Week 9 Non-Opioid Analgesics

Question 1

NSAIDs act by inhibiting ____ enzymes

Answer 1

COX

Question 2

MOA of Aspirin

Answer 2

• aspirin (acetylsalicylic acid) transfers its acetyl group to cyclooxygenase which inactivates COX (both isoforms)
• IRREVERSIBLE REACTION
• the other NSAIDs are all REVERSIBLE inhibitors of COX

Question 3

the 3 major therapeutic actions of NSAIDs

Answer 3

reduce inflammation
analgesic
antipyretic

not all NSAIDs are equally effective in each action

Question 4

COX transforms what molecule into prostaglandins?

Answer 4

Arachidonic acid

Question 5

how do NSAIDs decrease pain?

Answer 5

• decrease PGE2 synthesis

- PGE2 sensitizes nerve endings to bradykinin, histamine & other mediators released locally by the inflammatory process

Question 6

how do NSAIDs decrease fever?

Answer 6

• impede PGE2 synthesis & release

- PGE2 is stimulated by pyrogens such as cytokines which are activated by infection

Question 7

non-opioid analgesics include?

Answer 7

NSAIDs and acetaminophen

It is still a non-opioid analgesic

Question 8

why is acetaminophen not an NSAID?

Answer 8

does not have anti-inflammatory effects

Question 9

principal uses of non-opioid analgesics?

Answer 9

• relief mild-to-moderate somatic pain (incl. some post-operative)
• relieve inflammation incl. RA, OA, gout, ankylosing spondylitis (except acetaminophen)
• reduce fever
• prophylaxis MI & stroke (Aspirin specifically)

Question 10

why are NSAIDs not as effective for reducing pain as opioids?

Answer 10

NSAIDs display a ceiling effect for analgesia

Question 11

morphine vs aspirin

** KNOW THIS FOR EXAM

Answer 11

opioid (morphine):

• visceral pain (somatic)
• moderate to severe
• acts in CNS
• tolerance, physical dependence likely
• high abuse potential

non-opioid (aspirin)

• somatic pain
• mild to moderate pain
• acts locally
• no tolerance/physical dependence potential
• no abuse potential

Question 12

5 classes of anti-inflammatory analgesic drugs

Answer 12

• salicylates (ASA [sulfur-based])
• propionic acids (ibuprofen)
• pyrazalone derivatives (phenylbutazone)
• indole derivatives (indomethacin)
• remission-inducing / disease modifying drugs (chloroquine)

Question 13

role of leukotrienes?

Answer 13

increase vascular permeability

increase mobilization of endogenous mediators of inflammation

Question 14

role of PGE2

Answer 14

promote edema and leukocyte infiltration

Question 15

role of PGI2

Answer 15

increase vascular permeability, enhance pain producing properties of bradykinin

Question 16

major chemicals contributing to vascular permeability?

Answer 16

histamine & leukotrienes

Question 17

major chemicals contributing to vasodilation?

Answer 17

PGs, bradykinin

Question 18

major chemical contributor to pain?

Answer 18

bradykinin

Question 19

major chemical contributors to chemotaxis?

Answer 19

PGs, LTs

Question 20

prostaglandins are produced by which tissues

Answer 20

virtually all tissues

Question 21

where do PGs act?

Answer 21

act locally on tissues in which they are synthesized

Question 22

why don’t PGs circulate in the blood?

Answer 22

metabolized rapidly to inactive products at their sites of action

Question 23

ALL Non-opioid analgesics act by inhibiting the synthesis of ____

Answer 23

PGs

Question 24

NSAIDs inhibit Cox-1, Cox-2, or both?

Answer 24

both - thereby inhibiting PG synthesis

Question 25

describe Cox-1

Answer 25

• constitutive enzyme in most cells
• produces PGs that are cytoprotective to GIT
• involved in normal homeostasis
• platelet aggregation, renal homeostasis

Question 26

describe Cox-2

Answer 26

• inducible enzyme
• induced in inflammatory cells by stimuli (oxidative stress, injury, ischemia, seizures, neurodegenerative ds)
• dramatically unregulated during inflammation (10-18x)
• constitutive in brain, kidney, bone (renal blood flow maintenance, renal electrolyte homeostasis)

Question 27

ASA/NSAIDs/COX-2 effects and CV risk

Answer 27

2005-6 FDA & European regulatory agencies added a warning of increased thrombotic CV risk for all NSAIDs

May cause increased risk of serious CV events, MI, stroke,
Risk may increase w duration of use

Question 28

nonselective NSAIDs inhibit COX enzymes reversibly or irreversibly?

