EMERGENCY DRUGS

Question 1

Drugs used in cardiac arrest?

Answer 1

Adrenaline IV

Amiodarone IV

Question 2

Prescription of adrenaline in cardiac arrest?

Answer 2

 In cardiac arrest (pre-filled syringe 1:10,000, 1mg in 10mL)
• If shockable, adrenaline 1mg IV given after 3rd shock and repeated every 3-5 minutes
• If not shockable, adrenaline 1mg IV ASAP and repeated every 3-5 minutes

Question 3

Mechanism of adrenaline in cardiac arrest?

Answer 3

 Potent agonist of A1, A2, B1, B2 adrenoreceptors
 Fight or flight sympathetic actions:
• Alpha-1 – Vasoconstriction
• Beta-1 - Tachycardia, inotropy, myocardial excitability
• Beta- 2 - Vasodilation of vessels in heart and muscles
• Bronchodilation and suppression of inflammatory mediators from mast cells

Question 4

Side Effects of adrenaline in cardiac arrest?

Answer 4

 Hypertension
 Anxiety, tremor, headache, palpitations
 Angina, MI and arrhythmias

Question 5

Contraindications of adrenaline in cardiac arrest?

Answer 5

 LA with adrenaline to areas supplied by end-artery (fingers, toes, penis) - tissue necrosis due to vasoconstriction

Question 6

Dose of amiodarone in cardiac arrest?

Answer 6

 In cardiac arrest, given after 3rd shock
• 300mg IV, followed by 20ml of 0.9% NaCl flush
 Consider a further 150mg IV after 5 shocks

Question 7

Mechanism of amiodarone in cardiac arrest?

Answer 7

 Block of Na, Ca and K channels
 Antagonist of α- and β-adrenergic receptors
 Reduce spontaneous depolarisation, slow conduction velocity, and increase resistance to depolarisation, including in the AV node

Question 8

Side Effects of amiodarone in cardiac arrest?

Answer 8

 Hypotension during IV infusion
 Chronic – pneumonitis, bradycardia, AV block, photosensitivity, grey discolouration and thyroid abnormalities
 Long half-life and takes months to be eliminated

Question 9

Dose of oxygen in acute pulmonary oedema?

Answer 9

 15L/min via non-rebreathe mask if severe

 If needed, CPAP, BiPAP and intubation

Question 10

Mechanism of oxygen in acute pulmonary oedema?

Answer 10

 Increase PO2 in alveolar gas, driving more rapid diffusion into blood

Question 11

Side Effects of oxygen in acute pulmonary oedema?

Answer 11

 Discomfort of face mask

 Dry mouth

Question 12

Dose of furosemide in acute pulmonary oedema?

Answer 12

 IV 40-80mg furosemide slowly initially

 Subsequent boluses, IV infusion or maintenance may be needed

Question 13

Mechanism of furosemide in acute pulmonary oedema?

Answer 13

 Act on ascending limb of loop of Henley
• Inhibit the Na+/K+/2Cl−co-transporter
• Responsible for ions transport from lumen into epithelial cells, water then follows
• Inhibition has diuretic effect
 Dilatation of capacitance veins
• Reduce preload and improve contractile function of heart muscle

Question 14

Side Effects of furosemide in acute pulmonary oedema?

Answer 14

 Dehydration and hypotension
 Low electrolyte state – Urinary excretion of Na, Cl and K and increase excretion of Mg, Ca and H ions
 Hearing loss and tinnitus

Question 15

Dose of nitrates in acute pulmonary oedema?

Answer 15

 Glyceryl trinitrate (2-5mg buccal) if BP>90 systolic
 Glyceryl trinitrate IV 50 mg in 50 ml 0.9% sodium chloride at 2 ml/hour, titrating up to 20 ml/hr, maintaining BP > 90 systolic

Question 16

Mechanism of nitrates in acute pulmonary oedema?

Answer 16

 Converted to NO which increases cGMP synthesis and reduced intracellular Ca2+ in vascular smooth muscle cells causing relaxation
 Venous and arterial vasodilatation
 Relaxation of venous capacitance veins
• Reduce preload and LV filling
• Reduce cardiac work and myocardial oxygen demand

Question 17

Side effects of nitrates in acute pulmonary oedema?

