Week 11

Question 1

What is drug tolerance?

Answer 1

With chronic exposure, adaptive changes occur which means the dose of the drug will need to be increased to maintain its effects.

Question 2

With is drug withdrawal?

Answer 2

Signs of withdrawal appear when the drug is no longer available.

Question 3

What is drug dependence?

Answer 3

The presence of a withdrawal symptom as a physical dependence.

Question 4

What is drug addiction?

Answer 4

Relapsing drug use despite negative consequences due to psychological dependence.

Question 5

What is the drug reward pathway?

Answer 5

A dopamingeric pathway from the ventral tegmental area to the nucleus accumbens and prefrontal Cortex of the brain.

Drugs move through this pathway and increase release of dopamine into the nucleus accumbens and prefrontal cortex.

Question 6

Using the drug reward pathway, what molecule is increased and where?

Answer 6

More dopamine is release into the nucleus accumbens and prefrontal cortex of the brain.

Question 7

What causes animals to self-administer cocaine?

Answer 7

Animas self administer cocaine into the nucleus accumbens and the pleasure this causes reinforces self-administration.

Question 8

On what type of receptors do Opioid drugs act?

Answer 8

Mu-opiod receptors in the CNS and peripheral mu-receptors.

Question 9

What type of drugs are Opioids at mu-opioid receptors in the CNS?

Answer 9

Agonists

Question 10

What effects do Opioids have due to acting on peripheral mu-receptors?

Answer 10

Reduce motility of the GI tract.

Question 11

What molecules can be used to stop the effects of Opioids and how?

Answer 11

Specific antagonists such as Naloxone which bind to Opioid receptors.

Question 12

What are some of the adverse effects of Opioids?

Answer 12

Drowsiness, confusion memory loss, fatigue, hallucinations, convulsions. 
Dilation of blood vessels causing increased pressure in the brain. 
Respiratory depression. 
Pupil contraction. 
Slurred speech. 
Nausea, vomiting, weight loss. 
Sexual dysfunction. 
Constripation.

Question 13

What are the central effects of morphine?

Answer 13

Analgesia
Sedation
Euphoria
Respiratory Depression
Vasomotor Centre Depression
Miosis
Nausea and vomiting due to CTZ stimulation

Question 14

What is analgesia?

Answer 14

The inability to cause pain.

Question 15

What are the peripheral effects of Morphine?

Answer 15

Constipation.
Billiary Spasm.
Constrition of the sphincter of Oddi.
Histamine release.

Question 16

What the of receptors does Ketamine work at and how?

Answer 16

It is an antagonist and NMDA receptors. Competes with N-methyl-D-aspartate for NMDA receptors

Question 17

What type of receptors are NMDA receptors?

Answer 17

They are glutamate ion channel-linked receptors.

Question 18

What type of anaesthesia does ketamine cause?

Answer 18

Dissociative

Question 19

What are the effects of chronic ketamine use?

Answer 19

Bladder removal

Question 20

When were Barbiturates introduced to medicine?

Answer 20

1904, first cynically used in 1912.

Question 21

Describe the therapeutic window of Barbiturates

Answer 21

Narrow

Question 22

What were Barbiturates initially used to treat?

Answer 22

Sedatives and hypnotics

Question 23

What type of drug became used more than Barbiturates as sedatives and hypnotics?

Answer 23

Benzodiazepine group

Question 24

What are Barbiturates now used to treat?

Answer 24

Epilepsy and for anaesthesia.

Question 25

What type of receptor agonists or antagonists are barbiturates?

Answer 25

GABAa receptor agonists.

Question 26

What is the difference in the mechanisms of action between Barbiturates and Benzodiazepines?

Answer 26

Bind to different GABAa receptor site

Question 27

What are Benzodiazepines used to treat?

Answer 27

Used as sedatives, hypnotics, for insomnia, anxiety and epilepsy.

Question 28

Outline the mechanism of Benzodiazepines to cause neuronal excitability.

Answer 28

In the CNS, GABA neurotransmitter binds to GABAa receptors and causes a Cl- ion channel to open. Benzodiazepines enhance the binding of GABA to GABAa receptors meaning more Cl- enter the channel and cause excitability.

