Stimulus recognition

Question 1

What projects to the lateral geniculate nucleus?

Answer 1

BOTH the parvocellular and magnocellular ganglion cells

Question 2

How many layers are there in the LGN?

Answer 2

6

Question 3

How many layers of the LGN receive input from the P-ganglion cells?

Answer 3

4

Question 4

How many layers of the LGN receive input from the M-ganglion cells?

Answer 4

2

Question 5

What is received at each layer of the LGN?

Answer 5

Input from a single eye at each layer

Alternates between input from contralateral and ipsilateral eye

Question 6

Where does the right LGN receive input from?

What is this seen by?

Answer 6

From the left visual field

Seen by the nasal left retina and the temporal right retina

Question 7

Where does the left LGN receive input from?

What is this seen by?

Answer 7

From the right visual field

Seen by the right nasal retina and temporal left retina

Question 8

How are the layers kept in the LGN?

Answer 8

Remain SEGREGATED

Question 9

How is the LGN organised?

Answer 9

Retinotopically

Question 10

Why can we not used imaging to find out some of the functions of the LGN?

Answer 10

It is located deep within the brain

Question 11

What is a new way of imaging the LGN?

Answer 11

Insert a tiny microscope into the brain

Question 12

How do the ganglion cells make connections with the neurons in the LGN?

Answer 12

One to one connection

Question 13

What are the receptive fields of the LGN neurons similar to?

Answer 13

The receptive fields of the ganglion cells

Question 14

What are the non-retinal inputs to the LGN?

Why?

Answer 14

• Neurons of the V1 cortex - to regulate the synaptic input to the LGN, for feedback
• Local interneurons in the LGN - to shape the activity of other neurons

Question 15

Describe the ventral pathway

Answer 15

P-ganglion cells - input to the P-cell layers of the LGN

Input to the V1 cortex
To the V2 and V4 cortical areas

To the inferior temporal cortex

Question 16

Describe the dorsal pathway

Answer 16

M-ganglion cells - input to the M-cell layers of the LGN

To the V1 cortex
To the V2 and V3 cortical area

To the posterior parietal cortex

Question 17

The further along the dorsal or ventral pathways, what happens to the neurons?

What does this allow?

Answer 17

They become more complex

Allows them to respond to more complex shapes

Question 18

Do the ventral and dorsal pathways interact with each other?

Answer 18

Yes

Question 19

What is the ‘Jennifer Aniston’ theory?

What is the alternative to this theory?

Answer 19

Jennifer Aniston theory:
A single neuron responds to a specific object

Alternative theory:
Large number of neurons which respond to MANY objects, but each object in a DIFFERENT way

Question 20

If the ‘Jennifer Aniston’ theory is true, what does stimulating a specific neuron lead to?

Answer 20

Perception of the specific object that it responds to

Question 21

What 2 things can the visual system do, as well as recognise objects that are different to each other?

Answer 21

1) Recognise objects in any orientation

2) Recognise objects independantly of their size

Question 22

What does the hierarchical model of object recognition state?

Answer 22

Along the ventral stream, neurons respond to more and more complex shapes

Question 23

What are the different stimulus complexity that can be responded to at different stages the ventral stream? (in regards to the hierarchical model of object)

Answer 23

Detection of EDGES

Detection of a combination of EDGES and CONTOURS

Detection of object PARTS (eg. face)

Detection of object from one point of VIEW

View-invariant object detection (eg. rabbit, car)

Categorisation (eg. human, animal, vehicle)

Question 24

How can we test the hierarchical model of object recognition?

What do these tests show? Why?

Answer 24

Lesions in the inferior temporal cortex
- Show a decrease in the ability to recognise objects

Modelling and electrophysiology studies
- DON’T prove the model, as need to be able to image the neurons

Question 25

As well as increasing in complexity, what else increases along the ventral stream?

Answer 25

Increase in receptive field size of neurons

Question 26

How many layers are there in the cortex?

Answer 26

6

Question 27

What do different layers of the cortex contain?

What does this mean?

Answer 27

Some layers contain more cell bodies than other layers
Different layers contain different cells that perform different functions

Means that different layers of the cortex have different functions

Question 28

Where do cells in the LGN send their axons?

What does this allow

Answer 28

Different types of cells from the LGN (from the different LGN layers) send their projections to different layers of the cortex

To keep segregation of inputs (from the different parts of the retina) that are already segregated in the LGN

Question 29

What do interneurons in the cortex do?

Answer 29

Receive information from one layer and send projections to another layer

Question 30

As well as specific inputs to the different cortical areas, what else is specfic?

Answer 30

Specific output from each layer to different areas of the brain

Question 31

What are ‘columns’ in the cortex?

Where are they present?

Answer 31

Part of the brain which has very similar functions

Present in MANY cortical areas

Question 32

What are the 3 columns in the cortex?

