P32

Question 1

Amlodipine
Felodipine
Lercanidipine
Nifedipine

Answer 1

Dihydropyridine (DHP) calcium channel blockers

Question 2

Ezetimibe

Answer 2

Specific cholesterol absorption inhibitors

Oral antilipemic; cholesterol absorption inhibitor indicated to treat hypercholesterolemia.

Question 3

Bezafibrate

Fenofibrate

Answer 3

PPARα agonist

MoA:

• Lowers cholesterol, LDLs, and triglycerides
• Increases HDLs

Question 4

Simvastatin
Atorvastatin
Rosuvastatin

Answer 4

Statins

MoA: HMG-CoA reductase inhibitor [rate-limiting enzyme in cholesterol synthesis]

Question 5

Diltiazem
Verapamil
Fendiline

Answer 5

Non-dihydropyridine calcium channel blockers

Question 6

Hypovolaemic shock stages and blood loss.

Answer 6

I - blood loss <750 (15% blood volume)

II - blood loss 750-1500 (15-30%)

III - blood loss 1500-2000 (30-40%)

IV - blood loss >2000 (>40%)

Question 7

Blatchford score - use?

Answer 7

The Glasgow-Blatchford bleeding score (GBS) is a screening tool to assess the likelihood that a patient with an acute upper gastrointestinal bleeding (UGIB) will need to have medical intervention such as a blood transfusion or endoscopic intervention.

Question 8

Blatchford score - values

Answer 8

Blood Urea (mmol/L):
6.5-8.0	2
8.0-10.0	3
10.0-25	4
>25	6

Haemoglobin (g/dL) for men:
12.0-12.9 1
10.0-11.9 3
<10.0 6

Haemoglobin (g/dL) for women:
10.0-11.9 1
<10.0 6

Systolic blood pressure (mm Hg):
100–109 1
90–99 2
<90 3

Other markers:
Pulse ≥100 (per min)	1
Presentation with melaena	1
Presentation with syncope	2
Hepatic disease	2
Cardiac failure	2

A score of >6 implies need for endoscopic intervention and transfusion.

Question 9

Rockall score vs Blatchford score?

Answer 9

The Blatchford score, unlike the Rockall score, does not take endoscopic data into account and thus can be used when the patient first presents.

Question 10

Rockall score

Answer 10

Rockall risk scoring system attempts to identify patients at risk of adverse outcome following acute upper gastrointestinal bleeding.

Age, shock, comorbidity, diagnosis, evidence of bleeding

Question 11

Lansoprazole
Omeprazole
Pantoprazole

Answer 11

Proton pump inhibitors

MoA: Binds irreversibly to H+/K+ ATPase in gastric parietal cells and inhibits H+ transport
- Activated in acidic pH

Complications:

• Gastrointestinal disturbance,
• Headache,
• Prolonged treatment with PPIs can cause hypomagnesaemia, which if severe can lead to tetany and ventricular arrhythmia.

Question 12

Ranitidine

Cimetidine

Answer 12

H2-receptor antagonist

Question 13

Upper GI bleed - PPI vs H2 antagonists

Answer 13

In the setting of active upper GI bleeding from an ulcer, acid suppressive therapy with H2 receptor antagonists has not been shown to significantly lower the rate of ulcer re-bleeding.

By contrast, high dose anti-secretory therapy with an intravenous infusion of a PPI significantly reduces the rate of rebleeding compared with standard treatment in patients with bleeding ulcers.

Oral and intravenous PPI therapy also decrease the length of hospital stay, rebleeding rate, and need for blood transfusion in patients with high-risk ulcers treated with endoscopic therapy.

PPIs suppress gastric acid secretion by inhibiting the parietal cell H+/K+ ATP pump.

Question 14

Hypotensive agents and active GI bleed?

Answer 14

Withhold all the hypotensive agents – amlodipine and ramipril

Question 15

H. pylori eradication

Triple eradication therapy!

Answer 15

1 PPI
2 Antibiotics
1 Bismuth (extra)

Antibiotic to eradicate H. pylori (Clarithromycin, Amoxicillin + Metronidazole)

PPI to suppress acid and dual antibiotic therapy – occasionally quadruple therapy is indicated and this include a bismuth preparation.

Question 16

Simvastatin + clarithromycin - problems?

