25. Psychiatric Disorders & Psychopharmacology

Question 2

What equation is used to determine the number of grams of alcohol per 100 ml?

Answer 2

ABV% x 0.78 = g/100 mL

Question 3

What equation is used to calculate the number of units in a given volume of alcohol?

Answer 3

ABV% x volume (ml)/1000

Question 4

What is the recommended weekly allowance of alcohol for men and women?

Answer 4

<14 units

Question 5

What is the legal driving limit for alcohol?

Answer 5

80 mg/100 ml

Question 6

Where is alcohol absorbed in the GI tract?

Answer 6

20% - stomach 80% - small intestine

Question 7

What determines the speed of onset of the effects of alcohol?

Answer 7

The speed of onset of the effects of alcohol is proportional to the rate of gastric emptying

Question 8

What proportion of alcohol is metabolised?

Answer 8

90% (the remaining 10% stays unmetabolised)

Question 9

Out of the alcohol that is metabolised, what proportion is metabolised in the liver? Where does the rest of the metabolism take place?

Answer 9

85% - Liver 15% - Stomach

Question 10

State two enzymes in the liver that are involved in metabolising alcohol.

Answer 10

Alcohol dehydrogenase Mixed function oxidase NOTE: these both convert alcohol to acetaldehyde

Question 11

What is an important feature of mixed function oxidase?

Answer 11

It can be induced if you constantly expose yourself to alcohol – it is the reason for alcohol tolerance

Question 12

Why would one large dose of alcohol give a higher plasma ethanol concentration than several small doses?

Answer 12

The liver enzymes that are responsible for metabolising alcohol are saturable Giving a large dose at once is more likely to saturate the enzymes

Question 13

Describe the metabolism of alcohol in the stomach. How does this differ in women compared to men?

Answer 13

The stomach contains alcohol dehydrogenase, which is responsible for15% of alcohol metabolism Women have 50% less alcohol dehydrogenase in their stomachs than men

Question 14

State one other reason why women, in general, can’t tolerate alcohol as well as men?

Answer 14

Women have a body water composition of about 50% Men have a body water composition of about 59-60% so a given amount of alcohol will be more dilute in a man compared to a woman

Question 15

Describe the metabolism of acetaldehyde.

Answer 15

Acetaldehyde is toxic and must be metabolised further It is metabolised by aldehyde dehydrogenase to produce acetic acid

Question 16

Name a drug that is used as an alcohol aversion therapy. Explain why it is used for this purpose.

Answer 16

Disulfiram – it is an aldehyde dehydrogenase inhibitor so it promotes the build up of acetaldehyde, which is responsible for most of the negative feelings associated with drinking

Question 17

Why do some people (particularly Asians) tend to tolerate alcohol badly?

Answer 17

There is a common genetic polymorphism in the aldehyde dehydrogenase gene meaning that some people (particularly Asians) can’t convert acetaldehyde to acetic acid as efficiently so acetaldehyde builds up and makes them feel bad

Question 18

Describe the pharmacological potency of alcohol.

Answer 18

Low pharmacological potency

Question 19

What are the three major CNS targets of alcohol and what effectsdoes alcohol have on these targets?

Answer 19

GABA – alcohol increases allopregnenolone production (which facilitates the opening of chloride channels) – thus enhancing GABA action NMDA – alcohol decreases NMDA receptor function Ca2+ channels – alcohol reduces Ca2+ channel function meaning that there is less calcium influx, which negatively affects neurotransmitter exocytosis

Question 20

Explain the counter-intuitive effects of alcohol on the central reward pathway.

Answer 20

GABA will reduce dopamine release and NMDA will increase dopaminerelease However, alcohol enhances GABA and reduces NMDA activity

Question 21

Name a few specific parts of the brain that are affected by alcohol and state how they are responsible for features of alcohol intoxication.

Answer 21

Hypothalamus – controls appetite, emotions, temperature Reticular activating system – impairs consciousness Hippocampus – amnestic effects Cerebellum – movement and coordination Basal ganglia – perception of time

Question 22

Describe and explain the effects of alcohol on cutaneous vasculature.

Answer 22

Alcohol causes vasodilation (this is thought to be due to acetaldehyde) It causes decrease calcium influx and increased prostaglandins –> vasodilation

Question 23

Describe and explain the effects of alcohol of alcohol on heart rate.

Answer 23

Alcohol decreases the sensitivity of baroreceptors This means decreased baroreceptor firing –> decreased parasympathetic firing + decreased inhibition of sympathetic firing –> INCREASED HEART RATE

Question 24

Describe the effects of alcohol on the endocrine system.

Answer 24

Alcohol inhibits vasopressin release from the neurohypophysis This means that alcohol is a powerful diuretic

Question 25

How can chronic alcohol abuse lead to dementia?

Answer 25

Chronic alcohol caused cortical atrophy and a loss of cerebral white matter –> dementia

Question 26

How can chronic alcohol abuse lead to ataxia?