Answer 17

 Flushing, headaches, light-headedness and hypotension

 Tolerance with sustained use – nitrate free period overnight to minimise

Question 18

Contraindications of nitrates in acute pulmonary oedema?

Answer 18

 Avoid in phosphodiesterase inhibitors – hypotension

Question 19

Dose of morphine in acute pulmonary oedema?

Answer 19

 Diamorphine 2.5-5mg, at 1mg/minute IV slowly

 Morphine 5-10mg (lower in elderly), at 2mg/minute

Question 20

Mechanism of morphine in acute pulmonary oedema?

Answer 20

 Relieves breathlessness alongside oxygen, furosemide and nitrates
• Blunt medullary response to hypoxia and hypercapnia to reduce respiratory drive and breathlessness
 Activation of opioid u receptors in CNS to reduce neuronal excitability and pain transmission
 Reduce sympathetic nervous system
• Reduce cardiac work and oxygen demand

Question 21

Side effects of morphine in acute pulmonary oedema?

Answer 21

	Respiratory depression
	Euphoria and detachment
	Nausea and vomiting
	Pupillary constriction
	Constipation
•	Increased smooth muscle tone and reduced motility
	Itching, urticaria and sweating

Question 22

Contraindications of morphine in acute pulmonary oedema?

Answer 22

 Dose reduction – hepatic failure, renal impairment and elderly
 Avoid in biliary colic – spasm of sphincter of Oddi

Question 23

Does of oxygen in acute severe asthma?

Answer 23

 15L/min via non-rebreathe mask

 Maintain oxygen saturations 92-96%

Question 24

Mechanism of oxygen in acute severe asthma?

Answer 24

 15L/min via non-rebreathe mask if severe

 If needed, CPAP, BiPAP and intubation

Question 25

Side effects of oxygen in acute severe asthma?

Answer 25

 Discomfort of face mask

 Dry mouth

Question 26

Dose of nebulised salbutamol in acute severe asthma?

Answer 26

 5mg every 15-20 minutes if not helping, or back-to-back

 Can combine with ipratropium bromide 500mcg

Question 27

Mechanism of nebulised salbutamol in acute severe asthma?

Answer 27

 Stimulation of GPCR leads to smooth muscle relaxation
• Improves airflow in airways
 Stimulate Na/K/ATPase pumps on cell surface membranes
• Shift of K into cells
• Useful in hyperkalaemia

Question 28

Side effects of nebulised salbutamol in acute severe asthma?

Answer 28

 Tachycardia, palpitations, anxiety, tremor

 Increase glucose levels

Question 29

Dose of ipratropium in acute severe asthma?

Answer 29

 500mcg nebulised every 4-6 hours if needed

Question 30

Mechanism of ipratropium in acute severe asthma?

Answer 30

 Competitively inhibit acetylcholine
• Increase HR and conduction
• Reduce smooth muscle tone
• Reduce secretions

Question 31

Dose of hydrocortisone in acute severe asthma/COPD?

Answer 31

 Asthma
• IV 100mg every 6 hours until conversion to oral prednisolone
• Or oral prednisolone 40mg OD if not too severe
 COPD
• IV 200mg

Question 32

Mechanism of hydrocortisone in acute severe asthma?

Answer 32

 Upregulate anti-inflammatory genes and downregulate pro-inflammatory genes
 Glucocorticoid effects
• Supress circulating monocytes and eosinophils
• Gluconeogenesis from fatty acids
 Mineralocorticoid effects
• Stimulate Na and water retention and K excretion in renal tubule

Question 33

Dose of aminophylline in acute severe asthma?

Answer 33

Slow IV injection

Child - 5 mg/kg (max. per dose 500 mg)

Adult - 250–500 mg (max. per dose 5 mg/kg)

Followed by IVI

Question 34

Dose of magnesium sulphate in acute severe asthma?

Answer 34

o Given IV in severe acute asthma
o Sometimes in polymorphic VT
o Adult - 1.2g-2g over 20 minutes
o Child 2-17 – 40mg/kg over 20 minutes (max 2g)

Question 35

Drugs given in anaphylaxis?