Answer 16

Interaction can cause increase simvastatin levels thus increase risk of myositis through CYP3A4.

Clarithromycin is a strong inhibitor of CYP3A4 which is involved with metabolising simvastatin.

Eventually myositis becomes rhabdomyolysis and becomes a burden on kidneys.

Question 17

UC treatment

Answer 17

• Oral glucocorticoids
• High dose oral 5-aminosalicylic acid
• Steroid enema or doam

Patient with fulminant disease should be treated with IV glucocorticoids and broad-spectrum antibiotics (gram negative)

Question 18

A patient has been receiving hydrocortisone 100 mg IV every 8 hours and you wish to convert him to an oral corticosteroid – which will you use?

Answer 18

Oral prednisolone

Question 19

Mesalazine (aka 5-ASA)

Answer 19

Class: Aminosalicylates

MoA: Inhibition of arachidonic acid in the bowel mucosa by cyclooxygenase (COX).

Inhibition of COX diminishes prostaglandins production, thereby reducing colonic inflammation.

Indications:

• Ulcerative colitis
• Crohn’s disease
• Ulcerative proctitis (suppository)

Question 20

Azathioprine

Answer 20

Immunosuppressant

MoA: Azathioprine inhibits purine synthesis. Purines are needed to produce DNA and RNA. By inhibiting purine synthesis, less DNA and RNA are produced for the synthesis of white blood cells, thus causing immunosuppression.

Indications:

• Crohn’s disease
• Ulcerative colitis
• Rheumatoid arthritis
• Granulomatosis with polyangiitis
• Kidney transplants to prevent rejection

Question 21

Consequences of sudden stop of Consequences of long term oral corticosteroids??

Answer 21

Addisonian crisis

Question 22

Consequences of long term oral corticosteroids?

Answer 22

Cushing’s syndrome

Question 23

Infliximab

Answer 23

Chimeric monoclonal antibody

Class: Cytokine inhibitor

MoA: Binds to human tumour necrosis factor alpha (TNFa) and interferes with endogenous TNFa activity

Indication:

• Crohn’s disease
• Ulcerative colitis
• Psoriasis
• Rheumatoid arthritis
• Ankylosing spondylitis

Question 24

Pain and temperature sensation?

Answer 24

Dorsal horn (spinal cord)

Ascend via spinothalamic tract

Reach reticular activating system + thalamus

Question 25

Side effects of opioids?

Answer 25

Common:

• Constipation
• Nausea
• Sedation
• Confusion
• Hallucinations
• Flushing/sweating
• Dry mouth
• Difficulty with micturition
• Hypotension

Less common:

• Urinary retention
• Pruritus/urticaria
• Delirium
• Myoclonus/muscle rigidity
• Hyperalgesia
• Respiratory depression
• Sexual dysfunction
• Biliary/ureteric spasm
• Visual disturbance

Question 26

Naloxone

Answer 26

Opioid competitive antagonist

Naloxone is a very safe drug, hence given when suspected opiate overdose

Question 27

Benzodiazepines reversal agent?

Answer 27

Flumazenil
Flumazenil is a short-acting agent that reverses benzodiazepine-induced sedation. Re-sedation may occur due to its short duration of action, therefore additional doses may be necessary. Flumazenil is not useful for barbiturate- or opioid-induced sedation.

Flumazenil interacts with a lot of meds so it’s not safe

Question 28

• Lorazepam (Ativan)
• Alprazolam (Xanax)
• Diazepam (Valium)

Answer 28

Benzodiazepines

GABA agonists

Question 29

Methotrexate reversal agent

Answer 29

Leucovorin

Question 30

Heparin reversal agent

Answer 30

Protamine sulphate

Question 31

Warfarin poisoning antidote

Answer 31

Vitamin K

Question 32

Beta blocker poisoning antidote

Answer 32

Glucagon

Question 33

Anticholinergic poisoning antidote

Answer 33

Physostigmine

Question 34

Aspirin poisoning reversal agent

Answer 34

Sodium bicarbonate

Question 35

Paracetamol poisoning antidote

Answer 35

N-acetylcysteine

Question 36

Dabigatran poisoning antidote

Answer 36

Idarucizumab

Question 37

Carbon monoxide poisoning antidote

Answer 37

Oxygen

Question 38

Iron poisoning antidote

Answer 38

Deferoxamine

Question 39

Serotonin syndrome antidote

Answer 39

Cyproheptadine

Question 40

Organophosphate antidote

Answer 40

Atropine

Question 41

Theophylline poisoning

Answer 41

Beta blocker

Question 42

Lead, mercury, arsenic poisoning antidote

Answer 42

Dimercaptosuccinic acid

Question 43

Full agonists vs partial agonists?

