palpebrae superioris, ciliary ganglion (autonomic)
    Towering IV Trochlear Eye movements (M) Trochlear nucleus Superior oblique muscle
    Tops V Trigeminal Sensory/motor – face (B) Trigeminal nuclei in the midbrain, pons, and medulla Trigeminal
    A VI Abducens Eye movements (M) Abducens nucleus Lateral rectus muscle
    Finn VII Facial Motor – face, Taste (B) Facial nucleus, solitary nucleus, superior salivatory nucleus Facial muscles, Geniculate ganglion, Pterygopalatine ganglion (autonomic)
    And VIII Auditory (Vestibulocochlear) Hearing/balance (S) Cochlear nucleus, Vestibular nucleus/cerebellum Spiral ganglion (hearing), Vestibular ganglion (balance)
    German IX Glossopharyngeal Motor – throat Taste (B) Solitary nucleus, inferior salivatory nucleus, nucleus ambiguus Pharyngeal muscles, Geniculate ganglion, Otic ganglion (autonomic)
    Viewed X Vagus Motor/sensory – viscera (autonomic) (B) Medulla Terminal ganglia serving thoracic and upper abdominal organs (heart and small intestines)
    Some XI Spinal Accessory Motor – head and neck (M) Spinal accessory nucleus Neck muscles
    Hops XII Hypoglossal Motor – lower throat (M) Hypoglossal nucleus Muscles of the larynx and lower pharynx

    Spinal Nerves

    The nerves connected to the spinal cord are the spinal nerves. The arrangement of these nerves is much more regular than that of the cranial nerves. All of the spinal nerves are combined sensory and motor axons that separate into two nerve roots. The sensory axons enter the spinal cord as the dorsal nerve root. The motor fibers, both somatic and autonomic, emerge as the ventral nerve root. The dorsal root ganglion for each nerve is an enlargement of the spinal nerve.

    There are 31 spinal nerves, named for the level of the spinal cord at which each one emerges. There are eight pairs of cervical nerves designated C1 to C8, twelve thoracic nerves designated T1 to T12, five pairs of lumbar nerves designated L1 to L5, five pairs of sacral nerves designated S1 to S5, and one pair of coccygeal nerves. The nerves are numbered from the superior to inferior positions, and each emerges from the vertebral column through the intervertebral foramen at its level. The first nerve, C1, emerges between the first cervical vertebra and the occipital bone. The second nerve, C2, emerges between the first and second cervical vertebrae. The same occurs for C3 to C7, but C8 emerges between the seventh cervical vertebra and the first thoracic vertebra. For the thoracic and lumbar nerves, each one emerges between the vertebra that has the same designation and the next vertebra in the column. The sacral nerves emerge from the sacral foramina along the length of that unique vertebra.

    Spinal nerves extend outward from the vertebral column to enervate the periphery. The nerves in the periphery are not straight continuations of the spinal nerves, but rather the reorganization of the axons in those nerves to follow different courses. Axons from different spinal nerves will come together into a systemic nerve. This occurs at four places along the length of the vertebral column, each identified as a nerve plexus, whereas the other spinal nerves directly correspond to nerves at their respective levels. In this instance, the word plexus is used to describe networks of nerve fibers with no associated cell bodies.

    Of the four nerve plexuses, two are found at the cervical level, one at the lumbar level, and one at the sacral level (Figure \(\PageIndex{6}\)). The cervical plexus is composed of axons from spinal nerves C1 through C5 and branches into nerves in the posterior neck and head, as well as the phrenic nerve, which connects to the diaphragm at the base of the thoracic cavity. The other plexus from the cervical level is the brachial plexus. Spinal nerves C4 through T1 reorganize through this plexus to give rise to the nerves of the arms, as the name brachial suggests. A large nerve from this plexus is the radial nerve from which the axillary nerve branches to go to the armpit region. The radial nerve continues through the arm and is paralleled by the ulnar nerve and the median nerve. The lumbar plexus arises from all the lumbar spinal nerves and gives rise to nerves enervating the pelvic region and the anterior leg. The femoral nerve is one of the major nerves from this plexus, which gives rise to the saphenous nerve as a branch that extends through the anterior lower leg. The sacral plexus comes from the lower lumbar nerves L4 and L5 and the sacral nerves S1 to S4. The most significant systemic nerve to come from this plexus is the sciatic nerve, which is a combination of the tibial nerve and the fibular nerve. The sciatic nerve extends across the hip joint and is most commonly associated with the condition sciatica, which is the result of compression or irritation of the nerve or any of the spinal nerves giving rise to it.