Answer 26

Chronic alcohol can cause cerebellar cortex degeneration

Question 27

State an important syndrome that is caused by chronic alcohol use.

Answer 27

Wernicke-Korsakoff Syndrome

Question 28

Describe and explain how chronic alcoholism can cause this syndrome.

Answer 28

Wernicke-Korsakoff syndrome is caused by thiamine (vitamin B1) deficiency Chronic alcoholics tend to have a bad diet Thiamine is an important cofactor in the generation of ATP within cells The lack of thiamine impairs the Krebs’ cycle and leads to the build up of oxidative stress within the cells The oxidative stress can cause mitochondrial damage and apoptosis Wenicke’s Encephalopathy – caused by mitochondrial injury Korsakoff’s Psychosis – cell apoptosis in the brain – this is irreversible and the patient will probably die

Question 29

What are the chronic effects of alcohol on the liver?

Answer 29

Alcohol metabolism in the liver uses up NAD+ so it depletes the liver’s NAD+ stores and increases NADH This inhibits beta-oxidation of lipids in the liver so you get an accumulation of fat in the liver It also interferes with the Krebs’ cycle because, without NAD+, glucose can’t be converted to pyruvate, and pyruvate can’t be converted to Acetyl CoA Pyruvate is converted to lactate Acetyl CoA is converted to ketone bodies

Question 30

How can chronic alcohol abuse cause hepatitis?

Answer 30

Chronic use of cytochrome P450 enzymes in metabolising alcohol can generate oxygen free radicals, which can cause mitochondrial injury and inflammatory changes

Question 31

How can chronic alcohol abuse cause cirrhosis?

Answer 31

If the inflammation persists, fibroblasts could be recruited, which lay down connective tissue and cause cirrhosis

Question 32

What are the potentially beneficial effects of chronic alcohol use at moderate levels?

Answer 32

Decreased mortality from coronary artery disease Increase HDL Increase tPA/decreased platelet aggregation NOTE: it is thought that polyphenols are responsible for these effects

Question 33

Describe the chronic effects of alcohol on the GI tract.

Answer 33

Alcohol is partly metabolised in the GI tract to generate acetaldehyde (toxic) The acetaldehyde can directly damage the gastric mucosa leading to ulceration There is some evidence that alcohol can be carcinogenic in the stomach

Question 34

Describe the chronic effects of alcohol on the endocrine system.

Answer 34

Alcohol can increase ACTH secretion (causes Cushing’s type appearance) Decrease testosterone

Question 35

Why do you get the following symptoms when hungover: a. Nausea b. Headache c. Restlessness and muscle tremors d. Polyuria and polydipsia

Answer 35

a. Nausea Gastric irritation –> vagus –> vomiting centre b. Headache Vasodilation c. Restlessness and muscle tremors Rebound increase in CNS activity once the alcohol (depressant) wears off d. Polyuria and polydipsia Inhibition of ADH secretion

Question 36

What are the four main proteins that make up the GABA-A receptor?

Answer 36

GABA receptor protein Benzodiazepine receptor protein Barbiturate receptor protein Chloride channel protein

Question 37

What protein links the GABA receptor proteins and the benzodiazepine receptor protein?

Answer 37

GABA modulin

Question 38

Describe the normal physiological action of GABA.

Answer 38

GABA binds to the GABA receptor protein GABA modulin links the GABA receptor protein and the benzodiazepine receptor protein This results in opening of the chloride ion channel

Question 39

Name a competitive antagonist of the GABA receptor protein.

Answer 39

Biciculline

Question 40

Name a competitive antagonist of the benzodiazepine receptor protein.

Answer 40

Flumazenil

Question 41

What are the two main effects of benzodiazepines that facilitate GABA neurotransmission?

Answer 41

They facilitate the GABA-mediated opening of the chloride channel They facilitate the binding of GABA to its receptor protein (increase theaffinity of GABA to the GABA binding site) – this is reciprocated

Question 42

What are the three main effects of barbiturates that facilitate GABA neurotransmission?

Answer 42

They enhance the normal physiological action of GABA They enhance GABA binding to the GABA receptor protein (NOT reciprocated) At higher concentrations, barbiturates can have a direct action on the chloride channel

Question 43

What is the key difference in the mechanism of action of barbiturates and benzodiazepines?

Answer 43

Benzodiazepines – increase the frequency of chloride channel opening Barbiturates – increase the duration of chloride channel opening

Question 44

What is the relative difference in selectivity between barbiturates and benzodiazepines?

Answer 44

Barbiturates are LESS selective This may explain why barbiturates induce surgical anaesthesia and why barbiturates are less safe than benzodiazepines NOTE: barbiturates also reduce excitatory transmission

Question 45

Name a barbiturate that is used as an anaesthetic.

Answer 45

Thiopentone

Question 46

Name three barbiturates and benzodiazepines that are used as anti-convulsants.

