Clinical Physiology 6 - Neurological System P2 (Oct 6).pdf

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Clinical Physiology VI
Fundamental Physiologic Basis of the Neurologic
Exam – part 2
BMS 100
Week 6

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The Neurologic System
Basic functional Anatomy of the Nervous System
Cranial Nerves
Types of information conveyed by cranial nerves
Cranial nerve anatomy and function

Major Somatic Sensory Pathways
Dorsal column-medial lemniscal system
Spinothalamic tract

Neurologic Physical Exam – Part II
Cranial nerve exam
Assessing dermatomes

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Cranial Nerves
• Nerves that “emerge from the brain” and exit via skull foramina
§ All other nerves exit the spinal cord and travel through the
intervertebral foramina
• Cranial nerves carry a wide variety of information:
§ Special sensory information
• Special senses – sight, sound, taste, smell, “balance”
§ Somatic motor information
• Somatic motor = skeletal muscles that we have voluntary
control over
§ Somatic sensory information
• Somatic sensory = sensations that we can perceive
OTHER THAN the special senses
§ Motor and sensory information to/from structures that we
cannot control or perceive
• Mostly autonomic nervous system to glands/organs or
from organs

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Cranial Nerves – general anatomy
• The nuclei (cell bodies) in the
brain that communicate to the
cranial nerves are mostly found in
the brainstem – some exceptions:
§ Olfactory (CN I) – projects to
the cortex (mostly
§ Optic (CN II) – projects to the
thalamus
§ CN III and IV – nuclei are
found in the midbrain
§ CN V, VI, VII, VIII – nuclei are
found in the pons
§ CN IX, X, XI, XII – nuclei are
(mostly) found in the medulla

On old Olympus;s towering

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Inferior view – cranial nerves

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Cranial Nerve I – Olfactory
• Function – sense of smell (special sense)

§ From the superior part of the nasal cavity à olfactory
bulb à many different locations in the temporal and
frontal lobes
§ Skull entry/exit point: Axons penetrate the skull via the
tiny holes in the cribriform plate (ethmoid)

• How do we test it?

§ Ask the patient to identify a couple of distinctive smells
(eyes closed if necessary)
§ i.e. coffee, peppermint
§ Loss of sense of smell = anosmia
• Infections (COVID is famous for it), head injuries

Only sensory

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Cranial Nerve I – Olfactory

Ask the patient to smell strong scents such as essential oils

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Cranial Nerve II
• Function – vision (special sense)

§ From the retina (back of the eye) à thalamus à occipital
lobe (cortex)

• There are other connections between the optic nerve and the
brain other than through the thalamus – mostly for mediating
reflex eye and head movements

§ Skull entry/exit point: optic foramen (canal)

• How do we test it?

§ The Snellen eye chart (central vision)
§ Peripheral field tests (peripheral vision)
§ Observation of the back of the eye (ophthalmoscope)
• Assesses the retina (the “light sensor”)

§ Others – pupillary movements, rapid involuntary eye
movements

Only sensory

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Cranial Nerve II

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Cranial Nerve III, IV, VI
• Main Function: Eye movements (somatic motor)

§ CN III: from the midbrain à muscles around the eye
• As well, CN III projects to your pupillary muscles (dilation,
constriction) and your levator palpebrae superioris
muscle (helps elevate your eyelid)
§ CN IV: from midbrain à one of the muscles around your eye
(superior oblique – gaze of the eye down and outward)
§ CN VI: from the pons à one of the muscles around your eye
(lateral rectus- - outward gaze)
§ Skull entry/exit point for all: superior orbital fissure

• We’ll discuss the actions of all of these eye muscles in detail
for later… but for now:
§ CN III – most eye movements and control of pupils
§ CN IV – directs your gaze down and outwards
§ CN VI – directs gaze laterally (abducts eyeball)

Motor only

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Cranial Nerves III, IV, VI

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Cranial Nerves III, IV, VI
• How do we test them?

§ You can see that these nerves innervate very small,
quick, coordinated muscles that help us to control our
eye movements
§ Test them by:
1. Ask patient to “follow your finger with their eyes”
2. Move your finger so that you draw a big “H” in the air
in front of them
• Eyes should smoothly follow your finger

3. Shine a light into the patient’s eyes and hold an object
close to patient’s eyes
• Pupils should constrict in response

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Cranial Nerves III, IV, VI

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Cranial Nerve V
• Two major functions:
1. Sensation over the face, scalp, nasal cavity and
cornea (somatic sensation)

§ Sensations include touch, pain, proprioception for facial
muscles and tongue
§ Cornea = clear, tough outer part of the eye that overlies the
iris
§ Exits from the pons, leaves skull through:
• Superior orbital fissure: cornea, forehead, scalp, eyelids,
nasal mucosa (upper face, scalp)
• Foramen rotundum: face over the maxillary part of the
face, including maxillary teeth (mid-face)
• Foramen ovale: lower jaw, proprioception for tongue
(lower face, mouth – but NOT taste)

Has both motor and sensory functions

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Cranial Nerve V
• Two major functions:
2. Motor function (somatic motor) for the muscles of
mastication (chewing) and some neck, middle ear muscles
§ Main muscles – temporalis, masseters, pterygoids
§ Exits through the foramen ovale
• How do we test it?
1. Sensory – sharp, dull, and light touch over the face
2. Strength of jaw clenching and movements of the jaw

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Cranial Nerve V

Sharp sensation à
break the wooden
“stick” of the
cotton swab

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Cranial Nerve VII
The trickiest nerve:
• Functions:
1.