    These plexuses are described as arising from spinal nerves and giving rise to certain systemic nerves, but they contain fibers that serve sensory functions or fibers that serve motor functions. This means that some fibers extend from cutaneous or other peripheral sensory surfaces and send action potentials into the CNS. Those are axons of sensory neurons in the dorsal root ganglia that enter the spinal cord through the dorsal nerve root. Other fibers are the axons of motor neurons of the anterior horn of the spinal cord, which emerge in the ventral nerve root and send action potentials to cause skeletal muscles to contract in their target regions. For example, the radial nerve contains fibers of cutaneous sensation in the arm, as well as motor fibers that move muscles in the arm.

    Spinal nerves of the thoracic region, T2 through T11, are not part of the plexuses but rather emerge and give rise to the intercostal nerves found between the ribs, which articulate with the vertebrae surrounding the spinal nerve.

    1321_Spinal_Nerve_Plexuses.jpg
    Figure \(\PageIndex{6}\): Nerve Plexuses of the Body. There are four main nerve plexuses in the human body. The cervical plexus supplies nerves to the posterior head and neck, as well as to the diaphragm. The brachial plexus supplies nerves to the arm. The lumbar plexus supplies nerves to the anterior leg. The sacral plexus supplies nerves to the posterior leg.

    AGING AND THE...

    Nervous System

    Anosmia is the loss of the sense of smell. It is often the result of the olfactory nerve being severed, usually because of blunt force trauma to the head. The sensory neurons of the olfactory epithelium have a limited lifespan of approximately one to four months, and new ones are made on a regular basis. The new neurons extend their axons into the CNS by growing along the existing fibers of the olfactory nerve. The ability of these neurons to be replaced is lost with age. Age-related anosmia is not the result of impact trauma to the head, but rather a slow loss of the sensory neurons with no new neurons born to replace them.

    Smell is an important sense, especially for the enjoyment of food. There are only five tastes sensed by the tongue, and two of them are generally thought of as unpleasant tastes (sour and bitter). The rich sensory experience of food is the result of odor molecules associated with the food, both as food is moved into the mouth, and therefore passes under the nose, and when it is chewed and molecules are released to move up the pharynx into the posterior nasal cavity. Anosmia results in a loss of the enjoyment of food.

    As the replacement of olfactory neurons declines with age, anosmia can set in. Without the sense of smell, many sufferers complain of food tasting bland. Often, the only way to enjoy food is to add seasoning that can be sensed on the tongue, which usually means adding table salt. The problem with this solution, however, is that this increases sodium intake, which can lead to cardiovascular problems through water retention and the associated increase in blood pressure.

    Chapter Review

    The PNS is composed of the groups of neurons (ganglia) and bundles of axons (nerves) that are outside of the brain and spinal cord. Ganglia are of two types, sensory or autonomic. Sensory ganglia contain unipolar sensory neurons and are found on the dorsal root of all spinal nerves as well as associated with many of the cranial nerves. Autonomic ganglia are in the sympathetic chain, the associated paravertebral or prevertebral ganglia, or in terminal ganglia near or within the organs controlled by the autonomic nervous system.

    Nerves are classified as cranial nerves or spinal nerves on the basis of their connection to the brain or spinal cord, respectively. The twelve cranial nerves can be strictly sensory in function, strictly motor in function, or a combination of the two functions. Sensory fibers are axons of sensory ganglia that carry sensory information into the brain and target sensory nuclei. Motor fibers are axons of motor neurons in motor nuclei of the brain stem and target skeletal muscles of the head and neck. Spinal nerves are all mixed nerves with both sensory and motor fibers. Spinal nerves emerge from the spinal cord and reorganize through plexuses, which then give rise to systemic nerves. Thoracic spinal nerves are not part of any plexus, but give rise to the intercostal nerves directly.

