Drug interactions

Question 1

Classify the ways that drugs interact with each other

Answer 1

PHYSICOCHEMICAL IINTERACTIONS

1. Pharmaceutical incompatibility
2. Chelating agents

PHARMAKOKINETIC INTERACTIONS

1. Absorption
2. Distribution
3. Metabolism
4. Excretion

PHARMACODYNAMIC INTERACTIONS

1. Additive
   - Summative
   - Synergistic
   - Potentiation
2. Antagonism
   - Competitive
   - Non-competitive
   - Physiological
3. Indirect

Question 2

Give examples of drugs that have physicochemical drug interactions

Answer 2

1. Pharmaceutical incompatibility
   - Acidic heparin has its action terminated by strongly basic protamine
2. Chelating agents
   - Desferroxamine chelates iron
   - Penacillamine chelates heavy metals e.g. in Wilson’s disease
   - Tetracyclines chelate Ca2+ and Fe3+ in the GIT
3. Mix Thiopentone and Sux in same syringe –> formation of a complex
4. Paraldehyde reacts with plastic syringes (glass syringes needed)

Question 3

Give examples of pharmacokinetic drug interactions with respect to drug absorption

Answer 3

ABSORPTION

• Activated charcoal absorbs drugs in the GIT
• Metoclopramide, antimuscarinics and opioids affect gastric emptying
• VC delay LA distribution

Question 4

Give examples of pharmacokinetic drug interactions with respect to drug distribution

Answer 4

1. Beta Blockers - Reduces CO and so can slow delivery of sux to the NMJ slowing onset.
2. Aspirin can displace bilirubin from albumin in neonates –> kernicterus

Aspirin and sulphonamides can alter protein binding of phenytoin which decreases therapeutic window

Question 5

Give examples of pharmacokinetic drug interactions with respect to drug metabolism

Answer 5

ENZYME INDUCTION can cause ineffectiveness of:

1. Oral contraceptives
2. Corticosteroids
3. Anticoagulants

ENZYME INHIBITION
1. Allopurinol inhibits xanthine oxidase which leads to increased toxicity of mercaptopurine

Question 6

Give examples of pharmacokinetic drug interactions with respect to drug excretion

Answer 6

Aspirin, indomethacin and sulphonamides compete for active transport systems that secrete them. So they can all increase the plasma concentration of each other

Prostaglandins –> renal capillary VD –> NSAIDS decrease renal blood flow

Alter urinary pH –> affect elimination of weak acids and weak bases

Question 7

What are the three types of additive reactions? give an example of each and name and draw the diagram used to illustrate these

Answer 7

Summative

• net effect = sum of individual actions
• e.g. reduced VA with opioids
• e.g. reduced propofol with midazolam

Synergistic

• net effect > sum of individual actions
• E.g. sulphonamide + trimethoprim antibiotics are bacteriostatic alone but bacteriocidal when combined.
• e.g. Clonidine and opiates

Potentiation

• One drug increases the effect of another
• Aminoglycosides / Magnesium increase competitive neuromuscular blockade of NDMR

the isobologram: inhibition, summation, synergism

Question 8

Classify the types of pharmacodynamic antagonistic drug interactions and give examples of each

Answer 8

Direct (competitive)

• Same receptors
• Flumazenil reversing benzo
• Naloxine reversing opioids

Indirect
- Neostigmine reversal NDMR (Achase inhibition)

Competitive

• Occurs when competing ligands bind reversibly with their receptors
• E.g. Rocuronium and increased Ach (with neostigmine)

Non-competitive

• Occurs when ligand binds irreversible with its receptor
• E.g. Ketamine antagonism of glutamate at the NMDA receptor

Physiological
- Histamine and adrenalin on airways

Question 9

Give two examples of indirect pharmacodynamic drug interactions

Answer 9

1. MAOs and Pethidine related hypertensive crisis / serotonin syndrome
2. Diuretics induce hypokalaemia which increases digoxin toxicity

Question 10

Why does the therapeutic window for phenytoin narrow when aspirin / indomethacin / sulphonamides are administered

Answer 10

aspirin / indomethacin / sulphonamides displace phenytoin from plasma proteins increasing the free drug fraction. As only the free drug fraction is the active and the fact that phenytoin’s metabolic enzyme system is readily saturated, its meatbolism cannot increase and so the levels of active drug rise

Question 11

Summarise the P40 enzyme inducers and inhibitors

Answer 11

INHIBITORS
HIV (PIs)
Anti-TB (INH)
Antibiotic (Macrolide)
Antifungal (-azoles)
Antidepressant (Norfluoxetine)
Antiarrhythmic (Amio/Verap/Dilt)
Antihistamine (cimetidine)
Etomidate
Omeprazole

Acute alcohol
Broccoli

INDUCERS
HIV (EFV / NVP)
Anti-TB (Rifampicin/Rifabutin)
Antibiotic (Chloramphenicol)
Antifungal (Griseofulvin)
Anticonvulsant (Barb / CMZ / Phenytoin)
Stimulant (Modafinil)
Glucocorticosteroids

Chronic alcohol
Cigarette Smoking (and polycyclic hydrocarbons - grilled meat)
Grapefruit Juice

Question 12

Give examples of drugs most notably affected by metabolic enzyme inducers and inhibitors

Answer 12

Inducers

• Reduced effect of oral contraceptives –> pregnancy
• Reduced effect of anti-coagulants –> VTE/CVE

Inhibitors
- Warfarin toxicity

Question 13

How is the excretion of aspiring influenced by the administration of NaHCO3 and why

Answer 13

Aspirin is a weak acid (pKa 2.97)
Acids ionize at pH above their pKa.
So at pH of 2.97 aspirin is 50% ionized and unionized
If the pH increased –> more aspirin ionizes. Since it is only the unionized portion that can be reabsorbed by the tubule, the increased fraction of ionized aspirin is trapped in the filtrate and excreted in urine.

Question 14

What is the cytochrome P450 system.

Answer 14

It is a family of proteins within the smooth endoplasmic reticulum of hepatocytes. These enzymes mediate oxidation and reduction of many drugs.

Question 15

Which isoforms of the P450 system are most important in human drug metabolism

Answer 15

CYP 3A4. There are a total of 7 isoforms which are most active in human drug metabolism