Pharmokinetics

Question 1

what are main routes of drug administration?

Answer 1

IV
IM
IP
dermal 
Subcutaneous 
inhalation
ingestion

Question 2

what are the two ways drugs can be administered?

Answer 2

systemic- across the entire organism, into deep tissue like the brain

local- restricted to one area, not directly into the bloodstream

Question 3

what are the sites used for administration in terms of GI?

Answer 3

enteral- GI administration

parenteral- outside the GIT

Question 4

advantage and disadvantage of using IV administration?

Answer 4

rapid onset of the drug action

invasive and requires training

Question 5

examples of drugs and their administration

Answer 5

Salbutamol- inhalation, system

Betnovate- dermal, local

Question 6

what is the journey of the drug?

Answer 6

ADME
A-dministration 
D-istribution 
M-etabolism 
E-xcretion

Question 7

what are the two pathways that drugs use to move in a biological system?

Answer 7

1) bulk flow transfer- via the blood

2) diffusional transfer- short distances

Question 8

what are the two areas a drug has to transverse?

Answer 8

compartments (aqueous)
- blood, lymph, ECF

barrier (lipid)
- cell membrane

Question 9

which administration routes are fastest?

Answer 9

IV

then inhalation

Question 10

what are the methods of crossing a lipid barrier?

Answer 10

diffusion
aqueous pores (polar only)
carrier molecules
pinocytosis

Question 11

what type of drug can freely move into a lipid barrier?

Answer 11

non-polar substances, lipid soluble

Question 12

what sort of chemicals are most drugs and how does that affect whether they cross lipid barriers or not?

Answer 12

most drugs are either weak acids or weak bases

the drugs therefore exists in an ionised and unionised form in equilibrium

Question 13

what does the ratio of ionised and unionised states depend on?

Answer 13

the pH of the environment and the pKa

when the pKa= pH, there is a perfect dynamic equilibrium

Question 14

examples of weak acid and weak base drugs?

Answer 14

weak acid- aspirin (proton donor)

weak base- morphine (proton acceptor)

Question 15

what is the partition hypothesis?

Answer 15

the drug diffuses passively across a membrane when it is unionised. In the ionised state, a drug diffuses slowly and is absorbed slowly

Question 16

how well is aspirin absorbed in different parts of the GIT?

Answer 16

in the stomach it diffuses inside well due to the low pH enable a dominant unionised state, whilst in the high pH of the late GIT the aspirin diffuses in slowly

when pKa is above the pH of the environment (acids), the unionised form is dominant and therefore diffusion occurs readily. This is the reverse for basic drugs

Question 17

what is the Hasselbach equation for weak acids and bases? how can it be used to identify if a drug will be ionised or unionised predominantly?

Answer 17

acids: unionised over ionised [AH/A-]
bases: ionised over unionised [BH+/B]

rearrangement: 10 to the power pKa-pH
- -> a value >1 indicates the top state is more dominant (a ratio is provided)

pKa of a drug never changes, but the pH of a compartment can change

Question 18

what is ion trapping?

Answer 18

when the pH of a compartment is very high above the pKa of the drug, the drug is unable to leave and stays ionised in the blood to be excreted.

Question 19

what are the factors that affect distribution of the drug?

Answer 19

• plasma protein binding
• regional blood flow
• capillary permeability
• localisation in tissues

Question 20

how does regional flow affect distribution of a drug?

Answer 20

when blood flow increases to an area i.e. a greater proportion of CO is delivered, the denser the capillary network, the more drug that is absorbed per unit time

e.g. in exercise

Question 21

how does plasma protein binding affect distribution of a drug?

Answer 21

they provide a reservoir for drugs like warfarin and aspirin, so the drug cannot leave the drug. When bound tightly and then won’t access the tissue. This would require a higher dose.

aspirin 50-80% PP bound

Question 22

how does capillary permeability affect distribution of a drug?

Answer 22

the more permeable, the freer the movement.
continuous- H20 filled gaps
BBB- very tight junctions

Question 23

what are the ideal drugs to enter the BBB?

Answer 23

lipophilic as water soluble drugs can’t get in unless there is a mediator available

Question 24

how does localisation affect the distribution of a drug?

Answer 24

drugs persist in certain tissues

e.g. general anaesthetic which is very lipid soluble distributes itself in fat and leaks out very slowly.

Question 25

what are the two major routes of drug excretion?

Answer 25

1) liver- drugs are concentrated into the bile, usually involving larger MW drugs
2) kidneys- most drugs are removed this way. Low MW into urine

Question 26

kidney excretion of drugs

Answer 26

bioactive component is small enough to be filtered through. active secretion of the remain 80% in the blood acids and bases in the PCT, some reabsorption of lipid soluble drugs.

Question 27

liver excretion of drugs

Answer 27

drugs concentrated in bile at the bile canaliculi then excreted into the gut

Question 28

what is enterohepatic cycling of drugs and how does it lead to drug persistence?

Answer 28

in the gut, the drug metabolite may be reabsorbed by the liver via the hepatic portal vein

after water soluble conjugate (glucuronide) is broken off by bacteria (post bilary excretion)

This leads to drug persistence in the system (toxicity)

Question 29

what are other methods that drugs can be excreted?

