3 - Pharmacokinetics and Pharmacodynamics

Question 1

What is pharmacokinetics and pharmacodynamics?

Answer 1

- Pharmacokinetics: what the body does to the drug

- Pharmacodynamics: what the drug does to the body

Question 2

What are some of the pharmacokinetic facts we need to know about a drug before it can be approved for use?

Answer 2

Question 3

What are some factors that can affect the pharmacokinetics/Vd of a drug?

Answer 3

Question 4

What is bioavailabilty and what is it affected by?

Answer 4

Amount of drug that gets to the systemic circulation unchanged!

Affected by: formulation, age, food (chelation), vomiting, malabsorption (Crohn’s), first pass metabolism in liver and gut

100% in IV

Question 5

Why is metformin available in different preparations?

Answer 5

• Modified slow release only needs to be taken once a day, less likely to have GI side effects
• More expensive to have extended release but patients more likely to adhere if less side effects
• Most of the time different preparations are just branding, e.g nurofen period pain

Question 6

What are some factors that affect the distribution of a drug?

Answer 6

• Blood flow
• Lipophilicity
• Hydrophilicty
• Protein binding (difficult to distribute when bound)
• Vd
• Pregnancy
• Hypoalbuminaemia
• Renal failure
• Other drugs displacing the original drug from protein binding

Question 7

What is the multicompartment model of drug distribution?

Answer 7

Question 8

When prescribing a patient a second drug, when should you be really careful with the first drug interactions?

Answer 8

• Second drug may displace first so more first drug that can elicit a response
• Be careful if first drug is highly protein bound, has a narrow therapeutic index, low Vd

Question 9

How do you work out the volume of distribution?

Answer 9

• Larger Vd than body water means it is absorbed by the adipose tissue
• Larger weight, more adipose so larger Vd so need higher dose

Question 10

What are the two phases of drug metabolism?

Answer 10

Question 11

What CYP’s are affected by smoking and alcohol, and what else can they be affected by?

Answer 11

• Age
• Hepatic disease
• Blood flow to liver
• Alcohol and Cigarette smoking (CYP450 inhibited in acute, induced in chronic)

Question 12

What changes can CYP450 enzymes make to a drug?

Answer 12

• Can inactivate active drugs
• Can activate inactive drugs, e.g Levodopa
• Can covert active drug into another one e.g codeine to morphine

Question 13

What is the most common CYP that metabolises drugs and what CYP is an example of genetic variations?

Answer 13

• CYP3A4
• CYP2D6 absent in some caucasians and over expressed in 30% of Africans. Has substrates like beta blockers and SSRIs

Question 14

When dosing two different patients for a drug, what should you think about in terms of the metabolism of the drug?

Answer 14

• Race
• Sex (women slower ethanol metaboliser)
• Self induced metabolism with drugs e.g Carbamazepine
• If they are taking St John’s Wort (inducer of CYP3A4)
• Weight
• Smoking and drinking status
• Age

Question 15

What routes can drugs be eliminated from the body?

Answer 15

• Mainly through the kidney
• Faeces
• Hair
• Sweat
• Tears
• Saliva
• Breast milk
• Genital secretions

Question 16

What type of drug molecules are excreted renally?

Answer 16

• Low weight polar molecules
• Clearance mainly affected by GFR

Question 17

What type of drug molecules are excreted hepatically and therefore into the faeces?

Answer 17

Usually high molecular weight molecules, conjugated with glucaronic acid

Question 18

How can cardiac disease affect the elimination of a drug?

Answer 18

• Reduces perfusion to the organs, like liver and kidney so less clearance

Question 19

What is the definition of zero and first order kinetics?

Answer 19

First: rate of elimination proportional to drug level, can determine half life

Zero: rate of elimination constant, most drugs in high concentrations, can’t calculate half life and more likely to have toxicitiy

Question 20

What is renal clearance and the units for this equation?

Answer 20

• Volume of blood cleared per unit time (ml/min)
• Rate of elimination/Drug conc in plasma

Question 21

How do you work out the half life of a drug?

Answer 21

• Can only do if 1st order
• Large Vd means small elimination rate which means long half life

Question 22

What are some examples of drugs that are zero order?

