BB2 Revision11

Question 1

What are the three main molecular targets for cocaine? [3]

Answer 1

DA, NAd (nicotinamide adenine dinucleotide) and 5-HT uptake systems

Question 2

Name 3 selected genes involved in the vulnerability to develop opiate or cocaine addiction [3]

Answer 2

OPRM: Mu opoid receptor
OPRK: kappa opoid receptor
OPRD: delta opoid receptor

Probably don’t need to know in loads of detail

Question 3

Describe the mesolimbic pathway that controls reward circuits in the brain [2]

Which NT controls this pathway? [1]

Answer 3

dopaminergic projection from the ventral tegmental area
to the nucleus accumbens is essential in reward and drug dependence

Question 4

State two changes to brain metabolism in cocaine addicts [2]

Answer 4

Reduced availability of dopamine D2 receptors

Reduced cortical metabolism in cocaine abusers

Question 5

How many units a week is alcohol abuse? [1]

Answer 5

14 units a week

Question 6

Describe the effects of acute [2] and chronic [1] alcohol abuse on the brain [1]

Answer 6

Acute alcohol ingestion:
* leads to depressed excitatory transmission
* potentiated inhibitory transmission

Chronic:
* Shrinkage of brain grey matter in alcoholic patients

Question 7

Release of which molecule drives the physchomotor effect of MDMA use? [1]

Answer 7

5-HT release

Behavioural effects co-incide with time course of 5-HT release

Question 8

Describe the physiological consequence of long term MDMA use [1]

Describe three effects of brain function from long term MDMA use [3]

Answer 8

MDMA:

• glucose metabolism reduces
• Causes decreased learning perfomance, recall, recall consistency

Question 9

Describe 6 effects that occur from acute MDMA toxicity [6]

Answer 9

Temperature elevation

Disseminated intravascular coagulation

Rhabdomyolysis (blocked by dantrolene)

Increased renal reabsorbtion of water

Hyponatraemia

Cerebral oedema

Question 10

Describe impact of long term MDMA use on axons in brain [1]

Answer 10

Loss of serotonin axons after long term MDMA use

Question 11

Cannabinoids bind to [] and [] receptors

Main agonist present in cannabis preparations: []

Answer 11

Cannabinoids bind to CB1 and CB2 receptors

Main agonist present in cannabis preparations: THC

Question 12

Which drug can be used for reduction of alcohol consumption? [1]

Describe MoA [1]

Answer 12

nalmefene: opiate antagonist

Question 13

Which of the following is ketamine’s target?

NMDA glutamate receptors
CB1 receptors
GABA-A receptors
5HT3 receptors

Answer 13

Which of the following is ketamine’s target?

NMDA glutamate receptors: antagonist
CB1 receptors
GABA-A receptors
5HT3 receptors

Question 14

Which of the following are ethanol’s targets? [2]

NMDA glutamate receptors
CB1 receptors
GABA-A receptors
5HT3 receptors

Answer 14

Which of the following are ethanol’s targets? [2]

NMDA glutamate receptors
CB1 receptors
GABA-A receptors - agonist
5HT3 receptors

Question 15

A 32-year-old male with opioid use disorder presents to the emergency department with chest pain radiating to the left arm. Pain is rated at 5/10 and described as tightness. Currently, he is not in pain, and his vital signs are stable. For his addiction, he is currently receiving methadone prescriptions with occasional relapses for over a year. Given the chronicity of his addiction, where would changes in the patient’s brain be expected, and what neurotransmitter would be involved?

A. Occipital lobe and serotonin
B. Temporal lobe and norepinephrine
C. Prefrontal region and dopamine
D. Wernicke’s area and dopamine

Answer 15

C. Prefrontal region and dopamine

Question 16

A 24-year-old male patient is seen in the emergency department with paranoid behavior and agitation. He attended a party an hour ago but refused to disclose any further information. His blood pressure is 160/100 mmHg, heart rate is 130 bpm, respiratory rate 20/minute, and the temperature is 38 degrees Celsius. ECG reveals wide QRS complexes suggestive of ventricular tachycardia. What drug was most likely ingested?
A. Heroin
B. Cocaine
C. Methylenedioxyamphetamine (MDMA, ecstasy)
D. Phencyclidine (PCP)