Question 29

Do drugs that act on adrengeric nerve terminals act in the centra or peripheral nervous system and why?

Answer 29

Both. Noradrenaline is released by neurones in both the brain and sympathetic nervous system.

Question 30

What effect does cocaine have on noradrenaline?

Answer 30

Cocaine blocks neuronal uptake of noradrenaline meaning more is available in the synaptic cleft.

Question 31

How does cocaine affect dopamine neurones?

Answer 31

Cocaine blocks dopamine transporter in dopamingeric neurones meaning more dopamine is available.

Question 32

How does cocaine affect Seratonin transporter?

Answer 32

Cocaine blocks serotonin transporter meaning more is available as neurotransmitter.

Question 33

What type of nervous reaction does cocaine mimic and why?

Answer 33

The sympathetic nervous system by increasing noradrenaline availability in peripheral tissues.

Question 34

What are the sympathetic effects that cocaine has?

Answer 34

Rapid heart rate
Hypertension
Decreased GI motility and secretion

Question 35

How does Amphetamine affect noradrenaline?

Answer 35

Amphetamine displaces noradrenaline from its storage vesicles and reverses the direction of the uptake pump. This increases the concentration of noradrenaline in the synaptic cleft.

Question 36

How does Amphetamine affect dopamine ?

Answer 36

Displaces Dopamine from its storage vesicles and reverses the direction of the uptake of the pump. This increases the concentration of dopamine available.

Question 37

Name some possible side effects caused by Amphetamine

Answer 37

Insomnia. 
Restlessness. 
Night terrors.  
Euphoria. 
Dependence. 
Tolerance. 
Psychosis. 
Anorexia. 
GI symptoms. 
Growth retardation. 
Dry mouth. 
Sweating. 
Tachycardia. 
Increased blood pressure.

Question 38

Outline the mechanism used by LSD

Answer 38

It is an agonist at 5=HT2A receptors.

Question 39

Outline the mechanism used by MDMA

Answer 39

It releases 5-HT and blocks uptake

Question 40

What type of receptors does Psilocybin act on?

Answer 40

Acts on 5-HT2A receptors

Question 41

What class of drug is Psilocybin?

Answer 41

Class A

Question 42

Outline the mechanism and clinical use of Tetrahydro-cannabinol?

Answer 42

Activates CB1 and CB2 receptors.

Has analgesic and antiemetic properties.

Question 43

What are analgesic properties?

Answer 43

Pain relief

Question 44

What are Antiemetic properties?

Answer 44

A drug effective against nausea and vomiting.

Question 45

Outline the mechanism of Salvinorin A

Answer 45

K-opioid receptor agonist

Question 46

What are some of the effects that can be caused by activating CB1 receptors?

Answer 46

Basal ganglia movement.
Cerebellum movement.
High cognitive function in the cerebral cortex.
Alters appetite in the hypothalamus.
Alters learning, memory and stress in the hippocampus.
Alters the peripheral sensation of pain in the spinal cord.

Question 47

What is the full name for CB1 receptors?

Answer 47

Cannabinoid receptors.

Question 48

Where are CB1 receptors expressed?

Answer 48

CNS

Question 49

What are the overall effects of activated CB1 receptors known as?

Answer 49

Psychoactive effects

Question 50

Were are CB2 receptors expressed?

Answer 50

Immune system and hematopoeitic cells.

Question 51

What exogenous ligands act on CB1 and CB2 receptors?

Answer 51

Anandamide and 2-Archidonolygycerol

Question 52

Define adverse drug reactions.

Answer 52

Any response to a drug which is noxious, unintended and occurs at doses used in man for prophylaxis, diagnosis or therapy.

Question 53

What is meant by a drug being noxious?

Answer 53

Harmful or poisonous

Question 54

What is a prophylactic drug

Answer 54

It is intended to prevent disease.

Question 55

What are the possible predisposing factors of adverse drug effects?

Answer 55

Can relate to properties of the rug or characteristics of the patient:
Genetics
Age
Sex
Physiology (pregnancy)
Exogenous factors (other drugs and food)
Disease

Question 56

What are the different types of adverse drug reaction?