Answer 22

• High doses of normal drugs
• Phenytoin
• Salicyclic acid (aspirin)
• Alcohol

Question 23

What are some characteristics of a drug that would mean you need to closely monitor the patient whilst they were on the drug?

Answer 23

• Zero order kinetics
• Long half life
• Narrow therapeutic window
• Drug/drug interactions
• Reported toxic effects

Question 24

How do you get to a steady state of a drug and how can this be used in an equation?

Answer 24

• Reached in 5 half lives, if large half life give loading dose
• Same with termination, takes 5 half lives to be removed from body so important when prescribing new drugs to ask about old drugs, e.g amiodarone
• Need to get to steady state for optimal therapeutic benefit

Question 25

How can you work out Css?

Answer 25

Therefore to change drug plasma concentration need to change dose of drug or dose interval

Question 26

When would you give a loading dose, and how would you calculate this?

Answer 26

• If you need a drug to have a rapid onset or if it has a long half life
• e.g digoxin for AF with heart failure has half life of a week so give a loading dose. if too high can get digitoxic

Question 27

When designing a dosing schedule of a drug for a patient what are some factors we need to think about?

Answer 27

Question 28

How can you measure a patient’s response to a drug to see if it is achieving what we want it to?

Answer 28

• Physiological measurements, e.g BP after antihypertensives
• Feeling
• Appearance
• Primary and secondary prevention

Question 29

How do we work out therapeutic index?

Answer 29

Question 30

What is an inverse agonist and a neutral antagonist?

Answer 30

• Drug binds to the same receptor as an agonist but induces a pharmacological response opposite to that of the agonist so antagonises and opposes
• Neutral antagonist has no activity in the absence of an agonist or inverse agonist but can block the activity of either

Question 31

Why is the volume of distribution apparent and how is it worked out?

Answer 31

As it is the theoretical volume that would be necessary to contain the total amount of an administered drug at the same concentration that it is observed in the blood plasma

Question 32

What is the difference between clearance and elimination rate?

Answer 32

• Clearance is volume of blood completely cleared per unit of time, it is a proportionality factor and stays constant
• Elimination rate is amount cleared and as the concentration of drug in the plasma decreases, the elimination rate decreases

Question 33

How can you work out clearance if the drug is at steady state concentration?

Answer 33

Question 34

If a patient needs a loading dose of a drug via IV of 1521mg and the iv can adminster 10mg/ml at a maximum of 50mg/min, what is the smallest rate of infusion?

Answer 34

• 1521/10 = 152.1 ml needs to be administered
• Maximum of 5ml/min

Question 35

Answer 35

Question 36

What is a functional antagonist?

Answer 36

Question 37

Why do we titrate drugs when introducing and terminating them?

Answer 37

• For maximum benefit without adverse effects
• Helps identify safe and optimal level on individual patient level
• Start low and work up to full dose or until side effects are seen

Question 38

Is the plasma steady state reached quicker if the rate of infusion of an IV drug drug is doubled?

Answer 38

No - the steady state concentration will be higher but still takes 5 half lives

Question 39

A 46 year old femal patient (70kg) is prescribed ramipril. She takes 5mg OD. The peak plasma concentration is 0.06mg/L. What is the apparent volume of distribution?

Answer 39

1.2L/kg

(remember to divide the litres by kg)

Question 40

Why does the combination preparation of buprenorphine and naloxone help manage patients who are susceptible to narcotic abuse?

Answer 40

• Stops withdrawal symptoms as the buprenorphine can still activate some receptors but naloxone antagonist has a higher affinity
• If patient decides to inject the drug to get the buprenorphine fix it will not be very good due to the bioavailability

Question 41

Why is adrenaline administered with lidocaine for local anaesthesia?

Answer 41

Has a vasoconstrictive effect to lower the elimination of lidocain so it stays around in the area for longer

Question 42

If two patients are prescribed the same drug but one is 10kg heavier than the other, what will this mean for the doses needed?

Answer 42

Patient who is 10kg heavier will need a higher dose as drug will have a higher volume of distribution as goes into more of the adipose

Question 43

Why are beta-blockers contraindicated in asthmatics?

Answer 43

Bronchoconstriction at B2 receptors

Question 44

Why do you get a dry cough with ACEi?

Answer 44

Build up of bradykinin (bronchial vasodilator)