Building Brains 2

Question 1

Define ‘pain’. (1)

Answer 1

An unpleasant sensory and emotional experience associated with, or resembling that associated with, actual or potential tissue damage.

Question 2

What is the difference between ‘nociception’ and ‘pain’? (2)

Answer 2

Nociception is the detection of noxious events in the environment.

Pain is the emotional response/feelings associated with nociception.

Question 3

Name three types of afferent sensory nerve fibres in humans. (3)

Answer 3

A beta
A delta
C

Question 4

Give the relative sizes of Ab, Ad, and C sensory fibres. (3)

Answer 4

Ab - Largest
Ad - Medium
C - Smallest

Question 5

Which (if any) of the three sensory afferent nerve fibres in humans are myelinated? (3)

Answer 5

Ab and Ad are myelinated.

C are unmyelinated.

Question 6

Describe the relative conduction velocities and thresholds for the three sensory afferent nerve fibres in humans. (6)

Answer 6

Ab - Fast conduction, low threshold

Ad - Fast conduction, medium-high threshold

C - Slow conduction, high threshold

Question 7

Which neurotransmitter/s are released by A beta sensory fibres? (1)

Answer 7

Glutamate

Question 8

Which neurotransmitter/s are released by A delta sensory fibres? (1)

Answer 8

Glutamate

Question 9

Which neurotransmitter/s are released by C sensory fibres? (1)

Answer 9

Neuropeptides
(eg. substance P, CGRP, somatostatin)

Question 10

Give the three ‘types’ or stimuli which can cause pain. (3)

Answer 10

• Thermal
• Mechanical
• Chemical

Question 11

Which modalities do A beta sensory afferent fibres transmit? (3)

Answer 11

• Light touch
• Pressure
• Vibration

Question 12

Which modalities do A delta sensory afferent fibres transmit? (3)

Answer 12

• Touch
• Temperature
• Sharp pain

Question 13

Which modalities do C sensory afferent fibres transmit? (4)

Answer 13

• Noxious temperature
• Itch
• Significant pressure
• Dull pain

Question 14

Describe ‘first pain’. (3)

• Neurones
• Localisation
• Time course

Answer 14

Carried by A delta fibres

Can be accurately localised because nerve endings are bunched together

Begins quickly (high conduction velocity) and goes away quickly (because glutamate rapidly removed from synapse)

Question 15

Describe ‘second pain’. (3)

• Neurones
• Localisation
• Time course

Answer 15

Carried by C fibres

Location more generalised because nerve endings are spread out

Begins slowly (slow conduction velocity) and lasts longer (as neuropeptides slowly removed from synapse)

Question 16

True or false (1):

A delta and C fibres are solely afferent neurones which transmit pain signals to the spinal cord.

Answer 16

False - they can have efferent roles too such as vasodilation and plasma extravasation

Question 17

Which part of the spinal cord receives sensory information? (1)

Answer 17

Dorsal horn

Question 18

Which dorsal horn laminae receive input from pain specific neurones? (1)

Answer 18

I and II

Question 19

Which dorsal horn laminae receive input from touch specific neurones? (1)

Answer 19

III and IV

Question 20

What is the role of lamina V of the dorsal horn? (1)

Answer 20

Integrates sensory input from all sensory neurone types.

Question 21

True or false (1):

Although pain stimuli are processed by laminae I and II of the dorsal horn, laminae III and IV are also activated in response to a painful stimulus.

Answer 21

True - The touch neurones synapsing on laminae III and IV will also be activated because the high threshold stimulus will have surpassed the low threshold of A beta fibres.

Question 22

Second order sensory neurones which relay pain signals to the brain mostly arise in which laminae of the dorsal horn? (2)

Answer 22

I and V

Question 23

To which laminae of the dorsal horn does pain descending modulation usually project to? (1)

Answer 23

II

Question 24

When first order sensory neurones enter the dorsal horn of the spinal cord, they can synapse onto which two general types of neurones? (2)

Answer 24

• Interneurones
• Projection neurones

Question 25

Which laminae of the dorsal horn do A delta and C fibres synapse on? (1)

Answer 25

I, II, V

Question 26

Which laminae of the dorsal horn do A beta synapse on? (1)

Answer 26

III, IV, V

Question 27

Which lamina of the dorsal horn are A delta neurones MORE LIKELY to synapse on? (1)

a) I
b) II

Answer 27

I

Question 28

Which lamina of the dorsal horn are C neurones MORE LIKELY to synapse on? (1)

a) I
b) II

Answer 28

II

Question 29

What is the role of the spinoparabrachial tract in pain? (1)

Answer 29

Forms connections with the amygdala and basal ganglia to play a role in the emotional response to pain.

