Visual system

Question 1

What 3 stimuli the visual system tuned to recognise and localise?

Answer 1

• Food
• Mate
• Predator

Question 2

What defines how the visual system is organised?

Example?

Answer 2

The behaviour of the animal

Predators have eyes on the front of their head
Prey have eyes on the side

Question 3

What is the morphology of a sensory neuron largely defined by?

Answer 3

The function of that neuron

Question 4

What 3 things can happen at the processing level?

Answer 4

• Positive feedforward
• Negative feedforward
• Negative feedback

Question 5

What is negative feedforward?

Answer 5

Feedforward but with an inhibitory neurotransmitter

Question 6

What is a hemifield?

Answer 6

The range of vision seen by one eye focussing straight ahead

Question 7

What side of the brain does the left hemifield activate? (which LGN/primary visual cortex)

Why?

Answer 7

The right side (right LGN and right primary visual cortex)

Due to the organisation of the connections in the brain

Question 8

Where is the image focussed to in the eye?

Answer 8

The retina

Question 9

What processes the visual information?

Why is there a need for it to be processed?

Answer 9

The retina

Need to be processed to determine what is important for the brain to know and what isn’t
As the optic nerve only has a certain LIMIT

Question 10

Where does the information from the eye go to in the brain?

Answer 10

To the LGN (lateral geniculate nucleus)

Question 11

What are the properties of the neurons in the LGN similar to?

Answer 11

Ganglion cells

Question 12

Where does the information from the LGN go to?

Where in this structure does processing start?

Answer 12

The primary visual cortex

Starts in the V1 cortical area

Question 13

After the V1 cortical area, where does the information go to?

Answer 13

Splits into 2 streams:

• Dorsal stream
• Ventral stream

Question 14

What is the dorsal stream important in?

Answer 14

Processing spatial information (WHERE)

Question 15

What does ‘spatial’ define?

Answer 15

POSITION and SPEED of stimulus (motion)

Question 16

What is the ventral stream important in?

Answer 16

Object recognition (WHAT)

Question 17

What parts of the brain are involved in the dorsal stream?

Answer 17

Posterior parietal

Question 18

What parts of the brain are involved in the ventral stream?

Answer 18

V2
V4
Inferior temporal cortex

Question 19

What structure regulates how much light falls on the retina?

Answer 19

The pupil

Question 20

What is the fovea?

What is the structure?

Answer 20

Part of the retina where the light is focused
Has the highest visual activity (clearest vision)

Densely packed with photoreceptors
Contains mostly cones

Question 21

How is the rest of the retina different to the fovea?

Answer 21

Has a smaller visual acuity

Contains primarily rods

Question 22

Are rods or cones more sensitive to light?

Answer 22

Rods

Question 23

What focusses the light onto the fovea?

Answer 23

Lens

Question 24

What are Muller cells and why are they needed?

Answer 24

Cells found in the retina that allows light to travel through the retina (which is opaque)
(Act as a light guide through the retina)

Needed so that the whole retina isn’t illuminated when exposed to light

Question 25

What are the first cells in the retina to respond to light?

Answer 25

The photoreceptors

Question 26

How many layers of neurons are there in the retina?

What are they?

Answer 26

3 layers:

• Photoreceptors
• Bipolar cells
• Ganglion cells

Question 27

How many layers of synapses are there in the retina?

What are they?

Answer 27

2 layers:
- PhotoR, bipolar and horizontal

• Bipolar, ganglion and amacrine

Question 28

What are the feedforward neurons in the retina?

Answer 28

• PhotoR
• Bipolar
• Ganglion cells

Question 29

What are the feedback neurons in the retina?

Answer 29

• Horizontal cells

- Amacrine cells

Question 30

Where are horizontal cells present?

Answer 30

Between the photoreceptors and the bipolar neurons

Question 31

Where are the amacrine cells present?

Answer 31

Between the bipolar neurons and the ganglion cells

Question 32

What are the ‘plexiform’ layers?

