NSAIDs

Question 1

what are the 3 main clinical uses of NSAIDs?

Answer 1

oAnalgesic – toothache/headache, post-op pain (opiate-sparing), menstrual pain.

oAnti-pyretic – influenza.

oAnti-inflammatory – rheumatoid arthritis, osteoarthritis, gout, soft-tissue injuries.

Question 2

what are major causes of deaths with NSAIDs?

Answer 2

GI issues

CVS issues

Question 3

what is the main action of NSAIDs?

Answer 3

inhibit prostanoid synthesis by blocking COX

Question 4

what are prostanoids?

Answer 4

Signalling molecules derived from arachidonic acid. Widely distributed and not stored pre-formed. Receptor-mediated.

Question 5

examples of prostanoids

Answer 5

prostaglandins
TXA2
prostacyclin

Question 6

what are the two isoforms of COX?

Answer 6

COX1 and COX2

both are inhibited by NSAIDs to varying degrees

Question 7

which NSAID affects both COX isoforms quite equally?

Answer 7

ibuprofen

non-selective

Question 8

what family of NSAID selectivity reversibly inhibit COX2?

Answer 8

Coxib family

e.g. celecoxib

Question 9

how many known prostanoids are there and how many receptors do they bind to? what are they?

Answer 9

5 known prostanoids
10 receptors:
- DP 1& 2
- EP1 to 4 (PGE2 binds to these)
- FP
- IP 1&2
- TP 

[name based on agonist potency]

Question 10

what sort of receptors are prostanoid receptors?

Answer 10

G protein coupled but can have effects independent of protein coupling

Question 11

examples of prostanoids that bind to receptors

Answer 11

TXA2
PGF2alpha
PGI2
PGD2
PGE2

Question 12

how many and which receptors does PGE2 bind to?

Answer 12

4:

• EP1 (greatest affinity)
• EP2
• EP3
• EP4 (least affinity)

Question 13

which of the EP prostanoid receptors are dependent on Ca2+ mobilisation?

Answer 13

EP1 and EP3

Question 14

which of the EP prostanoid receptors are dependant on cAMP?

Answer 14

EP2 and EP4

and EP3

Question 15

what is unique about EP3 receptor?

Answer 15

both Ca2+ mobilisation and cAMP dependant mechanisms used by EP3

Question 16

what are the unwanted effects of PGE2?

i.e. these effects you want to block using NSAIDs

Answer 16

• Increased pain perception.
• Thermoregulation (increased body temp)
• Acute inflammatory response.
• Other –
• immune responses (T helper cell activation–> MS, RA, dermatitis)
• tumorigenesis
• inhibition of apoptosis (so more likely necrosis).

Question 17

how does the prostanoid PGE2 induce pain sensitisation?

Answer 17

stimulation of PG receptors sensitises the nociceptors which causes pain acutely and chronically

Activation of EP1 and EP4 receptors (in spine and periphery)
Endocannabinoid involvement.

Question 18

how can pain sensitisation be reduced?

Answer 18

Co-injection of COX2 inhibitors prevents or reduces duration of prolonged pain

Question 19

how is PGE2 pyrogenic?

Answer 19

stimulates hypothalamic neurones to initiate a rise in body temperature –> hyper-pyrexia

NSAIDs reduce raised temperature in influenza

Question 20

how is the acute inflammatory response mediated by PGE2?

Answer 20

PGE2 –> EP3 signalling.
EP3 receptor signals downstream cAMP and Ca2+ mobilisation.

mast cell degranulation

Question 21

what are the desirable actions of PGE2?

i.e. you don’t want to block these with NSAIDs

Answer 21

• Gastro-protection
• Renal salt and water homeostasis, increased GFR
• Bronchodilation
• Vaso-regulation

Question 22

how does PGE2 have a gastro-protective effect?

Answer 22

• stimulates mucus and bicarbonate secretion into the gut
• downregulates HCl production
• increases pH

Question 23

what is considered to cause the ulceration of the stomach? how can GI bleed deaths be reduced?

Answer 23

inhibition of COX1–> less PGE2

the use of COX2 inhibitors instead, like Celecoxib, rather than other NSAIDs reduce GI deaths

Question 24

how does PGE2 influence renal salt and water homeostasis?

Answer 24

increases renal blood flow by having a vasodilator effect on the afferent arteriole of the glomerulus
- so NSAIDs can cause renal toxicity

Question 25

how do NSAIDs cause renal toxicity?

Answer 25

• Constriction of afferent renal arteriole.
• Reduction in renal artery flow.
• Reduced glomerular filtration rate.

Question 26

which groups of patients are contraindicated NSAIDs?