Answer 56

A - Augmented (dose-related). 
B - Bizarre (Idiosyncratic). 
C - chronic
D - delayed
E - end of treatment 
F - failure of therapy

Question 57

What are the features of Type A (augmented) adverse drug reactions?

Answer 57

Common.
Related to pharmacological action of the drug.
Predictable.
Low mortality rate.

Question 58

How are Type A adverse drug reactions managed?

Answer 58

Reduce dose or withhold.

Consider effects of concomitant therapy.

Question 59

What are the issues caused by Type A adverse drug reactions?

Answer 59

Pharmaceutical variation.
Pharmacokinetic variation.
Pharmacodynamic variation.

Question 60

What pharmaceutical variations occur due to type A adverse drug reactions?

Answer 60

Changes in bioavailability, out of date formulations, contamination.

Question 61

What pharmacokinetic variations occur due to type A adverse drug reactions?

Answer 61

Liver disease
Renal disease
Cardiac disease
Drug interactions

Question 62

What pharmacodynamic variations occur due to type A adverse drug reactions?

Answer 62

Changes in fluid/ electrolyte balance.

Drug interactions.

Question 63

Outline the effects of a type A adverse drug reaction with Tetracycline.

Answer 63

Tetracycline breaks down into a toxic anhydrotetracycline produce which causes Fanconi’s syndrome.

Question 64

What is Fanconi’s syndrome?

Answer 64

An impairment of the proximal tubule function where substances which would normally be reabsorbed back into the blood are excreted and lost in the urine.
(Glucose, amino acids, phosphate, uric acid).

Question 65

How can cirrhosis causes type A drug adverse reactions?

Answer 65

Drugs cannot be cleared by the liver.

Question 66

What is cirrhosis?

Answer 66

Degeneration of the liver cells causing inflammation and fibrous thickening of tissue. Caused by hepatitis or alcohol.

Question 67

Explain the type A adverse drug effect that can occur when taking Digoxin.

Answer 67

Blocks Na+/K+ pump of cardiac muscle cells. Competes with binding sites for K+ in the pump.
When K+ levels are low, Digoxin binds to the Na+/K+ pump easily

Question 68

What is the clinical use of Digoxin?

Answer 68

Used to treat heart failure.

Question 69

What are the features of type B (Idiosyncratic) adverse drug reactions?

Answer 69

Uncommon. 
Not related to the pharmacological action of the drug. 
Not dose-related. 
Unpredictable. 
High mortality.  
Low morbidity.

Question 70

How can type B adverse drug reactions be managed?

Answer 70

Withhold and avoid the drug in future.

Question 71

How does Penicillin cause a type B adverse drug reaction?

Answer 71

Degradation products of Penicillin can combine with body proteins and become antigenic and therefore produce an allergic response.

Anaphylactic shock can also occur.

Question 72

What are Pseudoallergic reactions ?

Answer 72

Reactions that resemble allergic reactions but for which no immunological basis has been found.

Question 73

Give examples of Pseudoallergic reactions.

Answer 73

Aspirin-sensitive asthmatics.

Ampicillin rash.

Question 74

What are the possible effects caused by type C adverse drug reactions?

Answer 74

Tolerance / physical dependence.
Adrenal suppression.
Tardive dyskinesia.

Question 75

What type of drugs are likely to cause tolerance or physical dependence?

Answer 75

Narcotic Analgesics such as morphine.

Question 76

What type of drugs are likely to cause adrenal suppression?

Answer 76

Corticosteroids such as hydrocortisone.

Question 77

What type of drugs are likely to cause tardive dyskinesia?

Answer 77

Antipsychotic drugs such as haloperidol.

Question 78

What is Tardive Dyskinesia?

Answer 78

Repetitive, involuntary jerking movements that occur in the face, neck and tongue.

Question 79

What are the causes of Tardive Dysinesia?

Answer 79

The use of long term antipsychotic drugs are used to treat schizophrenia can cause TD. Even if this drug stops being taken, symptoms can continue to occur.

Question 80

What type of feedback mechanism controls the production and secretion of glucocorticoid hormones?