Answer 43

Partial agonists are unable to produce a maximal response even at high concentrations

Full agonists can produce maximal responses. They can have different potencies

Both types of agonists are affected by the presence of competitive (reversible) antagonists and non-competitive (irreversible) antagonists.

Unlike competitive antagonists, a non-competitive antagonist reduces the maximal response even at high agonist concentrations, as shown in the curve A2+ IA compared with A2alone.

Question 44

Causes of constipation?

Answer 44

• Bed rest
• Hypercalcaemia
• Opiate use
• Many GI causes

Question 45

Bulk laxative

Answer 45

Avoid bulk laxatives in the non-ambulatory patient, the patient who cannot get 8 glasses of water in, because, again, you just make concrete like stool.

Question 46

Constipation treatment

Answer 46

• Large bowel stimulant

- Stool softener

Question 47

Methylnaltrexone

Answer 47

Methylnaltrexone is a peripherally-acting μ-opioid antagonists that acts on the gastrointestinal tract to decrease opioid-induced constipation while maintaining central analgesic effects.

Because this opioid antagonist that does not cross the blood-brain barrier, may diminish the peripherally mediated side effects of opioids while maintaining central analgesic effects and does not induce symptoms of opioid withdrawal

Indication: opioid induced constipation (OIC) in patients with chronic pain and inadequate response to traditional laxatives.

It is also a weak CYP2D6 inhibitor.

Question 48

Multimodal analgesia

Answer 48

Pain receptor activity directly blocked, e.g. lidocaine.

Anti-inflammatory agents, e.g. NSAIDs, to diminish the local hormonal response to injury, thus indirectly decreasing pain receptor activation.

Some analgesic agents target the activity of neurotransmitters by inhibiting or augmenting their activity, e.g. ketamine, clonidine, paracetamol, gabapentin, pregabalin.

Neurotransmitters are responsible for carrying electrical signals across the gap junctions between neurons. To produce analgesia, the activity of several neurotransmitters can be targeted, including substance P, calcitonin gene-related peptide, aspartate, glutamate, and gamma-aminobutyric acid (GABA).

Question 49

Bupivacaine

Answer 49

Local anaesthetic

Desrupts ion channel function within the neuronal cell membrane preventing transmission of the neuronal AP.

Question 50

Paracetamol

Answer 50

Action on spinal receptors through the action of its breakdown product NAPQI acting on TPRA1 receptors blocking pain signal transmission.

Question 51

Epidural opiates:

Answer 51

Direct action on opioid receptors.

Opioids have actions at two sites, the presynaptic nerve terminal and the postsynaptic neuron.

The postsynaptic actions of opioids are usually inhibitory.

The presynaptic action of opioids is to inhibit neurotransmitter release, and this is considered to be their major effect in the nervous system.

However, the final effect of an opioid in the brain is the result, not only of its action at multiple presynaptic sites on both inhibitory and excitatory neurons, but also of its postsynaptic effects.

Question 52

Isomers of tramadol, ibuprofen and naproxen and biological activity.

Answer 52

Tramadol’s 2 isomers act on different levels (dual pain relief)

Ibuprofen and naproxen have one isomer which is biologically active

Question 53

Post operative nausea and vomiting

Answer 53

Nausea and vomiting can be induced by many physiological and pathological factors, as well as drugs or ingested toxins.

Nausea and vomiting is primarily controlled by the vomiting centre.

This is an area in the brainstem that integrates responses.

Efferent impulses from these medullary centres influence related brainstem nuclei to initiate the vomiting reflex.

Afferent stimuli arrive from chemoreceptors and pressure receptors in the gut and CNS, as well as peripheral pain receptors. Other sites of input in the CNS include the cerebral cortex (pain, fear and anxiety), vestibular and cerebellar nuclei and the CTZ.