Question 30

Apart from the amygdala and basal ganglia, name two other brain structures which may play a role in the emotional perception of pain. How do these structures receive their signals? (3)

Answer 30

Cingulate cortex and insula, which receive signals via the thalamus

Question 31

How is the periaqueductal grey involved in pain? (1)

Answer 31

Provides descending pain modulation when stimulated.

Question 32

Give six inputs to the PAG in the context of pain. (6)

Answer 32

• Prefrontal cortex (cingulate and insula)
• Spinal cord dorsal horn
• Amygdala
• Nucleus accumbens
• Hypothalamus
• Locus coeruleus

Question 33

Which part of the PAG organises descending modulation of pain systems? (1)

Answer 33

Ventrolateral

Question 34

Which part of the PAG organises autonomic functions? (1)

Answer 34

Dorsolateral

Question 35

Which part of the PAG projects to the thalamus and frontal cortex as part of the ascending pain pathways? (1)

Answer 35

Rostral

Question 36

From which sensory fibres does the ventrolateral PAG receive most of its input? (1)

Answer 36

C

Question 37

From which sensory fibres does the dorsolateral PAG receive most of its input? (1)

Answer 37

A

Question 38

Describe the descending pain pathway from PAG to spinal cord. (3)

Answer 38

• Ventrolateral PAG
• Rostral ventral medulla (also called nucleus raphe magnus)
• Spinal cord dorsal horn

Question 39

Describe two ways in which descending signals from the PAG can modulate pain pathways. (2)

Answer 39

• Postsynaptic inhibition of dorsal horn neuronal activity
• Presynaptic inhibition of NT release from nociceptors

Question 40

Which neurotransmitters can be used in the descending pain pathways? (3)

Answer 40

• Opioids
• Serotonin
• Noradrenaline

Question 41

What is ‘hyperalgesia’? (1)

Answer 41

Increased responsiveness to a normally noxious stimulus.

Question 42

What is ‘allodynia’? (1)

Answer 42

Pain or unpleasant sensation evoked by normally non-painful stimulation.

Question 43

What is ‘spontaneous pain’? (1)

Answer 43

Pain with no obvious immediate cause.

Question 44

Describe primary hyperalgesia. (4)

Answer 44

Peripheral neuronal changes

to thermal and mechanical stimuli

over a small area surrounding injury

which occurs quickly.

Question 45

Describe secondary hyperalgesia. (4)

Answer 45

Central nervous system changes

to mechanical stimuli

over a large region surrounding injury

which occurs over a longer period of time.

Question 46

Describe the effect of intensity and unpleasantness of pain perceived by somebody with a bad mood. (2)

Answer 46

Intensity remains the same but unpleasantness increases.

Question 47

Describe the effect of intensity and unpleasantness of pain perceived by somebody who is paying less attention/is distracted. (2)

Answer 47

Intensity decreased but unpleasantness is the same.

Question 48

Which cortical structure is generally regarded as the place where emotional and conscious perceptions of pain are integrated? (1)

Answer 48

Insular cortex

Question 49

Are limbic system structures cortical or subcortical? (1)

Answer 49

Mixture of both

Question 50

Give two general roles of the limbic system. (2)

Answer 50

• Respond to emotional, social, and motivational stimuli
• Learning and memory

Question 51

What are the three components of an ‘emotional state’? (3)

Answer 51

• Autonomic responses
• Subjective feelings
• Cognition

Question 52

Name the four cortical components of the limbic system. (4)

Answer 52

• Cingulate gyrus
• Parahippocampal gyrus
• Orbitofrontal cortex
• Sensory association areas

Question 53

Name the 10 subcortical components of the limbic system. (10)

Answer 53

• Amygdala
• Stria terminalis
• Hypothalamus
• Anterior nucleus of the thalamus
• Septal nuclei
• Olfactory bulbs
• Hippocampus
• Fornix
• Nucleus accumbens
• Mammillary bodies

Question 54

Which lobe contains both the amygdala and the hippocampus? (1)

Answer 54

Temporal lobe

Question 55

When looking at brain slices, how do you tell the difference between the amygdala and the hippocampus? (2)

Answer 55

The amygdala is smaller and sits more anteriorly.