    Interactive Link Questions

    Figure If you zoom in on the DRG, you can see smaller satellite glial cells surrounding the large cell bodies of the sensory neurons. From what structure do satellite cells derive during embryologic development?

    Answer: Figure They derive from the neural crest.

     

    Figure To what structures in a skeletal muscle are the endoneurium, perineurium, and epineurium comparable?

    Answer: Figure The endoneurium surrounding individual nerve fibers is comparable to the endomysium surrounding myofibrils, the perineurium bundling axons into fascicles is comparable to the perimysium bundling muscle fibers into fascicles, and the epineurium surrounding the whole nerve is comparable to the epimysium surrounding the muscle.

    Visit this site to read about a man who wakes with a headache and a loss of vision. His regular doctor sent him to an ophthalmologist to address the vision loss. The ophthalmologist recognizes a greater problem and immediately sends him to the emergency room. Once there, the patient undergoes a large battery of tests, but a definite cause cannot be found. A specialist recognizes the problem as meningitis, but the question is what caused it originally. How can that be cured? The loss of vision comes from swelling around the optic nerve, which probably presented as a bulge on the inside of the eye. Why is swelling related to meningitis going to push on the optic nerve?

    Answer: The optic nerve enters the CNS in its projection from the eyes in the periphery, which means that it crosses through the meninges. Meningitis will include swelling of those protective layers of the CNS, resulting in pressure on the optic nerve, which can compromise vision.

    Review Questions

    Q. What type of ganglion contains neurons that control homeostatic mechanisms of the body?

    A. sensory ganglion

    B. dorsal root ganglion

    C. autonomic ganglion

    D. cranial nerve ganglion

     

    Answer: C

    Q. Which ganglion is responsible for cutaneous sensations of the face?

    A. otic ganglion

    B. vestibular ganglion

    C. geniculate ganglion

    D. trigeminal ganglion

     

    Answer: D

    Q. What is the name for a bundle of axons within a nerve?

    A. fascicle

    B. tract

    C. nerve root

    D. epineurium

     

    Answer: A

    Q. Which cranial nerve does not control functions in the head and neck?

    A. olfactory

    B. trochlear

    C. glossopharyngeal

    D. vagus

     

    Answer: D

    Q. Which of these structures is not under direct control of the peripheral nervous system?

    A. trigeminal ganglion

    B. gastric plexus

    C. sympathetic chain ganglia

    D. cervical plexus

     

    Answer: B

    Critical Thinking Questions

    Q. Why are ganglia and nerves not surrounded by protective structures like the meninges of the CNS?

    A. The peripheral nervous tissues are out in the body, sometimes part of other organ systems. There is not a privileged blood supply like there is to the brain and spinal cord, so peripheral nervous tissues do not need the same sort of protections.

    Q. Testing for neurological function involves a series of tests of functions associated with the cranial nerves. What functions, and therefore which nerves, are being tested by asking a patient to follow the tip of a pen with their eyes?

    A. The contraction of extraocular muscles is being tested, which is the function of the oculomotor, trochlear, and abducens nerves.