Answer 28

reversibly

Question 29

MOA Selective COX-2 inhibitors

Answer 29

inhibit COX-2 irreversibly in time-dependent manner

Question 30

half life of aspirin?

Answer 30

3.5 hours
ranges b/w 2-12 hours
first order kinetics

Question 31

where is aspirin absorbed

Answer 31

unionized salicylate passively absorbed in small intestine & stomach
dissolution favoured at higher pH of gut

Question 32

distribution of aspirin

Answer 32

readily, into most tissues/fluids

cross BBB & placenta

Question 33

metabolism of aspirin

Answer 33

rapidly hydrolyzed to salicylate (de-acetylated)
75% conjugate by LV glycine
excreted via kidney
at anti-inflammatory doses (>4g/d) hepatic metabolism becomes saturated & zero-order kinetics observed = half-life 15+hrs

Question 34

which of these 3 effects does acetaminophen not exhibit?

antipyretic; antiinflammatory; analgesic

Answer 34

anti-inflammatory

therefore acetaminophen is not considered an NSAID

Question 35

why is aspirin (ASA) avoided in gout or in patients taking probenecid?

Answer 35

at low doses (4g-/d) uric acid secretion is unchanged or increased

Question 36

how do NSAIDs circulate in the body?

Answer 36

highly bound to plasma protein

Question 37

explain adverse affects of NSAIDs on GI

Answer 37

• range from dyspepsia to bleeding
• microscopic GI bleeds are universal
• normally PGIs (prostacyclin) inhibits gastric acid secretion
• PGE2 & PGF2 stim. synthesis protective mucus in stomach & SI
• gastritis (damages epithelium)
  = increased risk bleed & ulceration

Question 38

adverse hematologic effects of NSAIDs

Answer 38

• TXA2 enhances platelet aggregation
• aspirin irreversibly inhibits COX-1 mediated TXA2 formation
• other NSAIDs reversibly inhibit TXA2 production
• platelets lack nuclei & therefore can’t synthesize new enzyme; lack of TX persists for life of platelet (3-7 days)
• therefore aspirin withheld for the week prior to surgery
• as NSAIDs before more COX-2 selective, expected to have less effect on platelet inhibition

Question 39

adverse renal effects of NSAIDs

Answer 39

• PGE2 & PGI2 maintain renal blood flow (vasodilators)
• NSAIDs prevent synthesis of these
  = retention sodium & water & may cause edema
• decrease renal blood flow –> decrease GFR –> water & electrolyte reabsorption in proximal tubule
  hx heart failure/kidney ds at high risk
  can mitigate effects of antihypertensive meds
  can lead to acute renal failure

Question 40

what percent of population has a hypersensitivity reaction to NSAIDs?

Answer 40

15%

urticaria; bronchoconstriction; angioneurotic edema

Question 41

what are the major risk factors for developing GI problems with NSAID use

Answer 41

prior UGI clinical event (2.5-4x increased risk)
older age; somewhere b/w 50-65 (2-3.5x)
anticoagulation (Warfarin) (3x)
corticosteroid (2x)
high-dose/multiple NSAIDs + low dose aspirin (2-4x)

Question 42

additional adverse effects w/ASA re: blood

Answer 42

prolonged bleeding time

Question 43

additional adverse effects w/ASA re: respiration

Answer 43

• pulmonary edema risk in elderly
• increase RR
• high doses lead to respiratory depression

Question 44

additional adverse effects w/ASA re: Reye’s syndrome

Answer 44

• use of ASA in children w viral fever

- fatal, fulminating hepatitis w cerebral edema

Question 45

what effect do selective COX-2 inhibitors have on platelet function?

Answer 45

COX-2 selective inhibitors have no effect on platelet function even in supra-therapeutic doses
: lack of COX-2 in platelet

Question 46

describe mild salicylism

Answer 46

- mild form of salicylate toxicity
n/v
marked hyperventilation
HA
mental confusion
dizziness
tinnitus**classic symptom

Question 47

describe severe salicylism

Answer 47

restlessness
delirium
hallucinations
convulsions
coma
respiratory and metabolic acidosis
death from respiratory failure

Question 48

who is ASA (aspirin) CI for?

Answer 48

asthmatic (block COX –> increase lipoxygenase pathway –> increase LTs ==> severe bronchospasm)
pregnancy (risk premature closure of ductus arteriosus)
viral infections in children (10g can = death)

Question 49

When was Vioxx® approved for use in Canada?

Answer 49

1999
despite evidence in the original clinical trials of a nonstatistically significant increase in risk of cardiovascular events and despite the known potential for cardiovascular events associated with any drug that interferes with cyclooxygenase-2 enzyme regulators of prostacyclin — a potent vasodilator and inhibitor of platelet aggregation.