Question 56

Name the two main white matter structures connecting the limbic system. (2)

Answer 56

• Fornix
• Stria terminalis

Question 57

Describe how the hippocampus is connected to other structures in the limbic system. (4)

Answer 57

Connected to mammillary bodies

via the fornix

the mammillary bodies then connect to the anterior thalamus

via the mammillothalamic tract.

Question 58

Describe the role of the stria terminalis. (3)

Answer 58

Connects the amygdala

to the hypothalamus

and nucleus accumbens.

Question 59

What is the role of the septal nuclei in the limbic system? (1)

Answer 59

They regulate hypothalamic aggression.

Question 60

What is the role of the cingulate gyrus in the limbic system? (1)

Answer 60

Cognitive, attentional, and emotional processing.

Question 61

Give three roles of the hypothalamus relating to the limbic system. (3)

Answer 61

• Autonomic functions (can be related to emotion)
• Endocrine functions
• Aggression

Question 62

What are the roles of the amygdala in the limbic system? (4)

Answer 62

• Recognising fear
• Acquiring a new fear
• Producing fear responses
• Subjective experience of emotions and pleasure

Question 63

What is the role of the hippocampus in the limbic system? (1)

Answer 63

It links emotions and memory

Question 64

What is the role of the parahippocampal gyrus in the limbic system? (1)

Answer 64

Memory encoding

Question 65

Briefly describe the James Lange theory of emotion. (1)

Answer 65

Physiological status of the body triggers emotion.

Question 66

Briefly describe the Cannon Bard theory of emotion. (1)

Answer 66

Physiological state of the body and emotions occur simultaneously.

Question 67

Briefly describe the ‘simple’, or first version of the Papez circuit. (8)

Answer 67

Sensory association cortex

feeds into cingulate gyrus

which passes information to the hippocampus/parahippocampal gyrus to be processed

which passes information to the mammillary bodies (and hypothalamus)

via the fornix

which goes to the anterior thalamic nuclei

via the mammillothalamic tract

which then feeds back into the cingulate gyrus.

Question 68

After James Papez developed the Papez circuit, it was expanded by Paul MacLean to recognise the importance of which three other structures? (3)

Answer 68

Amygdala
Orbitofrontal cortex
Nucleus accumbens

Question 69

Briefly describe the pathophysiology of Kluver-Bucy syndrome. (1)

Answer 69

Bilateral temporal lobe lesions

Question 70

Give three symptoms of Kluver-Bucy syndrome which support the idea that structures important to emotion and memory are housed in the temporal lobes. (3)

Answer 70

• Placidity (poor emotional and fear responses)
• Memory difficulties
• Visual agnosia (inability to recognise familiar objects/faces)

Question 71

Where is the nucleus accumbens located and what system/s is it part of? (2)

Answer 71

Located within the caudate nucleus.

Part of the basal ganglia and limbic systems.

Question 72

Name the system which is involved in rewards and motivating behaviours. (1)

Answer 72

Mesolimbic reward system

Question 73

Which neurotransmitter is involved in mediating the pleasurable aspects of reward? (1)

Answer 73

Dopamine

Question 74

Describe the mesolimbic reward system (where does it start and where does it project to?). (4)

Answer 74

STARTS:
- Midbrain

PROJECTS TO:
- Amygdala
- Orbitofrontal cortex
- Nucleus accumbens

Question 75

What would be the effect of giving an animal a lesion in the amygdala, and then implementing fear conditioning? (1)

Answer 75

It will not work - the animal will not be able to acquire the new fear.

Question 76

What do you predict would happen if you got patients with Urbach-Wiethe disease (calcified amygdala) and showed them pictures of fearful faces? (1)

Answer 76

They would not recognise the fearful expressions.