    Glossary

    abducens nerve
    sixth cranial nerve; responsible for contraction of one of the extraocular muscles
    axillary nerve
    systemic nerve of the arm that arises from the brachial plexus
    brachial plexus
    nerve plexus associated with the lower cervical spinal nerves and first thoracic spinal nerve
    cervical plexus
    nerve plexus associated with the upper cervical spinal nerves
    cranial nerve
    one of twelve nerves connected to the brain that are responsible for sensory or motor functions of the head and neck
    cranial nerve ganglion
    sensory ganglion of cranial nerves
    dorsal (posterior) root ganglion
    sensory ganglion attached to the posterior nerve root of a spinal nerve
    endoneurium
    innermost layer of connective tissue that surrounds individual axons within a nerve
    enteric nervous system
    peripheral structures, namely ganglia and nerves, that are incorporated into the digestive system organs
    enteric plexus
    neuronal plexus in the wall of the intestines, which is part of the enteric nervous system
    epineurium
    outermost layer of connective tissue that surrounds an entire nerve
    esophageal plexus
    neuronal plexus in the wall of the esophagus that is part of the enteric nervous system
    extraocular muscles
    six skeletal muscles that control eye movement within the orbit
    facial nerve
    seventh cranial nerve; responsible for contraction of the facial muscles and for part of the sense of taste, as well as causing saliva production
    fascicle
    small bundles of nerve or muscle fibers enclosed by connective tissue
    femoral nerve
    systemic nerve of the anterior leg that arises from the lumbar plexus
    fibular nerve
    systemic nerve of the posterior leg that begins as part of the sciatic nerve
    gastric plexuses
    neuronal networks in the wall of the stomach that are part of the enteric nervous system
    glossopharyngeal nerve
    ninth cranial nerve; responsible for contraction of muscles in the tongue and throat and for part of the sense of taste, as well as causing saliva production
    hypoglossal nerve
    twelfth cranial nerve; responsible for contraction of muscles of the tongue
    intercostal nerve
    systemic nerve in the thoracic cavity that is found between two ribs
    lumbar plexus
    nerve plexus associated with the lumbar spinal nerves
    median nerve
    systemic nerve of the arm, located between the ulnar and radial nerves
    nerve plexus
    network of nerves without neuronal cell bodies included
    oculomotor nerve
    third cranial nerve; responsible for contraction of four of the extraocular muscles, the muscle in the upper eyelid, and pupillary constriction
    olfactory nerve
    first cranial nerve; responsible for the sense of smell
    optic nerve
    second cranial nerve; responsible for visual sensation
    paravertebral ganglia
    autonomic ganglia superior to the sympathetic chain ganglia
    perineurium
    layer of connective tissue surrounding fascicles within a nerve
    phrenic nerve
    systemic nerve from the cervical plexus that enervates the diaphragm
    plexus
    network of nerves or nervous tissue
    prevertebral ganglia
    autonomic ganglia that are anterior to the vertebral column and functionally related to the sympathetic chain ganglia
    radial nerve
    systemic nerve of the arm, the distal component of which is located near the radial bone
    sacral plexus
    nerve plexus associated with the lower lumbar and sacral spinal nerves
    saphenous nerve
    systemic nerve of the lower anterior leg that is a branch from the femoral nerve
    sciatic nerve
    systemic nerve from the sacral plexus that is a combination of the tibial and fibular nerves and extends across the hip joint and gluteal region into the upper posterior leg
    sciatica
    painful condition resulting from inflammation or compression of the sciatic nerve or any of the spinal nerves that contribute to it
    spinal accessory nerve
    eleventh cranial nerve; responsible for contraction of neck muscles
    spinal nerve
    one of 31 nerves connected to the spinal cord
    sympathetic chain ganglia
    autonomic ganglia in a chain along the anterolateral aspect of the vertebral column that are responsible for contributing to homeostatic mechanisms of the autonomic nervous system
    systemic nerve
    nerve in the periphery distal to a nerve plexus or spinal nerve
    terminal ganglion
    autonomic ganglia that are near or within the walls of organs that are responsible for contributing to homeostatic mechanisms of the autonomic nervous system
    tibial nerve
    systemic nerve of the posterior leg that begins as part of the sciatic nerve
    trigeminal ganglion
    sensory ganglion that contributes sensory fibers to the trigeminal nerve
    trigeminal nerve
    fifth cranial nerve; responsible for cutaneous sensation of the face and contraction of the muscles of mastication
    trochlear nerve
    fourth cranial nerve; responsible for contraction of one of the extraocular muscles
    ulnar nerve
    systemic nerve of the arm located close to the ulna, a bone of the forearm
    vagus nerve
    tenth cranial nerve; responsible for the autonomic control of organs in the thoracic and upper abdominal cavities
    vestibulocochlear nerve
    eighth cranial nerve; responsible for the sensations of hearing and balance

    Contributors and Attributions

    OpenStax Anatomy & Physiology (CC BY 4.0). Access for free at https://openstax.org/books/anatomy-and-physiology


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