Question 54

Post operative N+V antiemetic drug classes?

Answer 54

• Serotonin-receptor antagonists (most commonly used due to no sedative side effects)
• Corticosteroids
• Anticholinergic agents
• Neurokinin-receptor antagonists

Question 55

Ondansteron

Answer 55

Selective serotonin-receptor (5-HT3) antagonist

• Are most commonly used post-op N+V agents because they do not have sedative side effects

MoA: Suppressive the initiation of nausea + vomiting by blocking serotonin peripherally at vagal afferents and centrally in chemoreceptor trigger zone.

Question 56

Post-operative N+V drug classes and examples

Answer 56

Selective serotonin-receptor (5-HT3) antagonist - Ondansetron

Anticholinergics – Hyoscine

Glucocorticoids (prophylaxis) – Dexamethasone

Antihistamines – Cyclizine

Question 57

Dexamethasone (steroid) used for reduction of nausea and vomiting related to chemotherapy?

Answer 57

The steroid dexamethasone (150 mcg/kg in children or 8 mg in adults) is used for reduction of nausea and vomiting related to chemotherapy and has been shown to be useful in the treatment of postoperative nausea and vomiting.

The mode of action is unclear; it may be due to decreased release of arachidonic acid, reduced turnover of 5-hydroxytryptamine or decreased permeability of the blood-brain-barrier.

Question 58

Which postoperative antiemetic drug causes QT prolongation?

Answer 58

Ondansetron (Serotonin receptor antagonist)

Dose dependent QT prolongatoin

Question 59

Preventative post-op antiemetics

Answer 59

Serotonin-receptor antagonist (Ondansteron)

Glucocorticoids (dexamethasone)

Anticholinergic (scopolamine)

Neurokinin-receptor antagonists (aprepitant)

Question 60

Anticholinergic

Answer 60

Scopolamine
Hyoscine

Prevents postoperative N+V

Sedating

Contraindicated in narrow-angle glaucoma

Question 61

Aprepitant

Answer 61

Neurokinin-receptor antagonist

MoA: blocks neurokinin’s effect (pro-emetic agent) at receptor site

Prevents postoperative N+V

Expensive!

Question 62

Cyclizine

Answer 62

Competitive antagonist of histamine H1 receptors

Antiemetic effects may be via blockade of central histamine (H1) ad muscarinic receptors, and by its anticholinergic properties.

Must cross BBB to have antiemetic properties. (terfenadine does not)

Question 63

Metoclopramide or prochlorperazine can also be used to treat nausea and vomiting but usually not as first line for PONV

What is site of action of these drugs and how is it thought that they work?

Answer 63

Both are dopamine receptor antagonist.

Prochlorperazine is an antiemetic that often partially alleviates acute nausea and vomiting (eg, acute gastroenteritis).

• But is associated with risks of hypotension and extrapyramidal side effects.
• Prochlorperazine should usually be considered in such cases before trying serotonin receptor antagonists or prokinetic drugs.

Metoclopramide is a dopamine receptor antagonist, it has combined antiemetic and prokinetic properties.

• However, it can be associated with extrapyramidal side effects.
• It can be given orally or intravenously. When given intravenously, using a slow infusion over 15 minutes is associated with a lower incidence of akathisia compared with bolus dosing, without a decrease in efficacy.

Question 64

If your patient suffered a severe dystonic reaction after treatment with metoclopramide how would you help them?

Answer 64

Procyclidine:

• First line treatment of acute dystonic reactions
• Response is often dramatic and generally occurs in 5-20mins (short half-life)
• If symptoms persist after 15-30mins a second dose can be given.
• If symptoms persist and are not improving after second dose consider the possibility of an alternative diagnosis.

Question 65

Causes of constipation in cancer?

Answer 65

Cancer:

• Intra-abdominal/pelvic cancers
• Hypercalcaemia
• Cord compression
• Autonomic neuropathy

Cancer related:

• Inanition and asthenia
• Pain
• Paralysis
• Bed rest

Cancer therapy:

• Bowel surgery
• Hypokalaemia (vomiting)

Symptom control therapy:

• Opioids
• Anticholinergic drugs
• Tricyclic antidepressants
• Antihistamines
• Neuroleptic drugs
• Antispasmodics

Question 66

Prochlorperazine

Answer 66

Dopamine antagonist

Prochlorperazine is an antiemetic that often partially alleviates acute nausea and vomiting (eg, acute gastroenteritis).