Question 77

What is anterograde amnesia? (1)

Answer 77

Inability to produce new memories

Question 78

What is retrograde amnesia? (1)

Answer 78

Unable to recall memories which have already been formed.

Question 79

What is meant by ‘declarative’ memory? (1)

Answer 79

Memory for facts and events

Question 80

What is meant by ‘nondeclarative’ memory? (1)

Answer 80

Memory for procedures, skills, and habits.

Question 81

Describe the surgery that patient HM underwent. (1)

Answer 81

Removal of the hippocampus and parahippocampal gyrus.

Question 82

What type of amnesia did patient HM experience? (1)

Answer 82

Anterograde

Question 83

Name the three parts of the hippocampus from the ‘inside’ to the ‘outside’. (2)

Answer 83

• Dentate gyrus
• Cornu Ammonis (CA)
• Subiculum

Question 84

What is the role of the entorhinal cortex and what is its location? (2)

Answer 84

• Allows information to enter and leave the hippocampus
• Located in cortex right next to the hippocampus

Question 85

How many cortical layers does the hippocampus contain? (1)

Answer 85

Three

Question 86

In which part of the hippocampus do the three cortical layers start to transition to the six cortical layers found in the entorhinal cortex? (1)

Answer 86

Subiculum

Question 87

Name the three cortical layers found in the cornu ammonis. (3)

Answer 87

• Polymorphic
• Pyramidal
• Molecular

Question 88

Name the three cortical layers found in the dentate gyrus. (3)

Answer 88

• Polymorphic
• Granular
• Molecular

Question 89

Describe the polymorphic layer of the hippocampal cortex. (1)

Answer 89

Interneurones and cell axons

Question 90

Describe the molecular layer of the hippocampal cortex. (1)

Answer 90

Contains dendrites from neurones

Question 91

Give a definition of LTP (long-term potentiation). (1)

Answer 91

LTP is the cellular basis by which memories are formed and stored.

Question 92

Name the input pathway of the hippocampus which goes from the entorhinal cortex to the dentate gyrus. (1)

Answer 92

Perforant pathway

Question 93

Describe the hippocampal pathway associated with LTP. (6)

Answer 93

Entorhinal cortex to dentate gyrus

via perforant path

dentate gyrus to CA3

via mossy fibres

CA3 to CA1

via Schaffer collaterals

Question 94

Name the fibre type which sends signals from the dentate gyrus to CA3 of the hippocampus. (1)

Answer 94

Mossy fibres

Question 95

How are signals sent from CA3 to CA1 of the hippocampus? (1)

Answer 95

Via Schaffer collaterals

Question 96

Where do CA1 neurones of the hippocampus project to? (1)

Answer 96

The subiculum

Question 97

Name the group of specific cells in the hippocampus that are involved in spatial memory and describe how they function. (2)

Answer 97

Place cells fire depending on the location of the organism in its environment.

Question 98

How would you predict that rats would perform in the Morris maze if their hippocampus has been lesioned. (1)

Answer 98

Longer latency to escape - they would perform worse.

Question 99

Name a specific area of the brain in which adult neurogenesis occurs. (1)

Answer 99

Dentate gyrus

Question 100

In which layer of the dentate gyrus does adult neurogenesis occur? (1)

Answer 100

Sub granular zone

Question 101

Describe type 1 cells, which play a role in adult neurogenesis. (1)

Answer 101

Undifferentiated stem cells which are dormant.

(Also called radial glial cells)

Question 102

Name three proteins which are expressed in type 1 neurogenesis stem cells. (3)

Answer 102

• Nestin
• Sox-2
• GFAP

Question 103

Describe type 2 cells, which play an important role in adult neurogenesis. (1)

Answer 103

Fast proliferating cells

Question 104

Name two proteins which are expressed in type 2 neurogenesis stem cells. (2)

Answer 104

• Nestin
• Sox-2

Question 105

Fill in the gaps… (3)

In adult neurogenesis, type 2 cells become committed towards neuronal cell lineage, and are now called ………………………….

These cells develop further to become ………………………

Both of these cell types express the protein ……………………..