Answer 29

lungs, skin, GI secretions, saliva, sweat, milk and genetical secretions

Question 30

what is bioavailability?

Answer 30

key: in systemic circulation
GI is not systemic circulation

proportion of drug available within the body to exert a physiological effect

The amount of drug contained in a medicine that enters the systemic circulation in an unchanged form after administration of the product.

Question 31

apparent volume

Answer 31

indicator of apparent volume of distribution of the drug

Question 32

what is the biological half life?

Answer 32

the time taken for the concentration of a drug to halve

Indicates the rate of metabolism and indicates the dose required for chronic use.

Question 33

first order kinetics

Answer 33

rate of elimination of a drug

the amount of drug decreases proportional to the concentration of the drug remaining

i.e. slower removal of the drug at lower concentration

Question 34

zero order kinetics

Answer 34

linear elimination of a drug
implies an enzymatic removal of a drug

i.e. the same amount of drug is always removed regardless of concentration.

Question 35

what is entral administration?

Answer 35

involves the GI tract:

Oral, Rectal, Buccal (between gums and cheek), Sublingual (under tongue)

Question 36

what is parentral administration?

Answer 36

doesn’t involve the GI tract: Intravenous, Intramuscular, Intradermal, Subcutaneous, Inhalation

Question 37

where can lipid soluble drugs be reabsorbed in the kidney?

Answer 37

proximal and distal tubules

Question 38

what are some other routes of drug excretion?

Answer 38

lungs
skin
GI secretions
saliva
sweat
milk
genital secretions

Question 39

what is pharmacokinetics?

Answer 39

the interaction of the body with the drug

Question 40

what is pharmacodynamics?

Answer 40

the interaction of the drug on the body

Question 41

advantages and disadvantages of oral administration

Answer 41

[+]

• self-medication
• limited sterile preparations
• incidence of anaphylaxis is lower
• capacity to prevent complete absorption

[-]

• inappropriate for drugs that are labile in acid pH (stomach) i.e liable to alteration
• undergo extensive first pass metabolism
• requires patient compliance

Question 42

advantages and disadvantages of IV administration

Answer 42

[+]

• rapid onset
• avoids poor absorption/destruction in stomach

[-]

• higher incidence of anaphylaxis
• trained personnel required
• complications possible

Question 43

advantages and disadvantages of inhalation administration

Answer 43

[+]

• ideal for small molecules
• large surface area so faster onset of action.

[-]
possible localised effect in lung

Question 44

advantages and disadvantages of IM administration

Answer 44

[+]

• relatively high blood flow
• depot therapy (prolonged absorption from pellet etc.)

[-]
possible infection and nerve damage.

Question 45

advantages and disadvantages of subcutaneous administration

Answer 45

[+]

• local administration possible
• enables depot therapy

[-]
pain
abscesses
tissue necrosis.

Question 46

what are the advantages and disadvantages of percutaneous administration

Answer 46

[+]
- local application and action
- lipid soluble components diffuse rapidly.
[-]
- local irritation and skin reactions
- alteration of skin structure.

Question 47

why is bioavailability not an indicator of drug effectiveness?

Answer 47

• drug may become ion trapped
• drug may be a prodrug
• cream for example don’t enter systemic circulation and don’t need to be bioavailable

Question 48

how is bioavailability measured?

Answer 48

‘plasma level vs. time curves

with comparison of IV administration
(100% bioavailable)

vs. intended route of administration.

Question 49

what is bioavailability in IV administration?

Answer 49

100%

Question 50

what factors influence bioavailability?

Answer 50

• physiochemical properties of the drug i.e. pKA
• GI pH
• drug actively or passively diffused
• size of drug particles
• physiochemical interactions between drug and gut contents
• illness e.g. GI disease, polymorphism

Question 51

what effect does 100% first pass metabolism of a drug have on

Answer 51

if the drug is completely metabolised at first pass then there is 0% bioavailable

useful for topical agents or prodrugs

Question 52

how is aspirin (pKa= 3.5) absorbed in the stomach?

Answer 52

pH of compartment < pKa of drug
i.e. pKa is higher than pH

therefore the drug will be in the unionised so the drug will be absorbed readily (lipophilic)

once inside the cells, pH is increased, the drug becomes ionised state and will not move out (ion trapped)

Question 53

hydrophilic drug

Answer 53

ionised

less well absorbed

Question 54

how would you ensure slow release of aspirin?

Answer 54

enteric coated aspirin

also used for pain relief of late GI tract not not everything is taken at the stomach

Question 55

what is bioequivalence?

Answer 55

a new generic drug behaves sufficiently similar to the existing one without causing clinical problems.

done when a patent expires, so any drug company can manufacture the drug

Question 56

what are the benefits of bioequivalence?

Answer 56

cheaper alternatives of various formulations

especially for drugs with a narrow therapeutic window

Question 57

what is a therapeutic window/index?

Answer 57

the difference in dose between a clinically useful dose and a toxic dose