Phys Special Sense

Question 1

T/F There is the smallest proportion of our brain devoted to sight than any other sense

Answer 1

False, the greatest

Question 2

Visual pathway lesions:

If the lesion is found in the optic nerve, what will it result in?

Answer 2

Ipsilateral blindness - complete blindness in the eye on the affected optic nerve side

Question 3

What are the functional implications of ipsilateral blindness?

Answer 3

Smaller visual field

Question 4

Visual pathway lesions:

If there is compression bilaterally to the optic chiasm, what will it result in?

Answer 4

Binasal hemianopsia - loss of nasal fields bilaterally (temporal fields are spared)

Question 5

What are the functional implications of bilateral compression to the optic chiasm (Binasal hemianopsia)?

Answer 5

Not huge, patients able to compensate more easily here than other lesions
May have issues with near vision, concentrating on a task

Question 6

Visual pathway lesions:

If there is lesion to the optic chiasm, what will it result in?

Answer 6

Bitemporal hemianopsia - loss of bilateral temporal fields (nasal fields are spared)

Question 7

Bitemporal hemianopsia is seen commonly with what type of tumors?

Answer 7

Pituitary tumors

Question 8

What are the functional implications of bitemporal hemianopsia?

Answer 8

Tunnel vision (peripheral obstacles go missed in both directions
High fall risk

Question 9

Visual pathway lesions:

If there is damage to the left optic tract, what will it result in?

Answer 9

Homonymous Hemianopsia - Result in complete loss of binocular visual field of left nasal field and right temporal field (right side in both eyes)

Question 10

Homonymous Hemianopsia is common with what?

Answer 10

CVA

Question 11

Visual pathway lesions:

If there is a lesion to lower division of optic radiations (temporal lobe), what will it result in?

Answer 11

Upper quadrantanopia - at radiations everything is reversed so lower division lesion would present with upper quadrant loss

Question 12

Functional implications of upper quadrantanopia?

Answer 12

Annoyance

Question 13

Visual pathway lesions:

If there is lesion to upper division of optic radiations (parietal lobe), what will it result in?

Answer 13

Lower quadrantanopia

Question 14

Visual pathway lesions:

If there is a lesion to both division of optic radiations or a lesion to visual cortex, what will it result in?

Answer 14

homonymous hemianopsia with macular sparing

Question 15

How is homonymous hemianopsia with macular sparing functionally different than homonymous hemianopsia with optic tract lesions?

Answer 15

Not very different

Question 16

T/F Each ear sends info to bilateral temporal lobs

Answer 16

True

Question 17

What is monaural hearing loss due to?

Answer 17

Cochlear lesion or damage to CN 8

Question 18

Why do we have 2 ears?

Answer 18

Binaural hearing offers several benefits

Question 19

What do inter-aural time difference and inter-aural intensity help do?

Answer 19

localize source of sound

Question 20

What cells are tuned to detect certain amount of time delay between two ears?

Answer 20

Cells in superior olive

Question 21

What is activated by combinations of frequencies and time intervals between frequencies to help localize source of sound?

Answer 21

thalamus

Question 22

The acquired hearing loss acoustic neuroma can be caused by what?

Answer 22

o Meniere’s Disease
o Traumatic Brain Injury
o Ototoxicity
o Presbycusis

Question 23

What are the functional implications of hearing loss?

Answer 23

o Directly, none

o But, in many causes of acquired hearing loss, vestibular dysfunction is not far behind

Question 24

What areas do vestibular nuclei receive inputs from?

Answer 24

1. ipsilateral and contralateral vestibular nuclei
2. Cerebellum
3. Visual and somatic sensory inputs

Question 25

Vestibular nuclei participate in what 3 key reflexes?

Answer 25

1. Vestibulo-ocular reflex (VOR)
2. Vestibulospinal reflex (VSR)
3. Vesitbulocollic reflex (VSR)

Question 26

What is the Vestibulo-ocular reflex (VOR)?

Answer 26

1. Gaze stabilization

2. Results in eye movements that equally counter head movements

Question 27

If the head moves to the L, what will occur to R and L semicircular canal, abducens, and oculomotor

Answer 27

1. • L semicircular canal, + R abducens, + L oculomotor
2. • R semicircular canal, - L abducens, - R oculomotor
     - > Eyes move to the RIGHT

Question 28

Damage to what central areas would cause vestibular damage involving VOR?

Answer 28

Damage to midbrain, pons

Question 29

Damage to what peripheral areas would cause vestibular damage involving VOR?

Answer 29

CN 8

Labrynth structures

Question 30

Vestibular damage to VOR would lead to what difficult?

Answer 30

Difficulty stabilizing image on retina while head is moving

Question 31

If you have bilateral vestibular dysfunction you will experience oscillopsia, what is that?

Answer 31

bouncing vision

Question 32

If you have unilateral vestibular dysfunction you will experience saccades and nystagmus, what are those?

Answer 32

Saccades - rapid movement of eye between fixation points

Nystagmus - repetitive, uncontrolled movements

Question 33

Postural adjustments with vestibulospinal and vestibulocollic reflexes (VSR, VCR) receive inputs from what structures?

Answer 33

Cerebellum
Semicircular canals (SCC)
Otholiths

Question 34

T/F descending vestibular pathways are not important for postural control

Answer 34

False, they are essential for postural control

Question 35

Describe vestibulospinal (VSR) starting with otoliths -

Answer 35

1. Otoliths (utricle, saccule) project to
2. LVN
3. Axons descend to antigravity muscles at all levels of spinal cord

Question 36

Describe vestibulocollic reflexes (VCR) starting with MVN axons -

Answer 36

1. MVN axons descend in
2. Medial longitudinal fasciculus (MLF) to
3. Upper cervical levels of the spinal cord

Question 37

Tee vestibulocollic reflexes (VCR) dictates what?

Answer 37

Dictates head position in response to head rotation (SCC)

Question 38

The vestibulospinal (VSR) (how it works) when you tilt head to one side: (ipsi and contra)
Canals and otoliths are stimulated \_\_\_\_ and inhibited \_\_\_\_

Answer 38

Canals and otoliths are stimulated ipsilaterally (and inhibited contralateral)

Question 39

When head is tilted to one side the VSR causes ipsilateral stimulated which increased what?

Answer 39

Input through vestibular nerve to the vestibular nuclei ipsilaterally

Question 40

When head is tilted to one side and the VSR causes increased input through the vestibular nerve to the vestibular nuclei ipsilaterally, impulses are transmitted through where to the spinal cord

Answer 40

Transmitted through the lateral and medial vestibulospinal tracts to the spinal cord

Question 41

When the head is tilted to one side, how is the trunk affected?

Answer 41

Increased lateral extension of trunk on side of head tilt, increased flexion contralaterally

Question 42

Normally when person sways to the left, what with the L VSR do?

Answer 42

L VSR activated to bring body/trunk back to midline

Question 43

If there is damage to VSR/VCR, what 2 things will you see?

Answer 43

1. Postural instability, difficulty sensing falling/tipping

2. Truncal ataxia: incoordination, unstable trunk movement during movement