Answer 105

• Neuroblasts
• Immature neurones
• Doublecortin

Question 106

Give six roles of the hypothalamus. (6)

Answer 106

• Emotional responses
• Thermoregulation
• Energy metabolism
• Blood pressure / water balance / electrolytes
• Circadian rhythm
• Reproduction

Question 107

Describe the role played by the hypothalamus in emotional responses. (1)

Answer 107

Autonomic response to emotional stimuli (eg. sweating)

Question 108

Is the hypothalamus involved in mainly autonomic or endocrine functions? (1)

Answer 108

Both

Question 109

Which one of these structures does NOT lie in close proximity to the hypothalamus? (1)

a) Third ventricle
b) posterior commissure
c) Optic chiasm
d) Pituitary gland

Answer 109

Posterior commissure - the hypothalamus lies in close proximity to the anterior commissure

Question 110

Name the three zones of the hypothalamus.
Roughly how many nuclei does each zone contain? (6)

Answer 110

• Lateral zone (1 nucleus)
• Medial zone (many nuclei)
• Periventricular zone (1 nucleus)

Question 111

How many nuclei are there in the hypothalamus? (1)

Answer 111

11

Question 112

Name the eight most important nuclei of the hypothalamus. (8)

Answer 112

• Supraoptic
• Suprachiasmatic
• Preoptic
• Paraventricular
• Dorsomedial
• Lateral
• Ventromedial
• Arcuate

Question 113

Which hypothalamic nucleus/nuclei is/are involved in regulating blood pressure?

Answer 113

Supraoptic
Paraventricular

Question 114

Which hypothalamic nucleus/nuclei is/are involved in circadian rhythms?

Answer 114

Suprachiasmatic

Question 115

Which hypothalamic nucleus/nuclei is/are involved in temperature regulation?

Answer 115

Preoptic

Question 116

Which hypothalamic nucleus/nuclei is/are involved in energy regulation?

Answer 116

• Paraventricular
• Arcuate
• Ventromedial
• Lateral
• Dorsomedial

Question 117

Fill in the gaps relating to thermoregulation in the hypothalamus… (2)

The ………….. nucleus regulates temperature via the ………………… system.

Answer 117

Preoptic

Autonomic nervous

Question 118

How does the skin send temperature signals to the hypothalamus? (1)

Answer 118

Via peripheral thermoreceptors

Question 119

Name the special neurones in the preoptic nucleus which detect temperature.
Describe the response of these neurones to warmth and cold. (3)

Answer 119

Warm sensitive neurones

Activated when body is warm

Inhibited when body is cold

Question 120

Which division of the autonomic nervous system is activated when warm sensitive neurones are inhibited? (1)

Answer 120

Sympathetic nervous system

Question 121

Give three actions of the sympathetic system in regulating body temperature. (3)

Answer 121

• Vasoconstriction
• Brown fat thermogenesis
• Shivering

Question 122

Which division of the autonomic nervous system is activated when warm sensitive neurones in the hypothalamus are activated? (1)

Answer 122

Parasympathetic nervous system

Question 123

Give two actions of the parasympathetic nervous system in regulating temperature. (2)

Answer 123

• Vasodilation
• Sweating

Question 124

Name the hypothalamic nucleus which receives input relating to energy and metabolism. (1)

Answer 124

Arcuate

Question 125

How is the hypothalamus able to detect signals in the blood stream relating to energy and metabolism which cannot cross the blood brain barrier? (1)

Answer 125

The arcuate nucleus which receives input is surrounded by very low levels of BBB.

Question 126

Give three stimuli from the body which feed into the arcuate nucleus in order to regulate energy and metabolism. (3)

Answer 126

• Blood glucose/insulin levels
• Ghrelin from GI tract
• Leptin from adipose cells

Question 127

Which two signals from the body ultimately lead to increased hunger via the hypothalamus? (2)

Answer 127

Decreased blood glucose/insulin.

Increased ghrelin.