Answer 26

• renal failure (due to increased renal toxicity)

- asthmatics (increases bronchoconstrictors)

Question 27

why can’t some asthmatics use NSAIDs?

Answer 27

COX inhibition favours production of leukotrienes as the pathway for arachidonic acid is inhibited

leukotrienes are potent bronchoconstrictors and worsen asthma symptoms

Question 28

what effect do NSAIDs have as vaso-regulators?

Answer 28

• Vasoconstriction
• Salt & water retention (constricted renal afferent)
• Reduced effect of anti-hypertensives.

result of reduce production of vasodilator prostanoids

therefore increase CVS event risk

Question 29

what are the associated increased risks with NSAIDs?

Answer 29

hypertension
MI
stroke

Question 30

what general risk do COX2 inhibitor pose?

Answer 30

CVS disease

Question 31

what general risk do COX1 inhibitors pose?

Answer 31

GI diseases

Question 32

why do COX2 inhibitors increase CVS risks?

Answer 32

raise BP, endothelial dysfunction, oxidative injury,

Question 33

how are NSAIDs used for analgesic use?

Answer 33

occasionally so relatively low risk of side effects

Question 34

how are NSAIDs used for anti-inflammatory use?

Answer 34

chronically in higher doses so a relatively high risk of side effects.

Question 35

how can GI side effects be limited?

Answer 35

• use COX2 inhibitor
• topical application (less systemic access)
• limit use in patient with GI ulceration history
• avoid in those with risk factors e.g. alcoholics
• treat H.pylori if present
• co-administer PPI like omeprazole

Question 36

what is aspirin selective for?

Answer 36

COX-1
Binds irreversibly (not common) to COX enzymes

Question 37

what are the main uses of aspirin? how does it do this?

Answer 37

1) anti-inflammatory, analgesic, anti-pyretic

2) reduces platelet aggregation (thrombotic disease)

Question 38

in what ways does aspirin reduce platelet aggregation?

Answer 38

• reduces TXA2 production via COX1, no re-production as the platelet has no nucleus
• some reduction in PGI2 production by endothelia cells

overall platelet aggregation is reduced

Question 39

why is PGI2 (prostacyclin) reduction partial by aspirin?

Answer 39

PGI2 is produced by COX-1 and COX-2 and aspirin only affects COX-1

prostacyclin is anti-thrombotic, so necessary to have

Question 40

how does aspirin cause anti-platelet action?

Answer 40

High degree of COX1 inhibition supresses TXA2 synthesis in platelets.
Covalent bonding which permanently inhibits platelet COX1.

poorly binds to COX-2 (does not mean it has no effect)

Question 41

what are the side effects of aspirin?

Answer 41

• Gastric ulceration
• bronchospasm (in sensitive-asthmatics)
• prolonged bleeding time
• nephrotoxicity

[COX-1 inhibition and reduced PGE2 effects]

Question 42

why are side effects more likely with aspirin than with other NSAIDs?

Answer 42

due to permeant inhibition of COX-1 (irreversible)

Question 43

what are the new NSAIDs that are better tolerated?

Answer 43

• dual COX and LOX inhibitors (use in asthmatics)

- nitric oxide or hydrogen sulphide releasing NSAIDs (protective of GI and CVS)

Question 44

what is the overall effect of aspirin?

Answer 44

reduce TXA2 and PGI2

Question 45

how effect does aspirin have in Reye’s syndrome?

Answer 45

treatment of the viral infection with aspirin leads to mitochondrial damage in young people (<20)

this leads to ammonia production and damages astrocytes, leading to oedema in the brain

Question 46

why is paracetamol not a NSAID?

Answer 46

has no anti-inflammatory action

does not inhibit COX

Question 47

what are the uses of paracetamol?

Answer 47

o Relieve mild to moderate pain.
o Anti-pyretic actions.
o NO anti-inflammatory actions

Question 48

what is the possible mechanism of action of paracetamol?

Answer 48

most likely acts centrally

• COX3?
• cannabinoid receptors?
• interactions with endogenous-opioids/5HT/adenosine-receptors?

Question 49

what happens in paracetamol overdose?

Answer 49

• toxic NAPQI metabolite produced during paracetamol metabolism
• NAPQI metabolism saturates glutathione
• this depletes glutathione which leaves excess NAPQI
• NAPQI will react with hepatic enzymes with S-H groups (thiol group) causing their apoptosis

Question 50

how can paracetamol overdose be treated?

Answer 50

provide a compound with thiol groups so it mops up the NAPQI

• IV Acetylcysteine is used in cases of attempted suicide, must be provided early as liver failure may become unpreventable
• oral methionine
• normally NAPQI is removed using glutathione

Question 51

how has paracetamol availability become restricted over time?

