15 NSAIDs

Question 1

What are prostanoids and what do they do?

Answer 1

Prostanoids= a type of eicosanoid

Produced locally on demand

Examples= prostglandins, prostacyclin, thromboxanes

Question 2

In general terms, how do NSAIDs work?

Answer 2

NSAIDs- inhibit down stream products of arachidonic acid by inhibiting COX (compete with arachidonic acid for hydrophobic site of COX)

Work as:

1. Antipyretics
2. Analgesics
3. Anti-inflammatory

Question 3

How is arachidonic acid synthesised from linoleic acid?

Answer 3

Linoleic acid obtained from diet- vegetable oils

Linoleic acid= converted hepatically to arachidonic acid (found throughout body- in particualr in muscle, brain and liver)

Question 4

Differentiate between the 2 functional isoforms of cyclooxygenase enzymes.

Answer 4

(don’t need to learn table- not an exhaustive list)

Question 5

Through what types of receptor do prostanoids act?

Answer 5

GPCRs

Question 6

Give examples of 5 prostanoids.

Answer 6

Question 7

Give 2 examples of substances which can enhance the action of prostanoids.

Answer 7

Local autocoids eg:

1. Bradykinin
2. Histamine

Question 8

What effects do thromboxane (TXA₂) and prostacyclin (PGI₂) have on vasculature?

Answer 8

Thromboxane= vasoconstrictor

Prostacyclin= vasodilator

Question 9

NSAIDs have 3 major actions: analgesic, anti-inflammatory and anti-pyretic. How do they work as analgesics?

Answer 9

Question 10

NSAIDs have 3 major actions: analgesic, anti-inflammatory and anti-pyretic. How do they work as anti-inflammatories?

Answer 10

Symptomatic relief by COX inhibition- little/no effect on underlying condition

Question 11

NSAIDs have 3 major actions: analgesic, anti-inflammatory and anti-pyretic. How do they work as anti-pyretics?

Answer 11

Question 12

Name 6 NSAIDs and put them in order of increasing COX-2 or increasing COX-1 selectivity.

Answer 12

1. Aspirin
2. Ibruprofen
3. Naproxen
4. Diclofenac
5. Celecoxib
6. Etoricoxib

Question 13

Differentiate between naproxen and naloxone

Answer 13

Naproxen= NSAID

Naloxone= opioid receptor antagonist (used for overdose)

Question 14

What is the most common ADR for NSAIDs? Explain why.

Answer 14

GI upset

• Dyspepsia
• Nausea
• Peptic ulceration
• Bleeding
• Perforation

Why?

COX enzymes inhibited, prostaglandin synthesis affected

Less mucus and bicarbonate secretion

More acid secretion

Less mucosal blood flow

Enhanced cytotoxcity and hypoxia

Question 15

What are the cautions for prescribing NSAIDs?

Answer 15

GI

• Can cause exacerbation of IBD
• Loacl irritation and bleeding from rectal admin
• Caution:
  
  • Elderly
  • Prolonged use
  • PPIs
  • Anticoagulants
  • Smoking
  • Alcohol
  • History of peptic ulceration
  • Helicobacter pylori

Question 16

What effects do NSAIDs have on the kidneys? Explain why.

Who do we therefore need to be careful about prescribing NSAIDs to?

Answer 16

• Decrease GFR (reversible)
• Decrease renal blood flow (reversible)

Prostaglandins required for vasodilation and renal perfusion

Prostaglandins inhibit sodium absorption in collecting duct–> natriuresis

Cautions:

• Underlying CKD
  Heart failure
• Very young and elderly

Question 17

Give 2 examples of selective COX-2 inhibitors.

Explain why they generally have less GI ADRs.

Answer 17

1. Celecoxib
2. Etoricoxib

COX-2 inhibitors avoid inhibition of homeostatic actions mediated by COX-1

eg Platelets only have COX-1

Question 18

NSAIDs are susceptible to competitive displacement. Explain what this means and give examples of some drugs which compete with NSAIDs for protein binding.

Answer 18

NSAIDs= highly protein bound

NSAIDs–> displace other protein bound drugs–> increase free drug concentration

Examples:

1. Sulfonylureas- hypoglycaemia
2. Methotrexate- hepatotoxicity
3. Warfarin- increased bleeding risk

Question 19

NSAIDs have lots of indications. List a few of them.

Answer 19

Question 20

Give some of the contraindications for NSAID use.

Answer 20

CVD risk increase associated with NSAID use

Impaired renal function

GI disease due to NSAID use

Question 21

Paracetamol is well absorbed from the GI tract. Where is it inactivated?

Answer 21

Inactivated primarily by conjugation in liver

Question 22

NAPQI (N-acetyl-p-benzoquinoneimine) is a highly reactive metabolite of paracetamol.

Conjugation with what molecule in the liver renders it harmless? How much paracetamol is required to cause irreversible damage?

Answer 22

NAPQI- conjugates with glutathione

150mg/kg= sufficient to cause ireversible damage

Question 23

If a patient has a paracetamol overdose;

• How will they present?
• How do find out the extent of the overdose?
• How do we treat it? (why do we not just give glutathione?)

Answer 23

• How will they present?
  
  • Can be asymptomatic for hours
  • Nausea, vomiting, abdominal pain (first 24hrs)
• How do find out the extent of the overdose?
  
  • Blood after 4hrs- will know extent of overdose
• How do we treat it? (why do we not just give glutathione?)
  
  • Give N-Acetylcysteine
    
    • Drives phase 2 metabolism
  • Glutathione- doesn’t get absorbed into hepatocytes