PNS

Question 1

I Olfacory Nerve

Answer 1

Transmitting Foramen: cribriform foramina of ethmoid bone

Function: VA neurons - sense of smell (olfaction)

Neuron Type and Location of Cell Bodies:
Bipolar neurons in nasal mucosa (olfaction)

Question 2

II Optic Nerve

Answer 2

Transmitting Foramen: optic canal of sphenoid bone

Function: SA neurons - vision

Neuron Type and Location of Cell Bodies:
Bipolar neurons in retina

Question 3

III Oculomotor nerve

Answer 3

Transmitting Foramen: superior orbital fissure

Function:

. SA/SE neurons - motor to superior, medial, and inferior rectus mm., inferior oblique m., levator palpebrae superioris m. of the eye

. VE neurons - motor to ciliary m. of eye and pupillary sphincter m. of the iris

Neuron Type and Location of Cell Bodies:

SA/SE - Multipolar neurons in nucleus of oculomotor nerve in mesencephalon

VE - Multipolar neurons in accessory oculomotor nucleus within mesencephalon (pre-ganglionics), and within ciliary ganglion (post-ganglionics)

Question 4

IV Trochlear Nerve

Answer 4

Transmitting Foramen: superior orbital fissure

Function: SA/ SE neurons - motor to superior oblique m. of the eye

Neuron Type and Location of Cell Bodies:

Multipolar neurons in motor nucleus of trochlear n. within mesencephalon

Question 5

V Trigeminal Nerve

Answer 5

1. Ophthalmic nerve

Transmitting Foramen: superior orbital fissure

Function: SA neurons - sensory from and around the eye

Neuron Type and Location of Cell Bodies:

Pseudounipolar neurons in the trigeminal ganglion of the trigeminal nerve

2. Maxillary Nerve

Transmitting Foramen: foramen rotundum of the sphenoid bone

Function: SA neurons - sensory from upper lip and surrounding skin, upper teeth and gums, and palate

Neuron Type and Location of Cell bodies:

Pseudounipolar neurons in the trigeminal ganglion of the trigeminal nerve

3. Mandibular Nerve

Transmitting Foramen: foramen ovale of sphenoid bone

Function:
SA neurons: sensory from lower lip and surrounding skin, lower teeth and gums, tongue, and floor of oral cavity

SA/SE neurons: motor to mm. of mastication

Neuron Type and Location of Cell Bodies:

(SA) - Pseudounipolar neurons in the trigeminal ganglion of the trigeminal nerve

(SA/SE) - Multipolar neurons in the motor nucleus of the trigeminal nerve within the pons

Question 6

Indicate which cranial nerves are sensory only.

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Answer 6

SA (vision, audition, and general sensation from skin, muscles, bones, and joints)

• CN II, V, VIII, IX, and X

VA (olfaction, gustation, and sensation from deep body systems)

• CN I, VII, IX, and X

Overall: 1, 2, 5, 7, 8, 9, 10

Question 7

Indicate which cranial nerves supply skeletal muscles. (carry SE fibers)

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Answer 7

All except 1, 2, 8

Question 8

Indicate which cranial nerves carry gustatory fibers. (gustation)

Answer 8

7,9,10

Question 9

Indicate which cranial nerves do not emerge from the skull.

Answer 9

8

Question 10

Indicate which cranial nerves supply involuntary effectors.

Answer 10

3,7,9,10

Question 11

Indicate which cranial nerves supply muscles that move the eyeball.

Answer 11

3,4,6

Question 12

Indicate which cranial nerves originate from the superior (posterior) aspect of the brain.

Answer 12

4

Question 13

Sketch the origin of a spinal nerve from the spinal cord and label the rootlets, roots, branches, and sensory ganglion.

Answer 13

(pg. 306)

Question 14

List the general kinds of information (sensory from and motor to) carried by: anterior branches of spinal nerves, posterior branches of spinal nerves, anterior roots of spinal nerves, posterior roots of spinal nerves.