Answer 46

Diazepam Clonazepam Phenobarbital

Question 47

Name a benzodiazepine that is used as an anti-spastic.

Answer 47

Diazepam

Question 48

What are two other clinical uses of benzodiazepines and barbiturates?

Answer 48

Anxiolytics Hypnotics

Question 49

Define anxiolytic.

Answer 49

Remove anxiety without impairing mental or physical activity

Question 50

Define sedative.

Answer 50

Reduce mental and physical activity without producing loss of consciousness

Question 51

Define hypnotic.

Answer 51

Induces sleep

Question 52

What structure is common to all barbiturates?

Answer 52

Six-membered ring (4 carbons and 2 nitrogens)

Question 53

Barbiturates have been largely superseded by benzodiazepines. Which barbiturate is still used relatively commonly?

Answer 53

Amobarbital

Question 54

What is the half-life of this drug?

Answer 54

20-25 hours

Question 55

What are the unwanted effects of barbiturates?

Answer 55

Low safety margin (overdose can be lethal) Alters natural sleep (reduced REM) Enzyme inducers Potentiate the action of other CNS depressants (e.g. alcohol) Tolerance Dependence

Question 56

What structure is common to all benzodiazepines?

Answer 56

They are tricyclic

Question 57

What are the three key benzodiazepines?

Answer 57

Diazepam Oxazepam Temazepam

Question 58

What is the difference between all the benzodiazepines that are in clinical use?

Answer 58

Their pharmacokinetics

Question 59

Describe the administration of benzodiazepines.

Answer 59

Well absorbed per orally Peak plasma concentration after about 1 hour

Question 60

When would you give IV benzodiazepines?

Answer 60

Treatment of status epilepticus

Question 61

Describe the distribution of benzodiazepines.

Answer 61

Bind strongly to plasma proteins Highly lipid soluble

Question 62

Describe the metabolism of benzodiazepines.

Answer 62

Extensively metabolised in the liver

Question 63

Describe the excretion of benzodiazepines.

Answer 63

Excreted in the urine as glucuronide conjugates

Question 64

Describe the duration of action of benzodiazepines.

Answer 64

Varies a lot This allows classification as short-acting and long-acting benzodiazepines

Question 65

What makes long-acting benzodiazepines have a long duration of action?

Answer 65

They have slower metabolism They generate active metabolites

Question 66

Name two short-acting benzodiazepines.

Answer 66

Oxazepam Temazepam

Question 67

Name a long-acting benzodiazepine.

Answer 67

Diazepam

Question 68

Describe the metabolism of oxazepam.

Answer 68

It is metabolised straight to its glucuronide conjugate (t1/2 = 8 hours)

Question 69

Describe the metabolism of temazepam.

Answer 69

Metabolised to oxazepam and then to the glucuronide conjugate

Question 70

Describe the metabolism of diazepam.

Answer 70

Metabolised via temazepam and oxazepam to the glucuronide conjugate Some diazepam is metabolised to nordiazepam and then oxazepam

Question 71

Name three drugs that are used as anxiolytics.

Answer 71

General rule – long-acting benzodiazepines Diazepam Chlordiazepoxide Nitrazepam

Question 72

Under what condition would you use a short-acting benzodiazepine as an anxiolytic?

Answer 72

Hepatic impairment – this means that the benzodiazepines and metabolised more slowly – drug of choice = oxazepam

Question 73

Name two drugs that are used as sedatives/hypnotics.

Answer 73

General rule – short-acting benzodiazepines Oxazepam Temazepam

Question 74

Name a long acting drug that might be used as a sedative/hypnotic.

Answer 74

Nitrazepam (t1/2 = 28 hours)

Question 75

What are the advantages of benzodiazepines over barbiturates?

Answer 75

Wide margin of safety  Overdose causes prolonged sleep (but this is rousable)  Flumezanil can be given IV if a patient has overdosed Mild effect on REM sleep Do NOT enhance liver enzymes

Question 76

What are the unwanted effects of benzodiazepines?

Answer 76

Sedation Confusion Ataxia Potentiate other CNS depressants (e.g. alcohol) Tolerance Dependence Free plasma concentration of benzodiazepines can be increased by giving aspirin and heparin

Question 77

Name a sedative/hypnotic that isn’t a benzodiazepine. What class of drug does this fall into?

Answer 77

Zopiclone – this is a cyclopyrrolone and it’s short-acting (t1/2 = 5 hours) NOTE: it acts on the benzodiazepine receptor but it is not a benzodiazepine This has fewer hangover effects but dependency is still an issue

Question 78

What drug is used to control the physical symptoms of anxiety?

Answer 78

Propranolol

Question 79

Name a new drug that has started being used as an anxiolytic.

Answer 79

Buspirone – 5HT1A agonist This has relatively few side effects and causes less sedation than benzodiazepines Downside: slow onset of action (maximal anxiolytic effects are not seen for a number of days/weeks)