Answer 16

B. Cocaine

Question 17

Other than dopamine, which NTs become implicated in drug addiction / drug tking behaviour? [2]

Answer 17

gaba; glutamate

Question 18

If an addict had an impaired ability to perform the following, which part of their brain is most likely to be affected? [1]

Attention and flexibility
Working memory
Decision making
Awareness and insight
Learning and memory
Salience attribution

Answer 18

prefrontal cortex

Question 19

Explain an example of how chronic drug abuse can alter gene expression and therefore change brain structure [1

Answer 19

Chronic drug use causes an increase in the expression of expression of ΔFosB gene

Fos family of transcription factors, accumulates within a subset of neurons of the nucleus accumbens and dorsal striatum

FosB functions as a type of sustained “molecular switch” that gradually converts acute drug responses into relatively stable adaptations that contribute to the long-term neural and behavioral plasticity that underlies addiction.

Question 20

CB1 receptors are concentrated in the []

CB2 receptors are present in [] and are associated
with the [] system

Answer 20

CB1 receptors are concentrated in the central nervous system

CB2 receptors are present in peripheral organs and are associated
with the immune system

Question 21

Which aspect of cannabis has potential to treat treatment-resistance eplepsy? [1]

Answer 21

Cannabidiol (CBD)

Question 22

Activation of which receptor by dynorphins and GABA-A underlines the mechanism of withdrawal symptoms

NMDA receptors
Mu opoid receptors
Dopamine (D1) receptors
Kappa opoid receptors

Answer 22

Activation of which receptor by dynorphins and GABA-A underlines the mechanism of withdrawal symptoms

NMDA receptors
Mu opoid receptors
Dopamine (D1) receptors
Kappa opoid receptors

Question 23

State the impact of spine density and dendrite branching due to cocaine [1] and morphine [1] abuse

Answer 23

Cocaine: increases spine density and dendrite branching

Morphine: Decreases spine density and dendrite branching

Question 24

Important brain structures for arousal/sleep? [3] update !!

Answer 24

Ascending reticular activating system (ARAS): Important for alerting or arousal

Hypothalamus

Circadian clock
Suprachiasmatic nucleus (SCN) – promote arousal.

Question 25

What is the prognosis of coma patients? [1]

Answer 25

A third of coma patients die within one month.

Question 26

outcome of tbi

Question 27

What are the different parameters for the Post Trauma amnesia scoring used to assess TBI? [3]

Answer 27

PTA:
Mild: less than 24hrs
Mild: 1-7 days
Severe: >7days

Question 28

State the scores for GCS and LOC that would be classified as

Mild
Moderate
Severe

Exam qs

Answer 28

GCS:
* Mild: 13-15
* Moderate: 9-12
* Severe: 3-8

LOC:
* Mild: 0-30min
* Moderate: 30min - less than24hrs
* Severe: >24 hrs

Question 29

Define locked-in syndrome [1]

Answer 29

A state of unresponsiveness in which patient lies with eyes closed and cannot be aroused to respond appropriately to any stimuli. However, patient retains eye movement and are fully conscious

Question 30

Where in the brain does locked-in syndrome occur because of injury to? [1]

Which tracts are effected if this area is damaged? [2]

Answer 30

ventral pons

causing interruption to corticospinal and corticobulbar tracts

Question 31

Define vegetative state / unresponsive wakefullness syndrome [1]

Answer 31

Spontaneous eye-opening signalling wakefulness, but no evidence of purposeful behaviour suggesting awareness of self or environment.

No purposeful behaviours when exposed to stimuli: visual, auditory, tactile or noxious, and no language comprehension or expression.

Question 32

Where does damage occur in brain if create decoticate or decerebrate damage? [2]

Answer 32

Decorticate (Damage above red nucleus): arms adducted and flexed, legs internally rotated and plantar flexed

Decerebrate (Damage below red nucleus): arms adducted and extended, legs stiffly extended and plantar flexed: Between the vestibular nuclei and red nuclei

Question 33

How long does a vegetative state need to persist before it is classified as permenent vegetative state after brain injury? [1]

Answer 33

12 months

Question 34

Define minimally conscious state (MCS) [1]

Name three characteristics [3]

Answer 34

Condition of severely altered consciousness in which there is definite, but often subtle and inconsistent, behavioural evidence of self or environmental awareness.