Facial movements OTHER THAN the tongue, eye muscles, and
muscles of mastication (somatic motor)
§ Remember from anatomy? Eye opening? Pursed lips?
Raised eyebrows?
§ Controls many skeletal muscles in the head – actually controls
more muscles than any other nerve in the body
2. Taste from the anterior 2/3 of the tongue (special sense à
taste)
3. Autonomic motor input to glands (“autonomic” motor)
§ Salivary and tears
§ Nasal glands (nasal secretions)
4. Somatic sensation from the ear canal (somatic sensory)

Motor only

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Cranial Nerve VII – keeping it simple
• Simplified anatomy:
§ Exits/enters the pons à passes through the internal
acoustic meatus and facial canal, exits through the
stylomastoid foramen
§ Many branches – if you’re really curious, check out this
excellent, free reference:
https://www.ncbi.nlm.nih.gov/books/NBK526119/#!po=6.
25000

• How do we test it?
§ Pretty simple – you ask the patient to use her facial
muscles (make particular faces at you)

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Cranial Nerve VII

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Cranial Nerve VIII
• Hearing apparatus:
§ Sound waves enter the ear canal à vibration of the tympanic membrane
§ Tympanic membrane vibrations à movements of tiny bones in the
middle ear (malleus, incus, stapes)
• all of these bones act as levers to increase the amplitude of sound
vibrations
§ Vibrations transmitted from
the stapes into the cochlea
(snail-looking thingy) within
the inner ear
§ Vibrations in cochlear fluid
move hairs in the cochlea à
§ Hairs transduce vibrations into
electrical impulses à
§ Electrical impulses are carried
by CN VIII

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Cranial Nerve VIII
• Function - Hearing and balance (special senses)
§ From inner ear à internal acoustic meatus à pons
• From pons it passes through the thalamus and synapses in the
temporal lobe for the perception of sound

• Hearing – how do we test it?
§ Whisper to patient to test for auditory acuity
§ Tuning forks – allow you to tell if there’s a problem with the nerve
or with the ear canal à ear drum à cochlea pathway
• Tuning forks can be “heard” by conduction of the tuning fork
vibration through the bones of the skull
• If you “hear” the tuning fork better when it’s sending vibrations
through your skull (versus being held up to your ear) à
§ have a problem with sound conduction through the ear
canal, ear drum, or the tiny bones of your middle ear

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Cranial Nerve VIII

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Cranial Nerve VIII
• Balance and equilibrium – how do we test it?
§ We’ve already covered this a bit – the gravity- and
motion-detecting apparatus of the ear feeds important
information to the cerebellum
• Vestibular apparatus

§ If the vestibular apparatus or the vestibular component
of CN VIII is compromised, balance is impaired
• Can be observed when patient is standing with eyes
closed (tends to fall over) or with abnormalities in gait
(tends to veer to one side or the other)

§ Many patients with impaired vestibular function are also
very nauseous and have rapid, involuntary eye
movements (nystagmus)

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Cranial Nerve IX
• Function:
1. Swallowing – (somatic motor)
2. Sensation from the pharynx, part of the external ear
(somatic sensory) and from chemoreceptors/baroreceptors
in the carotid body (“autonomic sensory”)
3. Taste from posterior 1/3 of tongue (special sensory)
4. Innervation of a salivary gland – parotid (“autonomic
motor”)
§ Nerve enters/exits through the jugular foramen in the skull and
projects to/leaves the medulla

• How do we test it?

§ Stimulate the posterior aspect of the pharynx (careful – this causes a
gag reflex)
§ The soft palate and tongue elevate (CN X) when stimulation is
detected (CN IX)
§ Not the most helpful test – many healthy people have a diminished
gag reflex

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Cranial Nerve IX

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Cranial Nerve X
• We’ll talk much more about CN X as we discuss the
autonomic nervous system

§ It projects to a wide variety of organs such as the lungs, heart,
liver, and gastrointestinal tract (among others)
§ Nerve is called the vagus nerve (“vagus” means “wanderer”)

• Major functions:

§ Pharyngeal muscles –swallowing - and laryngeal muscles vocal cords (somatic motor)
§ Parasympathetic nervous system input to the visceral organs
discussed above (“autonomic motor”)
• “Rest and digest” aspect of the autonomic nervous system

§ Sensation from the visceral organs it impacts (“autonomic
sensory”) and some of the pharynx and external ear
(“somatic sensory”)
§ Sensory input from aortic baroreceptors and chemoreceptors
(“autonomic sensory”)