Answer 32

1) Ocular dominance column
2) Orientation column
3) Blobs

Question 33

What do ocular dominance columns receive input from?

Answer 33

Only one eye (either the contralateral or ipsilateral eye)

Question 34

Using proline, how were ocular dominance columns visualised?

Answer 34

• Inject radioactive proline into one eye
• Proline follows the pathway of information flow (from ganglion cells, to LGN, to V1 cortex)
• Optical methods show that the proline formed stripes in the V1 cortex - representing inputs from the eye where the proline was injected

Question 35

Using radioactive glucose, how were ocular dominance visualised?

Answer 35

• Inject into the cortex
• Stimulate one eye with light
• As glucose is needed in neurons to produce energy, glucose will go into the active neurons
• See stripes of input, depending if input from ipsilateral or contralateral eye

Question 36

What are orientation columns?

Answer 36

Neighbouring parts of the brain which respond to different orientations of bars of light/different orientation in motion

Question 37

How are orientation columns different to each other?

Answer 37

They have different neurons with different properties

Question 38

Where are orientation columns observed in the brain?

Answer 38

In many areas, including the LGN

Question 39

What do blobs in the brain process?

Answer 39

Information about colour

Question 40

What are hypercolumns?

Answer 40

Columns in some parts of the brain that have all 3 columns:

• Blobs
• Ocular dominance
• Orientation

And can process ANY type of information

Question 41

What did Hubel and Wiesel do?

What did they discover?

Answer 41

Worked on the V1 cortex in cats

Discovered different orientations of light produces different responses in different neurons

Question 42

Where do ocular dominance columns extend through?

Answer 42

The entire thickness of the cortex

Question 43

For a particular neuron, when if the weakest response, when changing the orientation of the bars of light?

What graph does this produce

Answer 43

Weakest response when the orientation is PERPENDICULAR to optimum

Produces a bell shaped curve - where the most activity occurs when the bar of light is in the optimum orientation

Question 44

What do simple cells of the cortex respond to?

Answer 44

Orientation but ONLY when the stimulus is in the CENTRE of the receptive field

Question 45

Where are simple cells found in the V1 cortex?

Answer 45

In layers 4 and 6

Question 46

How is the receptive field of the cortical simple cells different to the receptive field of the ganglion cells and LGN neurons?

Answer 46

Elongated vertically

Whereas in the ganglion cells and LGN - it is round

Question 47

Why does the receptive field of the simple cells change from round shaped?

Answer 47

Several neurons in the LGN orientated in ONE LINE feed to the SAME neuron (simple cell) in the visual cortex

Receptive field of the neurons synapsing onto the simple cell are located in one line - simple cell then has an elongated receptive field

Question 48

What layer of the cortex are orientation columns not present?

Answer 48

Layer I

Question 49

What do complex cells of the cortex respond to?

Answer 49

Orientation presented ANYWHERE in the visual field

Question 50

Where are complex cells found in the V1 cortex?

Answer 50

Found in layers 2,3,5

Question 51

Where do complex cells in the V1 cortex receive input from?

Answer 51

MANY simple cells with SIMILAR orientation of receptive field

BUT in different POSITIONS in the receptive field

Question 52

What is a ‘hypercomplex’

Answer 52

An END-STOPPED complex cell

Question 53

What do hypercomplex cells respond to?

Answer 53

CHANGES in orientation that are produced by a right angle of stimulus (with combination of edges)

Question 54

What are the inputs to the V1 cortex?

Answer 54

From M-cell and P-cell layers of the LGN

Question 55

Where do outputs from the V1 cortex go to?

Answer 55

• Other cortical areas

- LGN and deep structures

Question 56

What happens to the receptive fields downstream of V1?

Answer 56

Increase in size

Increase in complexity

Question 57

Where are face sensitive neurons present?

Answer 57

In the inferior temporal cortex

Question 58

What happens to face sensitive neurons when you start to remove features from a face?

Answer 58

Face sensitive neurons spike less

Question 59

What do face sensitive neurons respond to?

Answer 59

Shapes that resemble faces

Question 60

What happens to the face sensitive neurons when they are repeatedly shown the same ‘face’ or the ‘face’ stimulus is prolonged?

Answer 60

They undergo adaptation

Question 61

What is present at the top of the heirarchical model?

What are these called?

Answer 61

Neurons which respond to VERY specific objects

Called the ‘grandmother cell’ or the ‘Jenifer Aniston’ neuron

Question 62

What does particular Jenifer Aniston neurons respond to?

Why is it called this?

Answer 62

Responds specifically to presentation of PARTICULAR IMAGES

Found that a particular neuron responds to imges of JS but not of other people

Question 63

What are the problems with the heirarchical model?

Answer 63

• It is a feedforward model and doesn’t take into account feedback from higher cortical areas
• Poor in scale and orientation invariance

Question 64

What is top-down regulation?

Answer 64

Feedback from higher cortical areas