Answer 35

Oxygen
Adrenaline
IV fluids
Chlorphenamine
Hydrocortisone

Question 36

Dose of adrenaline given in anaphylactic shock?

Answer 36

 In anaphylaxis (0.5ml of 1:1000, 1mg in 1ml IM into anterolateral thigh)
• Adults or child >12 years - 500mcg IM (0.5ml)
• Child 6-12 years – 300mcg (0.3ml)
• Child <6 years – 150mcg (0.15ml)
 Repeat every 5 minutes if needed

Question 37

Mechanism of adrenaline given in anaphylactic shock?

Answer 37

 Potent agonist of A1, A2, B1, B2 adrenoreceptors
 Fight or flight sympathetic actions:
• Alpha-1 – Vasoconstriction
• Beta-1 - Tachycardia, inotropy, myocardial excitability
• Beta- 2 - Vasodilation of vessels in heart and muscles
• Bronchodilation and suppression of inflammatory mediators from mast cells

Question 38

Side effects of adrenaline given in anaphylactic shock?

Answer 38

 Hypertension
 Anxiety, tremor, headache, palpitations
 Angina, MI and arrhythmias

Question 39

Dose of IV fluids given in anaphylactic shock?

Answer 39

o 500-1000mls IV 0.9% NaCl

Question 40

Dose of chlorphenamine in anaphylactic shock?

Answer 40

	IV slowly/IM
•	Adult or child > 12 years - 10 mg
•	Child 6 - 12 years 5 mg
•	Child 6 months to 6 years 2.5 mg
•	Child less than 6 months 250 micrograms/kg

Question 41

Mechanism of chlorphenamine in anaphylactic shock?

Answer 41

 Antagonist of H1 receptors
 Histamine released from mast cells as a result of binding to IgE on cell surface
 H1 increases capillary permeability, oedema (wheal), vasodilation (flare) and itch

Question 42

Side effects of chlorphenamine in anaphylactic shock?

Answer 42

 Sedation

Question 43

Contraindications of chlorphenamine in anaphylactic shock?

Answer 43

 Severe liver disease – precipitate hepatic encephalopathy

Question 44

Dose of hydrocortisone in anaphylactic shock?

Answer 44

	Anaphylaxis (IM or slow IV)
•	Adult or child > 12 years - 200 mg
•	Child 6 - 12 years - 100 mg 
•	Child 6 months to 6 years - 50 mg
•	Child less than 6 months - 25 mg

Question 45

Mechanism of hydrocortisone in anaphylactic shock?

Answer 45

 Upregulate anti-inflammatory genes and downregulate pro-inflammatory genes
 Glucocorticoid effects
• Supress circulating monocytes and eosinophils
• Gluconeogenesis from fatty acids
 Mineralocorticoid effects
• Stimulate Na and water retention and K excretion in renal tubule

Question 46

Drug given in benzodiazepine overdose?

Answer 46

• Flumazenil

Question 47

Dose of flumazenil in benzodiazepine overdose?

Answer 47

 Flumazenil IV 200-300ug over 15s, then 100ug at 60s intervals
 Needs expert advice before given

Question 48

Mechanism of flumazenil in benzodiazepine overdose?

Answer 48

 Benzodiazepine antagonist

• Reverses CNS depression

Question 49

Side effects of flumazenil in benzodiazepine overdose?

Answer 49

 Risk of provoking seizures

Question 50

Drugs given in hypoglycaemia?

Answer 50

Glucose

Glucogon

Question 51

Mild hypoglycaemia treatment?

Answer 51

o 10-20g oral fast-acting carbohydrate (GlucoGel, Lucozade, sugar lumps)
 Repeat if necessary
o If fixes then carbohydrate snack

Question 52

Severe hypoglycaemia treatment?

Answer 52

 Glucagon
• 1mg SC/IM (not suitable for alcoholics)
• Given is IV access not available or at home
 Glucose
• 10g IV infusion as Glucose 20% in large vein (75-80mls)
• Then oral glucose once patient recovers consciousness

Question 53

Dose of IV fluids in hypovolaemic shock?

