The Visual Pathway Flashcards

Question 1

Q

Label the anatomical features of the eye

Question 2

Q

what is the neural layer of the retina?

what cells are found here?

Answer

A

A layer of the retina that contains neurones that transmit photons of light into electrochemical energy

contains photoreceptors, bipolar cells and ganglion cells

ganglion cell axons form the optic nerve

Question 3

Q

What is the optic disk?

Answer

A

The point at which the optic nerve leaves the retina

there are no photoreceptors in the optic disk so any image in this area cannot be detected

it is the blind spot

Question 4

Q

What is the macula and fovea?

Answer

A

The macula is along the visual axis and has a high density of photoreceptors

the fovea only contains cones and has the highest visual acuity

Question 5

Q

Question 6

Q

How can the retina be divided?

Answer

A

The retina is an extension from the diencephalon

it can be divided into a neuronal and non-neuronal layer

the non-neuronal layer consists of pigmented epithelium that is light absorbing

Question 7

Q

What are the 2 components of the outer layer of the eye?

What is the function of these areas?

Answer

A

Cornea:

thick, transparent and avascular layer
major area of refraction

sclera:

“white of the eye” that covers most of the ocular surface and continuous with the cornea
insertion point for muscles that move the eyeball

Question 8

Q

What are the 3 components of the middle (vascular) layer of the eye?

Answer

A

Choroid:

highly vascular and nourishes the cornea and retina

iris:

pigmented and vascular
the muscles of the iris control the amount of light entering the eye by controlling the diameter of the pupil

ciliary body:

controls the shape of the lens by pulling on the suspensory ligaments

Question 9

Q

What is the role of the lens?

Answer

A

It is a biconvex avascular structure through which light passes after passing through the pupil

Question 10

Q

What pigment is contained within the pigmented epithelium of the retina?

What is the role of this layer?

Answer

A

It contains melanin, which absorbs light

it provides nutrients to the photoreceptors

Question 11

Q

What are the 2 main neurones involved in the neuronal part of the retina?

Answer

A

1^o bipolar cells:

these link photoreceptors (rods and cones) to ganglion cells

2^o ganglion cells:

their axons exit the retina and fuse to form the optic nerve

Question 12

Q

What are the 2 different interneurones within the retina?

What are their roles?

Answer

A

They connect the rods and cones to the 1^o and 2^o neurones and modulate information

horizontal interneuron:

modulates transmission

amacrine interneuron:

modulates activity of ganglion cells

Question 13

Q

What does it mean that the optic nerve (CN II) is actually part of the CNS?

Answer

A

The optic nerve is an outgrowth from the diencephalon

when it exits via the optic canal, it takes all 3 layers of meninges with it

the optic nerve has meninges surrounding it to the eyeball

Question 14

Q

Label the components of the optic nerve

Answer

A

The sub arachnoid space contains CSF

Question 15

Q

How does a rise in CSF pressure affect the optic nerve?

Answer

A

A rise in CSF pressure leads to papilloedema

this is due to a thin layer of CSF surrounding the optic nerve

Question 16

Q

What is papilloedema?

What causes it?

Answer

A

A swelling of the optic disk

as the optic nerve is surrounded by meninges, increases in CSF pressure can swell the optic nerve

increase in pressure compresses the central retinal vein (and artery) preventing venous drainage from the eye

Question 17

Q

What are the symptoms of papilloedema?

Answer

A

Headaches
drowsiness
blurred vision
vomiting

Question 18

Q

Label the anatomy of the visual pathway

Question 19

Q

What structures are involved in the visual pathway from start to end?

Answer

A

Both optic nerves converge to form the optic chiasma
fibres from the optic chiasma enter the optic tract
fibres radiate away from the optic tract and into the lateral geniculate nucleus of the thalamus
this gives rise to optic radiations that lead to the primary visual cortex in the occipital lobe

Question 20

Q

Question 21

Q

What features are shown in the different colours?

Answer

A

A lesion at any point causes specific visual defects

Question 22

Q

What is shown here?

What areas surround this structure?

Answer

A

Calcarine sulcus

primary visual cortex:

this is where visual information first gets perceived

visual association cortices:

this is where information gets interpreted and given meaning
e.g putting a name to a face and forming associations

Question 23

Q

What are the 3 neurones involved in the visual pathway from the photoreceptors in the retina to the primary visual cortex?

Answer

A

Within CNS:

1^o neurones in the retina are bipolar cells
these synapse with the 2^o neurones, which are ganglion cells
axons of the ganglion cells run over the retina to the optic disk to form the optic nerve

Within thalamus:

the optic nerve enters the lateral geniculate nucleus (LGN)
it synapses with the 3^o thalamocortical neurones (optic radiations)

Cerebral cortex:

optic radiations travel to the primary visual cortex

Question 24

Q

What is meant by the visual pathway being retinotopically organised?

Answer

A

Left half of visual field goes to the right hemisphere
Right half of visual field goes to the left hemisphere
upper visual field goes to the lower bank of calcarine sulcus
lower visual field goes to the upper bank of calcarine sulcus
the centre of the visual axis (macula) goes to the occipital pole

Question 25

Q

What is the difference between images on the visual field and retinal field?

Answer

A

The images from the visual field are inverted onto the retinal fields

they are upside down and mirror reversed

Question 26

Q

How is the visual field and retinal field divided?

Answer

A

Each field is divided into hemi-fields by a vertical line

then divided into quadrants by a horizontal line

where they transect is the fixation point and this corresponds to the fovea

Question 27

Q

Which fibres cross at the optic chiasma?

What is the result of this?