Answer 14

Anterior roots: sends motor impulses from spinal cord

Posterior roots: sends sensory impulses into spinal cord

Anterior branches of spinal nerves: motor to and sensory to hypaxial muscles

Posterior branches of spinal nerves: motor and sensory to epaxial muscles

Question 15

Explain why severance of a nerve at a given location does not disrupt the functions of the nerve proximal to the site of injury.

Answer 15

Nerves have many axons that branch off from it. It a nerve is severed, the axons distal to the nerve will be disrupted. The axons proximal to where the nerve was severed will not be disrupted.

Question 16

Explain why nerve damage may be permanent.

Answer 16

Nerve damage may be permanent if the myelin and the nerve can’t be reconnected due to c.t. blocking

• c.t. can scar over so that the nerve and myelin can’t join together

Question 17

Explain why severance of a nerve at a given location does not disrupt the functions of the nerve proximal to the site of injury.

Answer 17

Nerves have many axons that branch off from it. It a nerve is severed, the axons distal to the nerve will be disrupted. The axons peripheral to where the nerve was severed will not be disrupted.

Question 18

Explain why nerve damage may be permanent.

Answer 18

nerves have slow regenerative capacity

Question 19

Define the brachial plexus and state the sensory and motor functions of its four most significant derivatives.

Answer 19

Brachial Plexus: supply nerves to the superior limb

Musculocutaneous Nerve:

• motor to: biceps brachii m. , corocobrachialis m., brachialis m.
• sensory from: skin of the anterior antebrachium and skin on the lateral half of the posterior antebrachium

Ulnar Nerve:

• motor to: anterior antebrachial muscle and the m. of the manus

-sensory from: skin of the manus
( lateral 2/3 of manus)

Medial Nerve:

• motor to: anterior antebrachial m. and the m. of the manus
• sensory from: skin of the manus
  (medial 1/3 of manus)

Radial Nerve:

• motor to: posterior m. of brachium and antebrachium (the extensors of elbow, carpal, and digital joints)

Question 20

Define lumbosacral plexus and state the sensory and motor functions of its largest derivatives. Include the two named branches of the latter.

Answer 20

Lumbosacral plexus: nerves that supply the inferior limbs (consists of lumbar plexus combined with sacral plexus)

Femoral Nerve:
- motor to: the pectineus and sartorius muscles, and the quadriceps femoris muscle
(also goes to medial crus)

Obturator Nerve:

• motor to: the medial muscles of the thigh and external obturator muscle
• sensory to: skin on medial aspect of thigh

Sciatic Nerve: (largest nerve in the body)
- motor to: posterior thigh muscles

1. Tibial Nerve (posterior muscles of crus and few muscles of the pes)
2. Common Fibular Nerve (anterior muscles of crus and few muscles of pes)

(also motor to skin of the foot and most skin on the anterior, lateral, and posterior aspects of the crus)

Question 21

Compare sensory and autonomic ganglia in regard to the presence of synapses, the functional types of neurons present, and the cranial nerves which have them.

Answer 21

Sensory Ganglia:

• no synapses
• Pseudounipolar and Bipolar neurons
• on posterior roots of spinal cord and found in most of the cranial nerves (5,7,8,9,10)

Autonomic Ganglia:
- synapses

• Sympathetic Trunk Ganglia: occur along sympathetic trunk and are synaptic sites for pre and post ganglionic sympathetic neurons
• Named peripheral ganglia: cranial nerves 3,7,9,10 (as well as named ganglia within the thoracic and abdominal cavities)
• Terminal (intramural ganglia): in the walls of the organs innervated

Question 22

Divide the senses into general and special categories.

Answer 22

General Categories: pain, pressure, heat, cold, touch

Special Categories: audition, vision, olfaction, gustation, equilibrium

Question 23

Classify Sensory Receptors based on type of energy transduced.

Answer 23

Mechanoreceptors: pressure, vibration, touch, stretch, hair movement

Chemoreceptors: activated by specific chemicals (taste buds and olfactory cells)

Photoreceptors: light

Thermoreceptors: heat, cold

Nociceptors: pain receptors, respond to chemicals released during tissue damage

Question 24

Classify sensory receptors based on locus of sensory information.