Answer 53

9% saline 500mls over 5-15 minutes

 Repeated up to 2L then expert help needed

Question 54

Drug given in opioid intoxication?

Answer 54

Naloxone IV or IM

Question 55

Dose of naloxone given in opioid overdose?

Answer 55

 IV injection
• Initial 400mcg
• 800mcg for up to 2 doses at 1-minute intervals if no response
• Increased to 2mg for 1 dose if still no response
 Can be given SC or IM if IV route not feasible but IV has more rapid onset

Question 56

Mechanism of naloxone given in opioid overdose?

Answer 56

 Competitive antagonist to opioid receptors and reverses the effect of opioids

Question 57

Side Effects of naloxone given in opioid overdose?

Answer 57

 Opioid withdrawal – pain, restlessness, nausea and vomiting, dilated pupils, cold/dry skins

Question 58

Drugs given in seizures?

Answer 58

Lorazepam/Diazepam/Midazolam

Phenytoin

Question 59

Dose of lorazepam in seizures?

Answer 59

 Given after 5 minutes, 1-2mg Lorazepam IV slow bolus up to 4mg
• Repeat if necessary after 5 minutes

Question 60

Mechanism of lorazepam in seizures?

Answer 60

 GABA is chloride channel and main inhibitory neurotransmitter in brain
 Facilitate and enhance binding of GABA to GABAa receptor
• More resistant to depolarisation

Question 61

Side effects of lorazepam in seizures?

Answer 61

 Drowsiness, sedation

 Loss of airway reflexes

Question 62

Dose and route of diazepam in seizures?

Answer 62

0.2-0.5mg/kg (maximum 20mg/dose) rectally as single dose

 Or 10mg IV

Question 63

Dose and route of midazolam in seizures?

Answer 63

 Buccal in community

 IM 10mg single dose if >40kg, 5mg if <40kg

Question 64

Dose of phenytoin in seizures?

Answer 64

 20mg/kg (maximum 2g/dose) IV as single dose

 Maintenance 100mg 6-8 hourly

Question 65

Mechanism of phenytoin in seizures?

Answer 65

 Reduces neuronal excitability and electrical conductance

• Potential Na channels binding, prolonging inactivity

Question 66

When and what drugs given in hyperkalaemia?

Answer 66

• Immediate treatment if K>6 with ECG changes or K>6.5
• Calcium gluconate or calcium chloride (IV)
• Insulin-glucose solution (IV)
• Salbutamol (nebs)
• Calcium resonium (oral or PR)

Question 67

Dose of calcium gluconate or calcium chloride in hyperkalaemia?

Answer 67

 10% Calcium gluconate 10ml IV via large vein over 5-10mins (up to 30ml)
 10% Calcium chloride 10ml over 5-10 mins
 Repeat dose after 5-10 minutes if no improvement in ECG

Question 68

Mechanism of calcium gluconate or calcium chloride in hyperkalaemia?

Answer 68

 Raises myocardial threshold potential
• Reduces excitability and risk of arrhythmias
• Protect cardiac membrane

Question 69

Dose of insulin-glucose solution in hyperkalaemia?

Answer 69

 10 units soluble insulin in 50ml 50% glucose over 5-15 minutes

Question 70

Mechanism of insulin-glucose solution in hyperkalaemia?

Answer 70

 Drives K into cells, reducing serum concentrations

• Once stopped, K leaks back out of cells and only short-term measure

Question 71

Dose of salbutamol nebs in hyperkalaemia?

Answer 71

 10-20mg nebulised (5mg back-to-back) over 10-20 minutes

Question 72

Mechanism of salbutamol nebs in hyperkalaemia?

Answer 72

 Stimulate Na/K/ATPase pump causing K shift into cells

Question 73

Dose of calcium resonium in hyperkalaemia?

Answer 73

 15g oral every 6-8 hours with lactulose

 30g BDS PR

Question 74

Mechanism of calcium resonium in hyperkalaemia?

Answer 74

 Remove K from body by exchanging for Ca in resin

 Slow method