Answer

A

Nasal fibres cross at the optic chiasma, but temporal fibres DO NOT

the left half of the visual field goes to the right hemisphere

the right half of the visual field goes to the left hemisphere

Question 28

Q

Question 29

Q

Where do fibres travel after leaving the LGN?

Answer

A

Fibres from the LGN travel to the upper and lower banks of the calcarine sulcus via different pathways

lower visual field fibres:

travel in the superior trajectory to the upper bank of the calcarine sulcus
this travels around the posterior horn of the lateral ventricle

upper visual field fibres:

travel in the inferior trajectory / Meyer’s loop to the lower bank of the calcarine sulcus
this travels around the inferior horn of the lateral ventricle

Question 30

Q

In the primary visual cortex, where is the macula represented?

Answer

A

The macula is represented most posteriorly - towards the tip of the occipital pole

the peripheral fields are represented more anteriorly

Question 31

Q

What is the visual pathway like from the left visual field?

Answer

A

From the left eye:

temporal visual field passes to the nasal half of the retina
fibres travel in the optic nerve
nasal fibres cross the midline at the optic chiasma

From the right eye:

nasal visual field passes to the temporal half of the retina
fibres travel in the optic nerve
temporal fibres DO NOT cross the midline at the optic chiasma and stay on the ipsilateral side
fibres travel to the lateral geniculate nucleus
3^o neurones travel to the primary visual cortex

Question 32

Q

What is the visual pathway like from the right visual field?

Answer

A

From the right eye:

fibres from the right side of the visual field pass to the nasal hemiretina
fibres travel in the optic nerve
at the optic chiasma, nasal fibres cross the midline

from the left eye:

fibres from the right side of the visual field pass to the temporal hemiretina
fibres travel in the optic nerve
at the optic chiasma, temporal fibres DO NOT cross the midline

Question 33

Q

How do fibres from the upper and lower visual fields travel to the primary visual cortex?

Answer

A

Lower visual field:

fibres travel in the superior trajectory to the upper bank of the calcarine sulcus

upper visual field:

fibres travel in Meyer’s loop to the lower bank of the calcarine sulcus

Question 34

Q

Why is it important to know the location of damage to the visual pathway?

Answer

A

Vision can be disrupted due to damage to the visual pathway as it passes from the retina to the cerebral cortex

knowing the location of the disruption can cause predictable deficits in the visual field

Question 35

Q

What is meant by scotoma?

Answer

A

A localised patch of blindness

Question 36

Q

What is anopia?

Answer

A

The loss of one or more quadrants of the visual field

Question 37

Q

What are the 2 different types of anopia?

Answer

A

Hemianopia:

loss of half of the visual field

Quadrantanopia:

loss of a quarter of the visual field

Question 38

Q

What is meant by homonymous and heteronymous?

Answer

A

Homonymous:

visual field losses are similar for both sides

Heteronymous:

visual field losses are on different sides

Question 39

Q

Where would a lesion be located in monocular blindness?

Answer

A

There would be a lesion of the optic nerve on the affected side

Question 40

Q

Where would a lesion be located in bitemporal hemianopia?

Answer

A

The lesion would pass through the centre of the optic chiasma

Question 41

Q

Where would a lesion be located in homonymous hemianopia (affecting the right side)?

Answer

A

There would be a lesion of the optic tract on the left (opposite) side

Question 42

Q

Where would a lesion be located in scotoma?

Answer

A

This is a lesion of the macula

it is often macular degeneration related to increasing age

Question 43

Q

Question 44

Q

What happens to the optic tract fibres that do NOT pass to the LGN?

Answer

A

Not all optic tract fibres pass to the LGN

approx 10% of optic tract fibres take a medial route to the pre-tectal area (midbrain)

Question 45

Q

What is meant by the pupillary light reflex?

What cranial nerves are involved?

Answer

A

The ability of both pupils to respond (constrict or dilate) dependent on the level of light that the retina receives

it uses two cranial nerves:

Optic nerve
Oculomotor nerve

Question 46

Q

What are the steps involved in the pupillary light reflex?

Answer

A

10% of optic tract fibres pass to the pretectal area
they synapse with interneurones which connect with BOTH the contralateral and ipsilateral Edinger-Westphal nucleus (parasympathetic nucleus of CN III)
Efferent fibres travel in BOTH oculomotor nerves which synapse in the ciliary ganglion
this leads to constriction of sphincter pupillae muscles on BOTH SIDES

Question 47

Q

Question 48

Q

What is meant by the direct and consensual response in the pupillary light reflex?

Answer

A

Direct response:

when light is shone in one eye, the SAME pupil constricts

Consensual response:

when light is shone in one eye, the OTHER pupil constricts

Question 49

Q

What would be seen in a CN III and CN II lesion relating to the pupillary light reflex?

Answer

A

CN III lesion:

loss of consensual pupillary light reflex

CN II lesion:

loss of direct pupillary light reflex

Question 50

Q

What is meant by the accommodation reflex?

What are the three stages involved?

Answer

A

A series of changes that occur when the gaze is transferred from a distant to a near object (eyes turn medially)

1. Accommodation:

the ciliary muscles contract and the lens becomes more rounded

2. Pupil constricts:

caused by contraction of sphincter pupillae

3. Ocular convergence:

this is adduction of the eyeballs acheived by the medial rectus muscle

Question 51

Q

What are the stages involved in the accommodation reflex?

Answer

A

Afferent fibres carrying input to the primary visual cortex are:
- the optic nerve and tract to LGN
- then from the LGN to the visual cortex
the fibres then pass to CN III nuclei in the midbrain
- descending information from the cortex is passed to Edinger-Westphal nucleus and motor nucleus of III
Efferent fibres all run within CN III
- parasympathetic fibres from EW nucleus run to sphincter pupillae
- motor fibres from motor nucleus run to medial rectus