• But is associated with risks of hypotension and extrapyramidal side effects.
• Prochlorperazine should usually be considered in such cases before trying serotonin receptor antagonists or prokinetic drugs.

Question 67

How often should morphine be given?

Answer 67

Should really be given every 4 hours and the dose titrated up to effect.

Question 68

What is the rescue dose of oramorph?

I.e. for breakthrough pain

Answer 68

The rescue dose of oramorph (morphine) should be a sixth of the total 24-hour dose

E.g. If total 24 hr dose is 60mg = 10 mg

Question 69

What is the apparent volume of distribution?

Answer 69

Volume of distribution (VD, also known as apparent volume of distribution) is the theoretical volume that would be necessary to contain the total amount of an administered drug at the same concentration that it is observed in the blood plasma.

Vd = amount of drug in body / plasma concentration of drug

Question 70

What is a two compartment model?

Answer 70

The compartmental modeling of pharmacokinetics consists in describing the fate of a drug in the body, depicted as an entity divided into compartments.

The drug leaves the site of administration (absorption) to enter a central compartment, from which it is both exchanged with peripheral compartments (distribution) and irreversibly eliminated (metabolism and excretion).

Movements of drug from one compartment to another can be characterised by transfer rate constants: in linear kinetics, the rate of transfer is assumed to be directly proportional to the amount of drug available for transfer.

In each compartment, characterised by its own volume, the drug concentrations are proportional to the amount.

Compartments, volumes and constants do not have a direct anatomical or physiological signification. A compartment involves several organs or tissues and is kinetically homogenous.

Question 71

How does the half-life of a drug determine isn’t steady state?

Answer 71

Half-life determines the length of the drug effect. It also indicates whether accumulation of the drug will occur under a multiple dosage regimen and it is essential to decide on the appropriate dosing interval.

Circa 5 half lives.

E.g. half life of lithium is 20-24 hours. Steady state is 5-6 days.

Question 72

Lithium has narrow therapeutic index.

Lithium levels much be monitored (blood test) to ensure it is within therapeutic window and not toxic.

Answer 72

<0.4 mmol/L: little therapeutic effect


0. 4–1.0 mmol/L: optimum range for prophylaxis

1. 8–1.2 mmol/l: optimum range for acute mania

2. 2–1.5 mmol/L: causes possible renal impairment

3. 5–3.0 mmol/L: causes renal impairment, ataxia, weakness, drowsiness, thirst, diarrhoea

4. 0–5.0 mmol/L: causes confusion, spasticity, dehydration, convulsions, coma, death.

(Levels above 3.5 mmol/L are regarded as a medical emergency.)

Question 73

When a drug’s half-life is long and it will take a long time to achieve a steady state what can be done?

Answer 73

Give a loading dose.

In some situations, the steady state plasma concentration must be reached more rapidly. A higher dose can then be administered on treatment initiation, to compensate for accumulation.

Question 74

Large volume of distribution means?

Answer 74

That the drug is widely distributed outside the water compartment and is also protein bound or distributed by some other tissue type such as fat – in this case tissue binding in certain organs.

Question 75

Bioavailability definition

Answer 75

Definition : “Fraction of a dose of drug that is absorbed from its site of administration and reaches, in an unchanged form, the systemic circulation.”

When the drug is administered orally the bioavailability depends on several factors:

• Physicochemical properties of the drug and its excipients that determine its dissolution in the intestinal lumen and its absorption across the intestinal wall.
• Decomposition of the drug in the lumen.
• pH and perfusion of the small intestine.
• Surface and time available for absorption.
• Competing reactions in the lumen (for example of the drug with food).
• Hepatic first-pass effect.

Question 76

Anastrozole

Answer 76

Aromatase inhibitor

MoA: reversibly binding to the aromatase enzyme, and through competitive inhibition blocks the conversion of androgens to estrogens in peripheral (extragonadal) tissues.

Indication: Oestrogen receptor positive breast cancers AFTER menopause

Side effects: numbness, tingling of the hands, hot flashes, joint pain, sleep problems, N&V, hair thinning