13 - NSAIDs

Question 1

What is the principal action of non-steroidal anti-inflammatory drugs and the therapeutic effects?

Answer 1

Principle action – work on key enzyme COX and compete with arachidonic acid for the COX site to stop prostanoid production. Inhibits down stream products of arachidonic acid

• Analgesia
• Anti-Inflammatory
• Antipyretic
• Short half lifes to allow fine control

Question 2

What are some examples of prostanoids and how are they produced?

Answer 2

• Prostaglandins, Prostacyclin, Thromboxane A2
• Made from arachidonic acid (comes from dietary linoleic acid (vegetable oils) which is converted hepatically into arachidonic acid and then incorporated into phospholipids cell membrane)

- COX enzymes convert arachidonic acid to prostanoids

• Arachidonic acid found all over the brain expecially in muscle, brain and liver

Question 3

What are some of the functions of the prostanoids?

Answer 3

• Act on tissues through GPCRs and their function is enhanced by autocoids like bradykinin and histamine

- PGE₂: Vasodilation, Hyperalgesia, Fever, Immunomodulation

- PGI_{<u><strong>2:</strong></u>} Vasodilator so cardioprotecitve but TXA₂ can damage CVS. Imbalance between the two has role in hypertension, MI and stroke

Question 4

What is the difference between the two main isoforms of COX enzyme?

Answer 4

COX-1: constituitively active across most tissues (protective in nature)

COX-2: inducible, most in chronic inflammation. constituitively in bone, brain and kidney (induce pyrexia and inflammation)

• Platelets only contain COX-1
• COX2 has a larger more flexible substrate channel than COX1

Question 5

Why is it good to have a diet high in fish oils?

Answer 5

Contain fatty acids that can be converted into TXA₃ and PGI₃ which are better prostanoids than the others, can cause lower incidence of CVD

Question 6

How do NSAIDs have an analgesic effect?

Answer 6

• Greater efficacy if tissue is inflammed
• Lack of PGE₂ reduces peripheral pain fibre sensitivity as less PGE₂ in the dorsal horn so less neurotransmitter release and less excitability of neurones in pain relay pathway
• Efficacious after first dose but full analgesia after several days dosing

Question 7

How do NSAIDs have an anti-inflammatory effect?

Answer 7

• Lack of prostaglandin synthesis and release in tissue injury when given NSAIDs so less vasodilation and oedema in post capillary venules stopping swelling

- Symptomatic relief but doesn’t treat underlying chronic condition

Question 8

Why is long term NSAID use associated with a reduction in particular cancers?

Answer 8

• NSAIDs can decrease ROS by it’s oxygen scavenging properties independent of its action through COX
• Therefore reduction in certain cancers

Question 9

How do NSAIDs (and paracetamol) have an anti-pyretic effect?

Answer 9

• PGE₂ normally acts in preoptic area of the hypothalamus (thermoregulatory centre) to increase the set point of temperature, along with pyrogens like cytokines
• NSAIDs stop production of PGE₂ so only pyrogens so set point cannot be increased

Question 10

What is the difference in selectivity across the NSAIDs?

Answer 10

- COX1 inhibition have more ADRs so a lot of COX2 selective inhibitors (coxibs)

• Indirect action on leukotrienes through PGE2

Question 11

What are some GI ADRs associated with the use of NSAIDs and what is the mechanism behind this?

Answer 11

- Dyspepsia, nausea, peptic ulceration, bleeding, perforation

• Always give PPI with long term NSAID
• NSAIDS decrease mucus and bicarb secretion but increases acid secretion
• • Decreased mucosal blood flow* so enhanced cytotoxicity and hypoxia
• Can exacerbate IBS

Question 12

What are some risk factors associated with GI side effects from the use of NSAIDs?

Answer 12

• Elderly
• Prolonged use (should be smallest dose for smallest time)
• Glucocorticoid steroid use
• Anticoagulant use
• Alcohol and smoking
• History of peptic ulceration
• H Pylori

GIVE A PPI WITH AN NSAID

Question 13

What are some renal ADRs associated with the use of NSAIDs and what is the mechanism behind this?

Answer 13

• Produce reversible drop in GFR and renal blood flow
• Also prostaglandins inhibit Na absorption in collecting duct but NSAIDs inhibit this so increased water absorption increasing B.P so dont use in hypertension
• Don’t use in CKD and heart failure as the kidneys have greater reliance on prostaglandins for vasodilation and renal perfusion

Question 14

What are some examples of selective COX-2 inhibitors and why are they used?

Answer 14

Celecoxib and Etoricoxib

• Less GI ADRs as less COX1 inhibition so good in severe OA and RA when needed long term
• Renal ADRs are the same
• Impair PGI₂ but not antiplatelet so unopposed aggregatory effects so maybe prothrombotic

- Less analgesic effects

Question 15

What are some highly protein bound drugs affected by NSAIDs and what issues arise when administering both together?

Answer 15

• NSAIDs displace the bound drugs increasing free drug concentration so need to think about lowering dose of other drug. (especially aspirin due to the salicylate)

- Methotrexate: hepatotoxicity, leukopenia, RA

- Warfarin: increased risk of bleeding

- Sulfonylurea: hypoglycaemia

Question 16

When are some indications for NSAID use?

Answer 16

• Pain like headache, gout, RA

Question 17

When do you need to be cautious with prescribing NSAIDs?

Answer 17

• CVS risk
• Renal function (age)
• Previous GI disease
• DDIs: ACEis/ARBs, diuretics, sulfonylureas, methotrexate, warfarin
• Level of pain, pyrexia or inflammation

Question 18

What is the mechanism of action of paracetamol and its therapeutic effects?

Answer 18

- Analgesic and antipyretic but NOT antiinflammatory.

• Not an opiate or NSAID
• Fewer ADRs and no effect on platelets
• MOA not known but COX-2 selective inhibition in CNS so less pain signals to the brain

- Well absorbed by GI with a half life of 2h and inactivated by conjugation in the liver

Question 19

Why does paracetamol not have an antiinflammatory effect?

Answer 19

Peroxidases in peripheral inflammation inhibit the action of paracetamol

Question 20

How is paracetamol metabolised?

Answer 20

- Normal levels: conjugation with glutathione hepatically so harmless

- High levels: Phase 2 is overwhelmed so NAPQI build up which causes cell death by oxidising key metabolic enzymes

• 150mg/kg (10 tablets) enough to cause irreversible damage

Question 21

How does a paracetamol OD present and how can we treat it?

Answer 21

• Asymptomatic for hours then nausea, vomiting and abdominal pain in the first 24 hours with maximal liver damage after 3-4 days
• Give IV N-Acetylcysteine to replace glutathione
• Can give activated charcoal if taken recently and not staggered
• Take blood after 4 hours to work out extent of damage

Question 22

Why is I.V N-acetylcysteine used and not glutathione in a paracetamol OD?

Answer 22

Glutathione cannot be absorbed into hepatocytes but N-Acetylcysteine can!!!

Question 23

What is the difference in the mechanism of action of aspirin and other NSAIDs?

Answer 23

Aspirin irreversibly inhibits COX but other NSAIDs do it reversibly