Answer 51

• 1998 pack size restricted paracetamol to 16x500mg tablets
• 2009 guidelines state:
  o No more than 2 packs per transaction.
  o Illegal to sell more than 100 pills per transaction.
• this has decreased deaths significantly since 2009

Question 52

what is an effect of prostacyclin (PGI2)?

Answer 52

inhibits platelet activation
vasodilator

therefore antithrombotic

Question 53

how does PGE2 decrease pain threshold? i.e. make you sensitive to pain

Answer 53

sensitises nociceptors

Question 54

how does PGE2 cause fever?

Answer 54

stimulates neurones in hypothalamus involved in temperature control

Question 55

how does PGE2 cause inflammation?

Answer 55

mast cell degranulation

Question 56

how does PGE2 cause hypersensitivity ?

Answer 56

activation of T helper cells involved in hypersensitivity conditions like dermatitis, MS and Rheumatoid Arthritis

Question 57

how does PGE2 provide gastric protection?

Answer 57

stimulates bicarbonate release
mucous secretion
downregulates HCl secretion

Question 58

how does PGE2 increase GFR?

Answer 58

increases renal blood flow by having vasodilator effect on the afferent arteriole of the glomerulus

Question 59

what is ibuprofen?

what is its mechanism of action?

Answer 59

non-selective COX inhibitor

this prevents the produciotn of PGE2 :

• -> analgesia (pain threshold)
• -> antipyretic (hypothalamus)
• -> anti-inflammatory (mast cell)

Question 60

what are the side effects of NSAIDs like ibuprofen due to the blockage of PGE2’s beneficial effects?

Answer 60

• gastric irritation and ulceration
• bronchospasm
• prolonged bleeding
• nephrotoxicity

Question 61

why does ibuprofen cause gastric irritation and ulceration?

Answer 61

decreased bicarbonate
decreased mucous secretion
increases HCl

Question 62

why does ibuprofen cause bronchospasm?

Answer 62

there is a shift to the lipooxygenase pathway so more leukotrienes are produced

leukotrienes are bronchoconstrictors

Question 63

why does ibuprofen cause nephrotoxicity?

Answer 63

reduced renal blood flow due to constricted afferent arteriole therefore reducing GFR

Question 64

which enzyme produces PGE2 predominantly ?

Answer 64

COX-1

Question 65

what effect do COX-2 inhibitors have?

Answer 65

gastro-protective

harmful to cardiac

Question 66

what effect do COX-1 inhibitors have?

Answer 66

cardiac protective

harmful to gastro

Question 67

why is COX-2 inhibition gastro-protective?

Answer 67

COX-1 makes PGE2 mainly so PGE2 production is not impacted too much

PGE2 is still made enough to increase bicarbonate and mucous and decrease HCl

Question 68

why does COX-2 inhibition cause cardiac harm?

Answer 68

there is an imbalance created between anti-thrombotic prostacyclin (PGI2) and pro-thrombotic TXA2

NB. TXA2 is needed for platelet aggregation in haemostasis

Question 69

What is celecoxib?

Answer 69

selective, reversible COX-2 inhibitor

• gastro-protective
• smaller decrease in PGE2
• risk of CVD

Question 70

what is the difference in site action between paracetamol and NSAIDs?

Answer 70

paracetamol most likely acts centrally rather than peripherally

NSAIDs act peripherally

Question 71

why does paracetamol overdose cause liver failure?

Answer 71

toxic metabolite produced binds to hepatic enzymes with -SH groups

Question 72

how is paracetamol overdose treated?

Answer 72

acetylcysteine contains -SH groups to mop up the excess metabolite

Question 73

what normally inactivates NAPQI?

Answer 73

glutathione

binds to electrophiles

Question 74

why is aspirin the only NSAID uses in thrombotic disease?

Answer 74

irreversibly binds to COX-1 so the production of pro-thrombotic TXA2 is stopped

Question 75

why is aspirin effective at stopping TXA2 production?

Answer 75

COX-1 cannot be regenerated by platelet because they lack nucleus

endothelial cells continue COX-1 production to produce prostacyclin (PGI2), anti-thrombotic

Question 76

why can’t platelets regenerate COX-1?

COX-1 has been lost due to irreversible binding to aspirin

Answer 76

they lack a nucleus

however endothelial cells can continue to produce COX-1

Question 77

what is aspirin?

Answer 77

weak acid

irreversibly binds to COX-1

Question 78

why would IV sodium bicarbonate be given in aspirin overdose?

Answer 78

increasing pH to shift aspirin equilibrium to ionised in the kidney so it cannot be reabsorbed into the blood