Biopsychology: Ways of Studying the Brain NEW

Question 1

Name four ways of studying the brain

Answer 1

Functional Magnetic Resonance Imaging (fMRI)
Electroencephalograph (EEG)
Event Related Potentials (ERP)
Post mortems

Question 2

What does EEG stand for?

Answer 2

Electroencephalograph

Question 3

What does fMRI stand for?

Answer 3

Functional Magnetic Resonance Imaging

Question 4

What does ERP stand for?

Answer 4

Event Related Potentials

Question 5

What does fMRI identify changes in?

Answer 5

Oxygen levels in the blood due to brain activity

Question 6

What is the 3D image from an fMRI called?

Answer 6

Activation Map

Question 7

What has fMRI been used to study?

Answer 7

Which specific parts of the brain are active in particular processes.

Question 8

In an fMRI, what does increased blood flow show?

Answer 8

When a brain area is active

Question 9

fMRI is a much safer way of studying the brain than …

Answer 9

PET scans

Question 10

In terms of resolution, what can we say about fMRI?

Answer 10

High spatial
Low temporal

Question 11

In EEG, where are the electrodes placed?

Answer 11

On the scalp

Question 12

What does an EEG detect?

Answer 12

Small electrical changes from brain cell activity.

Question 13

What have EEGs been used to study?

Answer 13

Sleep Patterns
Arousal
Brain tumors
Epilepsy

Question 14

How are the electrical signals seen in an EEG?

Answer 14

Graphed over a period of time

Question 15

In terms of resolution, what can we say about EEG?

Answer 15

High temporal
Low spatial

Question 16

How is an ERP similar to an EEG?

Answer 16

Electrodes are placed on the scalp

Question 17

How is an ERP different to an EEG?

Answer 17

EEG shows general activity whereas ERP shows specific brain activity

Question 18

In an ERP, how is a stimulus presented?

Answer 18

Many times

Question 19

In an ERP, what is filtered out?

Answer 19

All extraneous brain activity

Question 20

In terms of resolution, what can we say about ERP?

Answer 20

High temporal
Low spatial

Question 21

Why is it hard to get meaningful data from a ERP?

Answer 21

It can take many trials as they are affected by external factors e.g. noise

Question 22

When is a post-mortem conducted?

Answer 22

After death

Question 23

What do they do in a post-mortem?

Answer 23

Examine and dissect the brain to identify and physical/structural abnormalities.

Question 24

What do they compare in a post-mortem?

Answer 24

A brain with a disorder/mental process with one that doesn’t show this.

Question 25

Identify one area of the brain located by post-mortem.

Answer 25

Broca’s area

Question 26

Why might a post-mortem lack internal validity?

Answer 26

They are affected by extraneous variables such as age, medication or time of death.

Question 27

When is the use of post-mortem most valuable?

Answer 27

When trying to study the deeper areas of the brain such as the hypothalamus

Question 28

Why is fMRI a much safer technique to measure brain activity?

Answer 28

It is non-invasive and doesn’t use radiation to identify differences in brain areas

Question 29

Why are PET scans less safe than fMRIs?

Answer 29

They use small amount of radiation which could lead to potential harm

Question 30

fMRIs have higher spatial resolution compared to which other brain scanning techniques?

Answer 30

EEG and ERP

Question 31

Why is high spatial resolution a strength of fMRI?

Answer 31

It can accurately identify specific brain areas involved in behaviour, depicting detail by the millimetre and providing a clear image of how the brain is localised

Question 32

Name two strengths of fMRI compared to other scanning techniques

Answer 32

Safer technique compared to PET scans
Higher spatial resolution compared to EEG and ERP

Question 33

Name one weakness of fMRI

Answer 33

Poor temporal resolution

Question 34

Why do fMRI have poor temporal resolution?

Answer 34

There is around a 5 second time lag behind the image on the screen and the initial firing of neuronal activity

Question 35

What is a consequence of fMRI having poor temporal resolution?

Answer 35

They may not truly represent moment-to-moment brain activity

Question 36

EEGs are high in temporal resolution, what does this enable a researcher to do?

Answer 36

Take a real time recording of brain activity rather than a still image of the brain

Question 37

Why do EEGs provide a greater insight into processes of the brain, such as the activity of the brain during sleep?

Answer 37

Due to being high in temporal resolution and the researcher being able to take real time recordings of brain activity

Question 38

Why can researchers gain a more accurate measure of general brain activity in a particular task when using an EEG?

Answer 38

Due to being high in temporal resolution and the researcher being able to take real time recordings of brain activity

Question 39

EEGs enable the researcher to take real time recordings of brain activity. What is a consequence of this?

Answer 39

Researchers can gain a more accurate measure of general brain activity in a particular task /
Researchers can gain a greater insight into the processes of the brain, such as the activity of the brain during sleep

Question 40

Give one strength of EEGs

Answer 40

High in temporal resolution

Question 41

Give one weakness of EEGs

Answer 41

Low in spatial resolution

Question 42

Why is low spatial resolution a weakness when using an EEG?

