NSAIDS

Question 1

What is the most important pharmacokinetic aspect of NSAIDS and what are the implications of this

Answer 1

All are highly protein bound: 90 - 99%

1. Overdose: binding sites all quickly saturated –> increase free fraction
   - -> total drug levels are not meaningful (? free vs bound)
   - -> More free drug to cause toxic effects
   - -> More free drug for removal by dialysis
2. May displace other protein bound drugs changing the free concentration of those

Question 2

What is the overall oral bioavailability for NSAIDS

Answer 2

Sluggish hepatic metabolism means excellent oral bioavailability 80 - 100 %

Question 3

How are NSAIDS metabolised and excreted. What are the exceptions.

Answer 3

Hepatic metabolism (CYP3A and CYP2C) –> water soluble conjugates –> renal excretion.

Exceptions:

1. Diclofenac
   - -> 70% hepatic metabolism then renal excretion
   - -> 30% cleared by biliary clearance: enterohepatic circulation (gut bacteria break down glucoronides –> liberating original drug molecule for reabsorption.
2. Paracoxib (Pro-drug) rapidly metabolized by liver into Valdecoxib (20 seconds). Valdecoxib is then metabolized like other NSAIDS.

Question 4

Why is the fact that NSAIDS are weak acids important

Answer 4

Alkalinizing the urine can trap the NSAID in the tubule (ionized) and enhance excretion of free drug in the context of toxicity

Question 5

Why is the enterohepatic recirculation of diclofenac relevant

Answer 5

In the context of toxicity, multi-dose activated charcoal administration is indicated

Question 6

Name and describe the function of the two most important isoforms of cycloxygenase

Answer 6

COX -1 = ‘Constitutive’ present in all tissues has a housekeeping funciton –> maintain various homeostatic baselines

GIT
E2 –> HCO3- mucus secretion in gastric mucosa
I2 –> HCO3- mucus secretion in gastric mucosa

PLATELETS
A2 –> Increase Platelet aggregation
I2 –> Decrease Platelet aggregation + Vasodilation

RENAL
E2 - Increase RBF (Vasodilation)
I2 - Increase RBF (Vasodilation)

COX-2 = Inducible enzyme (by IL-1, TNF alpha)

INFLAMED TISSUE
E2 –> Incr: vasc. permeability, oedema, nociception
I2 –> Incr: vasc. permeability, oedema, nociception

HYPOTHALAMUS
E2 –> Increase Tb set point (fever)

Question 7

How do NSAIDS bring about analgaesia

Answer 7

Prostaglandins bind to nociceptor nerve endings (via G protein couple receptors) –> INCREASING the SENSITIVITY of the nociceptors to inflammatory stimuli: bradykinin and histamine.

NSAIDS decrease PG synthesis decreasing the sensitivity of nociceptors

Question 8

List the adverse effects of NSAIDS

Answer 8

BOTH Selective COX 2 and Non-selective COX inhibitors

1. Cardiovascular Event (MI/Stroke)
   - MI/Stroke
   - Increase BP
   - Accelerate atherosclerosis
   - Decrease cardioprotection of statins
2. Nephrotoxicity
   - Excessive vasoconstriction –> reduced GFR –> AKI
3. Exacerbation CCF
   - Reduced GFR –> Activation RAAS —> fluid retention + HPT (angiotensin)
   - NSAIDS double risk of hospitalization for CCF

Non-selective COX inhibitors only

4. Gastric ulceration
   - Chronic NSAID = 4 - 5 x higher risk of GI bleeding
   - Enteric administration = even higher risk (ion trapping)

Question 9

What is the difference between eicosanoids and prostanoids

Answer 9

Eicosanoids = Prostaglandins + Leukotrienes

Prostanoids = Prostaglandins

Question 10

Differentiate COX 1, COX 2 and COX 3

Answer 10

COX 1
- Constitutively expressed in most tissues
- Housekeeping functions: GIT, Plts, RBF
(can be induced during cell differentiation and angiogenesis)

COX 2
- Induced by inflammation (interferon, IL1, TNF), hormones, hypoxia

COX 3
- No prostaglandin producing activity

Question 11

How do NSAIDS bring about:

1. Anti-inflammatory
2. Analgaesic
3. Antipyretic effects

Answer 11

1. Anti-inflammatory - Block PGE2 and PGI2 synthesis (reduced VD and oedema)
2. Analgaesia - Reduced PGE2, PGI2 –> reduced sensitization of nociceptors to inflammatory stimuli (bradykinin and histamine)
3. Antipyretic - Blocks PGE2 mediated change in set point body temperature in the hypothalamus

Question 12

What are the important pharmacokinetic properties of NSAIDS

Answer 12

Lipid soluble weak acids
Completely absorbed GIT
Highly protein bound (90 - 99%)
Half life varies 2 - 8 hours

Question 13

What % of patients on chronic NSAIDS develop GIT bleeding

Answer 13

1 - 3%

Question 14

How do NSAIDS elicit GIT erosion, ulceration and bleeding

Answer 14

PGI2 and E2 promote HCO3- rich mucus production i the GIT mucosa.

PGI2 and E2 also inhibit H+ secretion.

Question 15

How does the risk of GIT ulceration change if patients are on concomitant aspirin

Answer 15

Increases

Question 16

How does the risk of cardiovascular event differ for patients on long term COX 2 inhibitors.

State the mechanism for this

Answer 16

1.5 - 5 x increased risk of MI/CVA/Thromboemboli

COX 2 inhibit PGI2 (prostacyclin) release from endothelial cells.
- Vasodilator the prevents platelet aggregation

COX 1 containing platelets produce TXA2
- Vasoconstrictor and platelet aggregator

Overall –> prothrombotic effect with increased risk of CVE.

Avoid NSAIDS in patients with increase CVS risk factors

Question 17

Are NSAIDS arhythmogenic?

Answer 17

COX 2 produced prostacyclin = acts as an endogenous antiarrhythmic agentby inhibiting epicardial SNS activity

NSAIDS elicit proarrhythmic effects by inhibiting PGI2, fluid retention and electrolyte abnormalities

Question 18

How do NSAIDs cause heart failure

Answer 18

Fluid retention (GFR down and activation of RAAS)
--> angiotensin --> increased BP

2 x risk of heart failure

Question 19

Describe the effects of NSAIDS in the kidneys

Answer 19

COX 1 controls: RBF

COX 2 controls: diuresis and electrolyte balance

COX 2 inhibition is associated with increased K levels

Question 20

Hod do NSAIDS affect bleeding

Answer 20

Inhibit TXA2 –> reduced platelet aggregation, VC and clot formation –> increased bleeding risk if used in combination with other anticoagulants.

Aspirin binds to platelets irreversibly. The anticoagulant effect of other NSAIDS is usually reversible and of much shorter duration.

Question 21

Should NSAIDS be omitted in patients with fractures

Answer 21

Evidence to support NSAID related delayed fracture healing is largely opinion based. Potential mechanisms have not been described.

Avoid in elderly, diabetics, malnourished where delayed fracture healing is already a concern

Question 22

Are NSAIDS used in malignancy?

Answer 22

Inhibition of PGE2 associated with apoptosis in cancer cells