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Cranial Nerve X
• How do we test it?
§ Usually by listening to the patient’s voice – if hoarse,
then it may be due to damage of the vagus motor input
to the vocal cords
§ Ask the patient to say “ahhhh” à elevation of the palate
is part of the somatic function of the vagus nerve
§ We don’t usually test the function of parasympathetic
nervous system at the vagus nerve level

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Cranial Nerve X

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Cranial Nerve XI
• Function – innervation of the sternocleidomastoid
and trapezius (somatic motor)

§ CN XI isn’t really a true cranial nerve – the neuronal cell
bodies are actually located in the cervical spinal cord
• this nerve travels into the skull (foramen magnum)…
• and then back out again (jugular foramen)

• How do we test it?
§ Turning the head against resistance
§ Shrugging the shoulders

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Cranial Nerve XI

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Cranial Nerve XII
• Function – innervation of the tongue (somatic
motor)

§ Key for speech and swallowing
§ Exits the medulla and passes through the hypoglossal
canal

• How do we test it?
§ Ask the patient to stick out her tongue, and move it side
to side
• If the tongue is deviated or the patient can’t follow these
instructions, then damage could be at the level of the
nerve, medulla, or motor cortex

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Cranial Nerve XII

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The foramina – from MSK anatomy

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The
foramina –
from MSK
anatomy

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The major sensory pathways - review
• The special senses are all carried via the cranial nerves
– all will eventually project to the cortex
§ Vision – occipital lobe
§ Sound – temporal lobe
§ Taste and smell – inferior-lateral frontal lobes

• The other senses – pain, touch, vibration,
proprioception, temperature – all project to the postcentral gyrus in the parietal lobe
§ Touch, vibration, proprioception – dorsal column-medial
lemniscal system
§ Pain, temperature – spinothalamic tract
§ These two pathways have somewhat different anatomy

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Major sensory pathways
• Dorsal column-medial lemniscal system

§ Neurons that receive sensory input (first order neurons)
send their axons to the dorsal horn (gray matter of
spinal cord) and then project into the dorsal columns
(white matter of spinal cord)
§ These axons stay on the same side until they enter the
medulla
• After entering the medulla, they synapse on another
neuron à

§ The next neuron (second-order neuron) crosses to the
other side of the medulla, and then synapses with
another neuron in the thalamus (third order neuron) à
• The third order neuron projects to the post-central gyrus

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Dorsal
Column
System
and
Spinothalamic
Tract

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Major sensory pathways
• Spinothalamic Tract

§ Neurons that receive sensory input (first order neurons)
send their axons to the dorsal horn (gray matter of
spinal cord) à
• and then synapse with another cell in the dorsal horn
(second-order neuron)

§ The axon of the second order neuron crosses over in the
gray matter, then sends its axon up to the brain in the
lateral and anterior white matter of the spinal cord à
§ The second-order neuron synapses with another neuron
in the thalamus (third-order neuron) à
• Third order neuron synapses with a neuron in the postcentral gyrus

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Dorsal
Column
System
and
Spinothalamic
Tract

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Testing sensation
• Each spinal nerve collects information from a part of
the body and sends it to the thalamus and to the post
central gyrus
§ Loss of sensation can be at the level of the spinal nerve, the
spinal cord, the thalamus (rare) or at the level of the cortex
§ We “map out” neurologic deficits in sensation by testing
“dermatomes”

• Specific dermatomes aren’t always the same among
individuals

§ some areas of the body will be supplied by one spinal nerve
in one person and a totally different spinal nerve in someone
else

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Classic
Dermatomes
• These dermatomal maps
that correspond to the
spinal nerves were
drawn out many
decades ago
• Significant variation
between individuals has
been confirmed in
numerous studies
• Example of “old” and
less accurate diagram à

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Dermatomes
you can (sort of)
bank on
• The dermatomes
illustrated here are a
little more
consistent across
individuals

§ In general, more
peripheral regions
(hands, feet) have a
little more variability
across individuals)
§ i.e. thumb –
literature suggests
C6, C7 can variably
contribute

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Testing
dermatomes
• Sharp – usually a
“somewhat” sharp
object

§ A splintered wooden
tongue depressor or
cotton swab, for
example
§ Spinothalamic tract

• Dull or soft – cotton
swab

§ Dorsal column-medial
lemniscal

• Vibration sense – tuning
fork on bony
prominence
§ Dorsal column-medial
lemniscal

Sharp sensation à
break the wooden
“stick” of the
cotton swab

Can use a toning fork but need to use a bony surface

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Reliable-ish dermatomes
Level

Area

C2

Scalp

C3

Front of Neck

C4, C5

Shoulder

C8, T1

Little finger

T4

Nipple-level

T10

Umbilicus

L2

Thigh

L4

malleoli, medial
anterior lower leg
Malleoli, lateral
anterior leg
Lateral posterior leg,
lateral plantar foot
Perineal area

L5
S1
S3, S4, S5

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