Answer 80

Negative feedback

Question 81

What type of conditions are glucocorticoids used to treat?

Answer 81

Inflammatory conditions such a rheumatoid arthritis.

Question 82

Outline how adrenal suppression may occur due to type C adverse drug reaction.

Answer 82

Prolonged treatment with high doses can result in suppression of glucocorticoid synthesis by the adrenal cortex.

Question 83

How can adrenaline suppression due to type C adverse drug reactions be overcome?

Answer 83

Gradual withdrawal of exogenous glucocorticoids.

Question 84

What are the effects of type D (delayed) adverse drug reactions?

Answer 84

Uncommon.
Dose-related.
Becomes apparent after the use of the drug.

Question 85

Describe the management of type D adverse drug reactions?

Answer 85

Hard to control.

Question 86

How is Carcinogenesis caused by Type D adverse drug effects?

Answer 86

Long-term Oestrogen treatments such HRT and oral contraceptives can lead to risk of carcinogenesis.

Question 87

What effects can type D adverse drug reactions have on fertility?

Answer 87

Impaired fertility - cytotoxic drugs used in cancer therapy can cause this.
Teratogenesis - congenital malformations of an embryo or foetus.

Question 88

Give an example of a drug which causes Teratogenesis

Answer 88

Thalidomide

Question 89

What are the features of type E adverse drug reactions?

Answer 89

Uncommon

Occurs soon after withdrawal of the drug.

Question 90

Give examples of type E adverse drug reactions.

Answer 90

Opiate withdrawal syndrome. 
Myocardial ischaemia (beta-blocker withdrawal).

Question 91

What is the technical term for beta-blocker withdrawal?

Answer 91

Myocardial Ischaemia

Question 92

What are the features of type F adverse drug reactions?

Answer 92

Common
Dose-related
Often caused by drug interactions.

Question 93

Give ad example of a type F adverse drug reaction.

Answer 93

Inadequate dosage of oral contraceptive, particularly when used with specific metabolic enzyme inducers such as Rifampicin.

Question 94

How are type F adverse drug reactions managed?

Answer 94

Increased dosage.

Consider effects of concomitant therapy.

Question 95

Define pharmacogenetics.

Answer 95

The study of the influence of hereditary on both the pharmacokinetics of drugs and the pharmacodynamic responses to them.

Question 96

How does Succinylcholine choline cause type F adverse drug reactions?

Answer 96

Succinylcholine is used as a muscle relaxant and can cause prolonged apnoea in patients who lack the pseudocholinesterase enzyme that normally breaks down Succinylcholine.

Question 97

What is apnoea?

Answer 97

Shallow breathing

Question 98

What enzyme breaks down succinylcholine ?

Answer 98

Pseudocholinesterase

Question 99

What are the possible effects of drug interactions in the body ?

Answer 99

Interference with absorption.
Competition for plasma protein binding.
Inhibition or induction of metabolic enzymes.
Competition for elimination pathways.

Question 100

Give an example of drug interactions causing issues with absorption.

Answer 100

Tetracycline binds to calcium and iron and reduces absorption in the GI tract.

Question 101

Give an example of drug interactions causing competition within plasma protein binding.

Answer 101

Warfarin Vs Aspirin in the blood vessels.

Question 102

Give an example of inhibition or induction of metabolic enzymes leading to an adverse drug reaction.

Answer 102

Cimetidine inhibits Rifampicin induces.

Occurs in the liver.

Question 103

Give an example of competition for elimination pathways caused by drug interactions in the body.

Answer 103

Probenecid slows excretion of penicillin from the liver.

NSAIDS inhibits excretion of lithium from the liver

Question 104

Give an example of pharmacodynamic interactions causing adverse drug reactions?

Answer 104

Propanolol, a beta-receptor agnosia, can reduce the effects of Salbutamol beta-receptor agonist

Question 105

What’s the purpose of Levodopa?

Answer 105

Increases synaptic dopamine levels in parkinsons disease.

Question 106

What effects do Antipshychotics have on Levodopa and how does this occur?

Answer 106

They block dopamine receptors and can therefore reduce the effects of Levodopa.