Question 128

Which two signals from the body ultimately lead to increased satiety via the hypothalamus? (2)

Answer 128

• Increased blood glucose/insulin
• Increased leptin

Question 129

Which hypothalamic nucleus does the arcuate nucleus send signals to to induce hunger? (1)

Answer 129

Lateral nucleus

Question 130

Via which neuropeptides does the arcuate nucleus signal that hunger should be increased? (2)

Answer 130

• Neuropeptide Y
• Agouti-related peptide

Question 131

Which hypothalamic nucleus is indirectly involved in feedback loops relating to hunger? (1)

Answer 131

Paraventricular

Question 132

Which hypothalamic nucleus does the arcuate nucleus send signals to to increase satiety? (1)

Answer 132

Ventromedial

Question 133

Via which neuropeptides does the arcuate nucleus signal that satiety should be increased? (2)

Answer 133

Pro-opiomelanocortin

Cocaine-and-amphetamine transcript

Question 134

Which hypothalamic nucleus is indirectly involved in feedback loops relating to satiety? (1)

Answer 134

Dorsomedial

Question 135

If someone has increased blood osmolarity, are they dehydrated or overhydrated? (1)

Answer 135

Dehydrated

Question 136

Name the two parts of the hypothalamus (not nuclei) which are able to detect increased blood osmolarity. (2)

Answer 136

• Organum on vasculosum laminae terminalis
• Subfornical organs

Question 137

The paraventricular and supraoptic nuclei stimulate what to happen in response to increased blood osmolarity? (1)

Answer 137

Vasopressin release by posterior pituitary

Question 138

As well as receiving information about blood osmolarity, the paraventricular and supraoptic nuclei also receive information about blood pressure via which nerve? (1)

Answer 138

Vagus nerve

Question 139

Describe the role of the lateral nucleus in water balance. (1)

Answer 139

Increased motivation to drink

Question 140

Name the cell type which is the output of the retina. (1)

Answer 140

Retinal ganglion cells

Question 141

The ancestral visual system regulates unconscious visual responses.
Give three output of the ancestral visual system. (3)

Answer 141

• Superior colliculus
• Pretectal nucleus (oculomotor nerve)
• Suprachiasmatic nucleus

Question 142

The primary visual system provides conscious visual perception.
Name the main nucleus involved in this pathway and describe its location. (2)

Answer 142

Lateral geniculate nucleus

Located in thalamus but in very close proximity to midbrain

Question 143

Which cells in the retina control the ancestral visual system? (1)

Answer 143

Light-sensitive ganglion cells

Question 144

Name the two possible streams that can process visual information after it has entered the primary visual cortex. (2)

Answer 144

Ventral and dorsal streams

Question 145

Describe the location of the ventral stream and its function.
What is its nickname? (3)

Answer 145

• Inferior temporal lobe
• Processes object recognition and memory
• What stream

Question 146

Describe the location of the dorsal stream and its function.
What is its nickname? (3)

Answer 146

• Posterior parietal lobe
• Object location and positioning
• Where stream

Question 147

Which nucleus links the visual system with the hypothalamus? (1)

Answer 147

Suprachiasmatic nucleus

Question 148

What happens to the cyclic rhythmicity of the body if there is a lesion in the suprachiasmatic nucleus? (1)

Answer 148

It halts

Question 149

Which of these structures is NOT in close proximity to the suprachiasmatic nucleus? (1)

a) Third ventricle
b) Optic chiasm
c) Visual cortex

Answer 149

Visual cortex

Question 150

Name five areas where pain signals are sent to the brain and briefly describe their roles in pain. (10)

Answer 150

• Brainstem (autonomic changes and spinal cord feedback)
• Thalamus (integration before sending to cortex)
• Somatosensory cortex (conscious localisation and pain recognition)
• Cingulate cortex and amygdala (emotional response)
• Hypothalamus (stress responses and neuroendocrine changes)

Question 151

Give the order in which the dorsal horn of the spinal cord would respond to each type of sensory fibre. (3)

Answer 151

1. A beta
2. A delta
3. C

Question 152

The part of the spinal cord where it tapers off is called …………………… (1)

Answer 152

The conus medullaris

Question 153

Where does the spinal cord end in an adult? (1)

Answer 153

L2

Question 154

What is the filum terminale and what is it’s function? (4)

Answer 154

A fibrous extension of the pia

coming from the conus medullaris

which stabilises the spinal cord

by anchoring it to the coccyx.

Question 155

Where do the meninges end in the spinal cord? (1)

Answer 155

S2

Question 156

Describe the lumbar cistern. (2)

Answer 156

The area of subarachnoid space

below the conus medullaris.