Answer 24

Exteroreceptors: external environment
- ex) skin, taste, hearing, vision, smell)

Visceroreceptors (interoceptors) : in deep body organs (visceral organs)
- ex) hunger, thirst, nausea

Proprioceptors: joints, tendons, muscles bellies, internal ear
- ex) balance, body position, and movement

Question 25

Classify cutaneous receptors.

Answer 25

Those located in the skin

Question 26

Classify Kinesthetic receptors.

Answer 26

Proprioceptors whose impulses are consciously perceived.

Question 27

Classify Encapsulated receptors.

Answer 27

Those which are surrounded by supporting cells.

Question 28

Classify Free Nerve Endings.

Answer 28

Simplest receptors. Extend superficially into the deep layers of cells in the epidermis and respond to touch and pain.

Question 29

Classify Tonic Receptors.

Answer 29

Send impulses as long as a stimulus is received.

Question 30

Classify Phasic Receptors.

Answer 30

Reduce firing rate of impulses with time. (when continuously stimulated)

Question 31

Given a named sensory receptor, state its location and the type of stimulus to which it responds.

Answer 31

pg. 358

Question 32

Define dermatome and explain its clinical value.

Answer 32

the specific area of skin whose sensory neurons are carried by a particular spinal nerve. dermatome maps can be helpful when evaluating nerve injuries.

Question 33

List the components of a spinal reflex and differentiate monosynaptic and disynaptic reflexes.

Answer 33

1. sensory info. is carried by pseudounipolar neurons to the spinal cord
2. neurons synapse directly on motor neurons in anterior column of gray matter
3. axons of these motor neurons course out of spinal cord to supply the skeletal muscles

• One synapse between 2 neurons = monosynaptic
• Two synapse 3 neurons = disynaptic

Question 34

Differentiate referred pain and phantom pain.

Answer 34

Referred pain - pain that is perceived in certain areas or organs of the body but is actually caused in another location
(usually the area of referred pain is supplied by the same spinal nerve component as the actual site of pain)

Phantom pain - amputees experience pain in body parts they no longer have; sensory neurons that supplies amputated portions of the body sometimes continue to send impulses

Question 35

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Olfactory Nerve

Answer 35

loss of sense of smell = anosmia caused by fractures of the ethmoid bone or neoplasia

Question 36

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Optic Nerve

Answer 36

total loss of vision = blindness caused by retinal or optic nerve dysfunction

• partial losses are a result of other eye problems

Question 37

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Oculomotor Nerve

Answer 37

prevents upward, downward, or medial movement of visual axis

Question 38

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Trochlear Nerve

Answer 38

medial and downward deflection of visual axis causes diplopia (double vision) when looking straight downward

Question 39

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Trigeminal Nerve

Answer 39

Ophthalmic Nerve: perceive touch to upper forehead, nose, or cornea

Maxillary Nerve: Perceive touch to superior gums, superior lip, or palate

Mandibular Nerve: perceive touch to inferior gums, inferior lip, or tongue

Question 40

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Abducens Nerve

Answer 40

dysfunction prevents abduction of visual axis and causes convergent strabismus (cross-eyed)

Question 41

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Facial Nerve

Answer 41

flaccid paralysis of facial muscles on affected side

facial paralysis

Question 42

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Vestibulocochlear Nerve

Answer 42

loss of equilibrium and cochlear nerve dysfunction results in loss of hearing

Question 43

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Glossopharyngeal Nerve

Answer 43

dysphagia = difficult swallowing

xerostomia = dry mouth

Question 44

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Vagus Nerve

Answer 44

dysphagia and partial or complete loss of voice

Question 45

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Accessory Nerve

Answer 45

flaccid paralysis and atrophy of ipsilateral trapezius and sternocleidomastoidus muscles

Question 46

Explain the functional losses related to dysfunction of each one of the cranial nerves.

Hypoglossal Nerve

Answer 46

flaccid paralysis of tongue on affected side