Answer 42

It can only provide information on general activity in the brain, and cannot pinpoint the exact source of neural activity that is involved in behaviour

Question 43

What is the difference between an EEG and an ERP in spatial resolution?

Answer 43

EEGs can only provide information on general activity in the brain, whereas ERPs enable a researcher to identify specific brain activity in a particular task

Question 44

Why might findings from an EEG be less valuable in developing our understanding of the brain?

Answer 44

Due to being low in spatial resolution and researchers not being able to pinpoint the exact source of neural activity that is involved in behaviour

Question 45

ERPs have high temporal resolution especially when compared to which other brain scan?

Answer 45

fMRI

Question 46

Why is high temporal resolution a strength when using an ERP?

Answer 46

Brain activity can be identified every millisecond so researchers can see brain activity in real time

Question 47

In terms of resolution, what is an ERP high and low in?

Answer 47

High temporal resolution, Low spatial resolution

Question 48

Why do ERPs have poor spatial resolution, compared to fMRI?

Answer 48

They can only detect brain activity in general brain areas rather then identify the specific location of brain activity

Question 49

Why can it be hard to obtain meaningful data from the use of ERPs?

Answer 49

They can be affected by external factors such as background noise which means that it can take many trials as it is hard to control these other factors

Question 50

ERPs can be affected by external factors such as background noise. Why is this a weakness?

Answer 50

It can take many trials to obtain meaningful data as it is hard to control these other factors

Question 51

Post-mortems are the only invasive way to study the brain. Why is this a strength?

Answer 51

It is possible to get a more detailed examination of the brain compared to EEG and ERPs

Question 52

What deeper area of the brain have researchers been able to study through use of post-mortems?

Answer 52

Hypothalamus

Question 53

Why is it hard to establish cause and effect with post-mortem studies?

Answer 53

There are many extraneous variables which cannot be easily controlled such as how long a person had a particular disorder/age at time of death/whether they have received drug treatment for their disorder

Question 54

It is hard to establish cause and effect with post-mortem studies as there are many extraneous variables which cannot be easily controlled.

What is a consequence of this?

Answer 54

It can be more challenging to interpret the role of specific brain areas in behaviour, limiting the internal validity of findings of post-mortem studies

Question 55

Give an example of an extraneous variable that cannot be easily controlled in post-mortem studies

Answer 55

How long a person had a particular disorder / age at time of death / whether they have received drug treatment for their disorder

Question 56

Why can it be more challenging to interpret the role of specific brain areas in behaviour when using post-mortems?

Answer 56

It is hard to establish cause and effect with post-mortem studies as there are many extraneous variables which cannot be easily controlled

Question 57

Which brain scan involves identifying changes in the levels of oxygen in blood?

Answer 57

fMRI

Question 58

In an fMRI, what happens when a brain area is more active?

Answer 58

More oxygen is used so there is an increase of blood flow to this area

Question 59

When is an fMRI used?

Answer 59

To identify which specific parts of the brain are active in particular mental processes (showing localisation)

Question 60

Which brain scan is used to identify which specific parts of the brain are active in particular mental processes (showing localisation)?

Answer 60

fMRI

Question 61

What do EEGs detect?

Answer 61

Small electrical changes resulting from the activity of brain cells

Question 62

In which brain scan are electrical signals graphed over a period to see a person’s general brain activity?

Answer 62

EEG

Question 63

When is an EEG used?

Answer 63

To detect sleep patterns and states such as sleep or arousal / To diagnose conditions such as brain tumours and epilepsy

Question 64

Which brain scan is used to detect sleep patterns and states such as sleep or arousal / To diagnose conditions such as brain tumours and epilepsy?

Answer 64

EEG

Question 65

How is an ERP different to an EEG?

Answer 65

ERPs show the brain’s response to a specific stimulus, EEGs show general brain activity

Question 66

How do ERPs show the brain’s response to a specific stimulus?

Answer 66

1) A stimulus is presented to an individual many times and brain activity is measured
2) All extraneous brain activity from the original EEG recording is filtered out
3) Only those responses that link to the presentation of the stimulus is left

Question 67

What do ERPs look like?

Answer 67

Graphed, and a base line measure line is shown with a test line to the difference in brain activity to specific stimuli

Question 68

When is an ERP used?

Answer 68

To study a range of cognitive processes such as attention, memory or perception in response to a specific stimuli

Question 69

Which brain scan is used to study a range of cognitive processes such as attention, memory or perception in response to a specific stimuli?

Answer 69

ERP

Question 70

What two types of brain are compared in a post-mortem?

Answer 70

Healthy brains, Those with a disorder

Question 71

Who are post-mortems mainly used on?

Answer 71

People who have a rare disorder or defects

Question 72

In a post-mortem, the brain of a dead patient is examined and dissected to see if there are any physical/structural abnormalities.

What is this brain then compared to?

Answer 72

A brain that does not show this behaviour or mental process

Question 73

Give an example of how post-mortems have been used to identify localised areas of the brain

Answer 73

Identification of Broca’s area as an important brain area for speech production