Answer 32

The layers of synapses:

Inner and outer

Question 33

What synapses are contained in the inner plexiform layer (IPL)?

Answer 33

• Ganglion cell
• Bipolar cell
• Amacrine cell

Question 34

What synapses are contained in the outer plexiform layer (OPL)?

Answer 34

• Photoreceptor
• Bipolar cell
• Horizontal cell

Question 35

Which plexiform layer is the most dense?

Answer 35

IPL

Question 36

How many layers of synapses are in the IPL?

Answer 36

5-6 layers

Question 37

Which photoreceptors are activated at dim light?

Bright light?

Answer 37

Dim light - rods

Bright light - cones

Question 38

How are photoreceptors polarised?

Answer 38

They have different structures on either side of the cell

Question 39

What is phototransduction and where does it occur?

Answer 39

The conversion of light into an electrical signal

Happens in the outer segment of the photoreceptor

Question 40

What happens to the photoreceptors when they are activated by light?

Answer 40

They HYPERPOLARISE (decrease in the membrane potential)

Question 41

What can happen if you sensitise the retina?

Answer 41

The retina can respond to individual photons

Question 42

What are the key molecules in light phototransduction?

Answer 42

cGMP and CMP

Question 43

What channels does the membrane of the outer segment of the photoreceptor contain?

Answer 43

Channels that are permeable to Ca and Na

Question 44

In the dark, what is there high levels of in the cytoplasm?

What does this cause?

Answer 44

cGMP

• Na and Ca selective channels in the outer segment of the photoreceptor to open
• Membrane to depolarise

Question 45

What happens in the photoreceptor outer segment when activated by light?

Answer 45

Signalling cascade which activates photodiesterase:

• PDE converts cGMP to GMP
• Less cGMP in the cytoplasm
• Na and Ca selective channels close
• Hyperpolarisation of the membrane

Question 46

What receives input from the photoreceptors and where?

Answer 46

The bipolar cells and horizontal cells

In the outer plexiform layer

Question 47

What receives input from the bipolar cells and where?

Answer 47

Ganglion calls and amacrine cells

In the inner plexiform layer

Question 48

When do photoreceptors release glutamate?

Answer 48

In the dark, when the photoreceptors are depolarised

Question 49

In the dark, what does the release of glutamate cause?

Answer 49

Activation of OFF cells (release more neuroT)

Inhibition of ON cells (release less neuroT)

Question 50

In the light, what happens to the level of released glutamate from photoreceptors and why?

Answer 50

It decreases

Na and Ca channels are closed
Photoreceptors are hyperpolarised (inactive)

Question 51

What happens to ON and OFF cells in the light?

Answer 51

ON cells are activated (by inhibiting inhibition)

OFF cells are inhibited (by inhibiting activation)

Question 52

What glutamate channels do ON bipolar cells express?

Answer 52

Metabotropic (inhibitory)

Question 53

What glutamate channels do OFF bipolar cells express?

Answer 53

Ionotropic (excitatory)

Question 54

What is the receptive field of a visual neuron?

Answer 54

Area of sensory space that will activate (modify firing rate) of the visual neuron when illuminated

(Collection of the entire area which causes activation of the neuron when stimulated with light)

Question 55

Do all light inputs cause the same activation of a single neuron?

Answer 55

No

Question 56

How is the receptive field of the visual neurons arranged?

What does this mean?

Answer 56

Centre-surround organisation

Means that illumination of the centre and the surround leads to responses in opposite polarities

Question 57

What happens if you illuminate the centre of the ON cell receptive field?

Answer 57

The ON cell is activated (depolarisation)

Question 58

What happens if you illuminate the outside of the ON cell receptive field?

Answer 58

The ON cell in inactivated (hyperpolarisation)

Question 59

What is used to stimulate the outside of the receptive field?

What is this?

Answer 59

Annulus of light

Ring of light

Question 60

How many photoreceptors converge onto one bipolar cell, NOT in the fovea?

