Pharmacokinetics

Question 1

Types of Drug Administration

Answer 1

Oral
Inhalation
I.v.
I.m.
Dermal

Can be divided into enteral and paraenteral.

Question 2

What are the 2 ways that drugs can move?

Answer 2

Bulk flow transfer (moving with the flow of fluid, for water soluble drugs)

Diffusion also transfer (small distances, lipid soluble drugs)

Question 3

What are the 4 major mechanism of transport? Which one is not common and which one is least relevant?

Answer 3

• diffusion
• diffusion across aqueous pores (least relevant because it has to be very small <0.5nm)
• carrier mediated transport
• pinocytosis (least common)

Question 4

What are most drugs?

Answer 4

Weak acids or weak bases

Therefore drugs exist in ionised (polar) and non-ionised (non-polar) forms – the ratio depends on the pH

Question 5

Aspirin and morphine - molecule types

Answer 5

Aspirin is a weak acid

Morphine is a weak base

Question 6

Pharmacokinetics

Answer 6

The journey of the drug through the body

A - Absorption
D - Distribution
M - Metabolism
E - Excretion

Question 7

ADME

Answer 7

A - Absorption
D - Distribution
M - Metabolism
E - Excretion

-> Important because it determines the dose of the drug available to the tissues

Question 8

It what forms do most drugs exist?

Answer 8

ionised (polar) and unionised (non-polar)

-> the ratio depends on the pH

Question 9

What is pKa? How can it be calculate it?

Answer 9

The pKa is the dissociation constant for weak acids and weak bases.
Calculate it with the Henderson Hasselbach equation:

pKa = pH + log (BH+ / B)     -> for weak bases
pKa = pH + log (AH / A-).     -> for weak acids

Question 10

How do weak acids/bases act in acidic/alkaline environments?

Answer 10

Weak acids will be more unionized in acidic environments

Weak bases will be more unionized in alkaline environments.

Question 11

Does the pKa of a drug change?

Answer 11

pKa of drug DOES NOT change

pH of different body compartments DO change

Question 12

Logarythm

Answer 12

y = log b (x)

b^y = x

Question 13

How can you calculate the proportion of the ionised and unionised drug?

Answer 13

If you know the pH of the body compartment:

10 ^ (pKa - pH) = [AH] / [A-]

10 ^ (pKa - pH) = [BH+] / [B]

Question 14

Which factors influence drug distribution?

Answer 14

• Regional blood flow
• Extracellular binding (Plasma-protein binding)
• Capillary permeability (tissue alterations – renal, hepatic, brain/CNS, placental)
• Localisation in tissues

Question 15

How does density of capillaries differ with metabolic activity of tissues?

Answer 15

Highly metabolically active tissues

-> denser capillary networks

Question 16

Influences of PPB on distribution

Answer 16

• if a drug is ppb it is not leaving the blood
• warfarin is heavily ppb (90%)
• Aspirin 50-60% ppb
• careful when co-administering 2 ppb drugs as they can be displaced

Question 17

Which drugs tend to be ppb?

Answer 17

acidic drugs (e.g. aspirin)

warfarin is strongly ppb.

Question 18

Influences of capillary permeability on drug distribution

Answer 18

• lipid soluble drugs have good access to all tissues (even the brain) and will be easily distributed.
• Water soluble drugs have poor access to tissues and are dependant on saturable carrier proteins for access to tissues -> less well distributed

fenestrated, discontinuous, discontinuous, BBB with TJs

Question 19

What kinds of drugs are not majorly affected by capillary permeability?

Answer 19

Capillary permeability is not really important for lipid soluble drugs, however, water soluble drugs need specific transport mechanisms.

Question 20

Influences of localisation of drug on distribution

Answer 20

Fat: large body tissue, small blood supply (2% CO)

Very fat soluble drugs (e.g. general anaesthesia) distribute in adipose tissue, hence drowsiness over a longer time period due to release of drug into adipose tissue -> slowly leaks back in

Question 21

What is the oil/water partition coefficient?

Answer 21

How well a drug dissolves in water / oil.

e.g. 98% stored in body water (tissues) , 2% in body fat

Question 22

What are the 2 major routes of drug excretion?

Answer 22

Liver (some drugs are concentrated in the bile)

Kidney (ultimately responsible for the excretion of most drugs)

Question 23

Enterohepatic cyclinge

Answer 23

drug/metabolite excreted into gut (via bile) then reabsorbed, taken to liver
and excreted again… leads to drug persistence.

Water soluble conjugate added to drug, bacteria in gut remove the conjugate and the drug is free again in its lipid soluble form which diffuses back into the hep portal vein and the liver. Once in the liver it can also enter the circulation.

Question 24

What drugs are usually excreted by the liver?

Answer 24

usually large molecular weight conjugates

Question 25

Kidney: What percentage of plasma is filtered, how much passes by?

Answer 25

20% filtered

80% passes by

Question 26

What are the steps in drug elimination through the kidneys?

Answer 26

1) Glomerular filtration (dependant on size)
2) active secretion (dependant on available transporters)
3) passive reabsorption (dependant on urine pH and the extent of drug metabolism) -> if it is lipid soluble enough it will diffuse right back

Massive amount of active secretion!!!!

Question 27

Drug excretion through the liver

Answer 27

Biliary excretion (large molecular weight molecules can concentrate) 
Active transport systems – into bile (bile acids and  glucuronides)

Question 28

What are some less important routes of drug excretion?

Answer 28

lungs, skin, gastrointestinal secretions,

saliva, sweat, milk, genital secretions

Question 29

“Bioavailability”

Answer 29

Proportion of the administered drug that is available within the body to exert its pharmacological effect

-> linked to absorption

Question 30

“Apparent volume of distribution”

Answer 30

The volume in which a drug appears to be distributed
- an indicator of the pattern of distribution

-> linked to distribution

Question 31

“Biological half-life”

Answer 31

Time taken for the concentration of drug (in blood/plasma) to fall to half its original value

-> linked to metabolism/excretion

Question 32

“Clearance”

Answer 32

Blood (plasma) clearance is the volume of blood (plasma) cleared of a drug (i.e. from which the drug is completely removed) in a unit time

(Related to volume of distribution and the rate at which the drug is eliminated. If clearance involves several processes, then total clearance is the sum of these processes.)

-> linked to excretion

Question 33

How are drugs actively secreted in the kidneys?

Answer 33

The kidneys have a large number of transporters that recognise basic acidic drugs and move them across the membrane and into the urine.

-> massive amount of active secretion in the kidneys