E.g.
* Recognise verbal or gestural ‘yes or no’ responses.
* Follow simple commands.
* Provide purposeful movements (e.g. smile, raise a limb,
use objects (e.g. hairbrush) in a consistent manner).

Question 35

State 4 characteristics of a confusional state [4]

Answer 35

• Interactive communication.
• Amnesia/confusion (weeks – months).
• Hypokinetic or agitated.
• Labile behaviour (e.g. rapid & exaggerated mood changes- laughing/crying).

Question 36

State 4 characteristics of post-confusional state

Answer 36

• Resolution in amnesia/confusion (months to years).
• Cognitive impairments in higher levels of attention, memory retrieval, and executive functioning.
• Deficits in self-awareness, social awareness, behavioural and emotional regulation.
• Achieve functional independence in daily self care.

Question 37

What is the percentage rate of recovery from:

<6months of persistent vegetative state? [1]
1 year of persistent vegetative state? [1]
3 years of persistent vegetative state? [1]

Exam q!

Answer 37

What is the percentage rate of recovery from:

<6months of persistent vegetative state: 40%
1 year of persistent vegetative state: 10%
3 years of persistent vegetative state: 5%

exam q

Question 38

Describe the mechanism of assessing consciousness (Auditory stimulation) using Auditory event-related potential (AERP)

Answer 38

Aim to identify a mismatch negativity (MMN, a negative component appearing in the primary auditory and prefrontal cortices around 100-250 ms after an auditory change in a monotonous sequence of sounds (e.g. an oddball paradigm).

Aim to identify a P300 (a positive component appearing in the primary auditory and prefrontal cortices around 300 ms after an auditory change in a monotonous sequence of sounds (e.g. an oddball paradigm).

Question 39

Which imaging modalities could you use to assess consciousness? [2]

Answer 39

Stimulation (e.g. auditory, tactile, visual) could carried out on the patient during imaging.

PET scan
Blood oxygenation level dependent (BOLD) fMRI

Question 40

PVS treatment

Name a drug and describe MoA that may help to recover [3]

Answer 40

Amantadine
* NMDA receptor antagonist and block dopaminergic reuptake
* Improves functional recovery rate

Question 41

PVS treatment

Name another drug and describe MoA that may help to recover [3]
What is this drug usually given for treatment for? [1]

Answer 41

Zolpidem
* Indirect GABAA receptor agonist
* Usually
* Causes patient to become awake, but short acting and return to vegetative state

Question 42

What is the hypothesis for zolpidem treatment?

Answer 42

Loss of active inhibition from striatum allows GPi to tonically inhibit thalamus and pedunculopontine nucleus, so thalamocortical overactivity

Question 43

Which nuclei at the hypothalamus are important with sleep / arousal? [2]
State if they promote sleep or arousal [2]

Answer 43

Tuberomammillary nucleus (TMN) – promote arousal.
Ventrolateral preoptic nucleus (VLPO) – promotes sleep

Question 44

Which part of the ARAS influences sleep / arousal? [3]

Answer 44

rostral brainstem tegmentum (i.e. pontine tegmentum).
via diencephalon (i.e. thalamus).
projections to the cerebral cortex (i.e. Lateral prefrontal cortex).

Question 45

Tuberomammillary nucleus increases arousal by secreting which of the following

5-HT
Histamines
Orexins
Noradrenaline
GABA

Answer 45

Tuberomammillary nucleus increases arousal by secreting which of the following

5-HT
Histamines
Orexins
Noradrenaline
GABA

Question 46

Ventrolateral pre-optic nucleus in the hypothalamus increases sleep by secreting which of the following

5-HT
Histamines
Orexins
Noradrenaline
GABA

Answer 46

Ventrolateral pre-optic nucleus in the hypothalamus increases sleep by secreting which of the following

5-HT
Histamines
Orexins
Noradrenaline
GABA & Galamin

Question 47

The raphe nucleus secretes which of the following

5-HT
Histamines
Orexins
Noradrenaline
GABA

Answer 47

The raphe nucleus secretes which of the following

5-HT
Histamines
Orexins
Noradrenaline
GABA

Question 48

The locus coeruleus secretes which of the following

5-HT
Histamines
Orexins
Noradrenaline
GABA

Answer 48

The locus coeruleus secretes which of the following

5-HT
Histamines
Orexins
Noradrenaline
GABA