Answer 60

MANY photoreceptors converge onto ONE bipolar cell

Question 61

In the fovea, how many photoreceptors converge onto one bipolar cell?

Answer 61

One

Question 62

How do the photoreceptors in the centre of the receptive field activate the bipolar cell?

Answer 62

Directly (not via horizontal cell)

Question 63

How do the photoreceptors in the surround of the receptive field activate the bipolar cell?

Answer 63

Via horizontal cells

Question 64

What happens if you illuminate the centre of the OFF cell receptive field?

Answer 64

OFF cell is hyperpolarised

Question 65

What happens if you illuminate the outside of the OFF cell receptive field?

Answer 65

OFF cell is depolatised

Question 66

In the retina, after the bipolar cells have processed the information, where does it go to?

What is present here?

Answer 66

To the inner plexiform layer

Contains:

• Bipolar cell (presynapse)
• Ganglion cell (postsynapse)
• Amacrine cells (pre and postynapse)

Question 67

What do amacrine cells do?

Answer 67

Shape the information from the bipolar cells to the ganglion cells

Question 68

What type of neurons are amacrine cells?

Answer 68

Inhibitory interneurons

Question 69

What are the differences between different ganglion cells?

Why?

Answer 69

Many types with different dendritic tree morphologies:

• Some are small and dense
• Some are larger and more diffuse
• Some have asymmetrical dendritic trees

Differences in morphology - perform different functions

Question 70

What is the use of small, dense dendritic trees?

Answer 70

Part of pathway responsible for visual acuity and object recognition

Question 71

What is the use of large, diffuse dendritic trees?

Answer 71

Responsible for positional information

Question 72

How is the receptive field of ganglion cells arranged?

Answer 72

Center-surround

Question 73

What happens if you stimulate (with light) the centre of the receptive field of an ON CENTRE cell?

Answer 73

Increase in spike rate

Question 74

What happens if you stimulate (with light) the centre of the receptive field of an OFF CENTRE cell?

Answer 74

Decrease in spike rate

Question 75

What happens if you stimulate (with light) the surround of the receptive field of an ON CENTRE cell?

Answer 75

Decrease in spike rate

Question 76

What happens if you stimulate (with light) the surround of the receptive field of an OFF CENTRE cell?

Answer 76

Increase in spike rate

Question 77

What does the illumination of the whole receptive field lead to in the ganglion cells?

Why?

Answer 77

NO activation of the ganglion cells

Ganglion cells are designed to respond to DIFFERENCES in illumination between the centre and the surround

Question 78

What is the centre-surround of the ganglion cells a result of?

Answer 78

Inhibitory feedback from the amacrine cells

Question 79

What are the 2 classes of ganglion cells?

What are the subtypes of these cells

Answer 79

Parvocellular (P-type)

Magnocellular (M-type)

Subtypes: ON, OFF

Question 80

Which type of cells have subtypes ON and OFF?

Answer 80

Bipolar cells

Ganglion cells

Question 81

What are P-type ganglion cells responsible for?

Answer 81

Processing information about SHAPE and COLOUR

Question 82

What are M-type ganglion cells responsible for?

Answer 82

MOTION detection

Question 83

How are P-type ganglion cells different to M-type ganglion cells?

Answer 83

• Smaller dendritic tree
• Smaller receptive field
• Slow conductance velocity

Question 84

How are M-type ganglion cells different to P-type ganglion cells?

Answer 84

• Larger dendritic tree
• Larger receptive field
• Faster conductance velocity

Question 85

When does adaptation of the visual system occur?

Answer 85

When stimulate with the SAME stimulus OVER TIME

OR

A CONTINUOUS stimulus

Question 86

How does adaptation in the visual system occur?

Answer 86

2 different ways:
1) Desensitisation - decrease sensitivity to stimulus (decrease spike rate)

2) Sensitisation - increase sensitivity to stimulus (increase spike rate)

Question 87

What is the reason for visual illusions?

Answer 87

Adaptation in the visual system