Vioxx® was approved in October, 1999, in liquid and tablet forms for the treatment of acute and chronic signs and symptoms of osteoarthritis, relief of menstrual pain, and relief of acute pain in adults and was first marketed in November, 1999. In April 2003, the acute and chronic treatment of the signs and symptoms of rheumatoid arthritis in adults was granted approval by Health Canada.

Question 50

What was Vioxx® used for?

Answer 50

COX-2 inhibitor

Question 51

Why was Vioxx® withdrawn?

Answer 51

increased risk of cardiovascular disease, mainly myocardial infarction and stroke

Question 52

When was Health Canada notified about the recall of Vioxx®?

Answer 52

Health Canada received official notice of the withdrawal of Vioxx® by letter from Merck Frosst Canada & Co., on the morning of September 30, 2004

Question 53

Has Health Canada tracked any cardiovascular adverse events related to this drug?

Answer 53

In 2002, Health Canada issued an advisory, which included preliminary information about increased risk of cardiovascular events related to the use of Vioxx®. The advisory was prompted by the results of a study entitled VIGOR (Vioxx® Gastrointestinal Outcomes Research). Subsequently, Health Canada implemented labelling changes to reflect the findings from the VIGOR study, specifically the inclusion of information that Vioxx® should be used with caution in patients with a history of heart disease.

Health Canada has been looking at post-market information about cardiovascular events as they relate to Vioxx® and other selective COX-2 inhibitor NSAIDs since 2000.

Question 54

What other drugs are similar to Vioxx® ?

Answer 54

Other COX-2 selective NSAIDs currently available are Celebrex (celecoxib) and Bextra (valdecoxib).

valdecoxib also removed; we are left with just celebrex.
Celebrex is the only selective COX-2 inhibitor on the market

Question 55

what did the VIGOR (Vioxx GI Outcomes Research) study find when comparing Roficoxib (Vioxx) & Naproxen?

Answer 55

4-fold increased risk of acute MI in Roficoxib patients (in high risk patients) (0.4% vs 0.1%,RR0.25) over the 12 month span of the study.
The elevated risk began during the second month on rofecoxib. There was no significant difference in the mortality from cardiovascular events between the two groups, nor was there any significant difference in the rate of myocardial infarction between the rofecoxib and naproxen treatment groups in patients without high cardiovascular risk. The difference in overall risk was by the patients at higher risk of heart attack, i.e. those meeting the criteria for low-dose aspirin prophylaxis of secondary cardiovascular events (previous myocardial infarction, angina,cerebrovascular accident,transient ischemic attack, or coronary artery bypass).

Question 56

what is the NSAID tug & pull b/w GI benefit & cardiotoxicity?

Answer 56

the more specific an NSAID is for COX-1 inhibition, the more GI toxicity we can observe
the more specific the inhibition of COX-2, the more CV toxicity we can predict

Question 57

What is the effect on CV risk that we observe over time w/coxibs?

Answer 57

cumulative effect with time
risk persists 30 days after discontinuation
risk within first 10-30 days of Rx

Question 58

what is the Vioxx generic name?

Answer 58

rofecoxib

Question 59

what is the relationship b/w the coxibs half life and CV risk?

Answer 59

longer T1/2 = more CV events

Question 60

coxibs should not be used in patients with ______?

Answer 60

established CAD
stroke
peripheral arterial disease

Question 61

caution when prescribing coxibs in patients with…?

Answer 61

CAD risk

HTN, hyperlipidemia, DM, smoking

Question 62

3 CIs to NSAID use

Answer 62

renal insufficiency
allergic reaction
concurrent GI injury

Question 63

2 reasons (risk factors) a classical NSAID could not be used (why you would need to use a Cox-2 inhibitor)

Answer 63

GI risk

bleeding risk

Question 64

advantage of acetaminophen?

Answer 64

doesn’t promote ulcers, bleeding, or renal failure

Question 65

disadvantages of acetaminophen?

Answer 65

at high doses, severe hepatotoxicity results

Question 66

acetaminophen metabolism

Answer 66

• most neutralized & eliminated via glucoronidation & sulfation reactions
• small amount oxidized via p450 resulting in NAPQI (highly reactive metabolite)
• NAPQI either neutralized by glutathione or (if glutathione is depleted) hepatotoxicity occurs

Question 67

what vitamins and minerals do NSAIDs deplete?

Answer 67

folic acid
iron
potassium
sodium
vit C

Question 68

NSAIDs relationship to insulin

Answer 68

decreases insulin clearance

hypoglycemia

Question 69

why should you not take gingko with NSAIDs?

Answer 69

increases bleeding potential