*Pharmacology 1 (1, 2, 3)

Question 1

What are the 2 compromises of pharmacology and what do they mean?

Answer 1

Pharmacodynamics - what a drug does to the body (biological effects and mechanisms of action)
Pharmacokinetics - what the body does to a drug (absorption, distribution, metabolism and excretion)

Question 2

What selectively of drugs result from?

Answer 2

chemical structure of drug

Target recognising only ligands of a precise type

Question 3

Examples of targets of drugs? (5)

Answer 3

enzymes, carrier molecule, ion channels, receptors, RNA/DNA

Question 4

What are receptors?

Answer 4

Macromolecules that mediate the biological actions of hormones and neurotransmitters

Question 5

2 types of drugs acting on receptors and meaning?

Answer 5

Agonists - a drug that binds to a receptor and produces a cell response
Antagonists - a drug that blocks the actions of agonists

Question 6

What is a ligand?

Answer 6

A molecule that binds to a receptor

Question 7

Out of affinity and efficacy, what does an agonist and antagonist posses?

Answer 7

Agonist = affinity and efficacy
Antagonist = affinity

Question 8

How does an agonist work?

Answer 8

A conformational change occurs due to the presence of an agonist molecule making it act and therefore producing a biological response

Question 9

Affinity?

Answer 9

Strength of association between ligands and receptor

Question 10

Dissociation rate compared to affinity

Answer 10

Low affinity = high dissociation rate

Question 11

What are the 2 things that determine affinity

Answer 11

Closer the fit

Number of bonds

Question 12

Efficacy?

Answer 12

Ability of agonist to provoke a cellular response

Question 13

Low efficacy?

Answer 13

Low ability to produce a cellular response

Question 14

Relationship between receptor occupancy and agonist concentration?

Answer 14

As agonist conc. increases, receptor occupancy also increases

Question 15

EC50?

Answer 15

Concentration of agonist which elicits a half maximal response

Question 16

Concentration (or dose) response relationship - linear plot - relationship shape

Answer 16

Hyperbolic

Question 17

Why is it easier to plot the concentration response relationship as the log of the agonist concentration?

Answer 17

It allows you to present data over a wider range of concentrations
It is easier to see the max
70% of the curve is a straight line

Question 18

What shape is the response when the concentration response relationship is plotted as a semi-logarithmic plot?

Answer 18

Sigmoidal

Question 19

What can a highly potent drug do?

Answer 19

Evoke a larger response at lower concentrations

Question 20

What are partial agonists

Answer 20

Drugs that bind to receptors but only have partial efficacy meaning they cannot evoke the same response as a full agonist

Question 21

Competitive antagonism?

Answer 21

Binding of agonist and antagonist occur at same (orthosteric) site

Question 22

Non-competitive antagonism

Answer 22

Agonist binds to orthosteric site and antagonist binds to allosteric site (activation cannot occur if antagonist is bound)

Question 23

Drug disposition?

Answer 23

The fate of drugs in the body

Question 24

Determinants of drug disposition

Answer 24

Adsorption
Distribution
Metabolism
Excretion

Question 25

Adsorption?

Answer 25

The process by which a drug enters the body from its site of administration

Question 26

Distribution

Answer 26

The process by which the drug leaves the circulation and enters the tissues perfused by the blood (once inside the tissue, further blood-independant distribution may occur)

Question 27

Metabolism

Answer 27

The process by which tissue enzymes (particularly in the liver-hepatic metabolism) catalyse the chemical conversion of a drug to a more polar form that is more readily excreted by the body

Question 28

Excretion

Answer 28

The process that removes the drug from the body (principally the kidneys - renal exertion)

Question 29

Aside from the liver, where does metabolism also occur?

Answer 29

GI tract and lungs

Question 30

Aside from the kidneys, where does excretion also occur?

Answer 30

Breath, sweat and milk

Question 31

What is elimination (sum)?

Answer 31

metabolism + excretion

Question 32

Where does most absorption occur?

Answer 32

in the Small intestines (due to large SA)

Question 33

Where is ethanol absorbed

Answer 33

The stomach

Question 34

name for when unchanged drugs leave the body via the faeces?

Answer 34

Egestion

Question 35

3 physiochemical factors controlling drug absorption

Answer 35

Solubility (drug must be dissolved to be absorbed)
Chemical stability (some drugs are destroyed by the stomach acid or enzymes in the GI tract)
Lipid to water partition coefficient (rate of diffusion increases with lipid solubility of drug)

Question 36

What does ampithatic mean?

Answer 36

Has both polar and non polar parts (drugs must be ampithatic)

Question 37

In terms of weak/ strong acids/bases, what are many drugs

Answer 37

Weak acids and bases existing in both the ionised and unionised forms

Question 38

pH=

Answer 38

pH=-log10[H+]

Question 39

Out of ionised and unionised forms, what readily diffuses across the lipid bilayer

Answer 39

Unionised forms

Question 40

What does the degree of ionisation of a drug depend on?

Answer 40

pKa of drug and local pH

Question 41

pKa?

Answer 41

pH @ which 50% drug is ionised and 50% is unionised

Question 42

What equation can be used to determine the proportion of ionised drug?

Answer 42

Henderson-Hassleback

Question 43

Henderson hassleback equations for acid and base

Answer 43

Acid: pKa - pH = log(HA/A-)
Base: pKa - pH = log (BH+/B)

Question 44

As pH increases, are acid drugs increasingly or decreasingly ionised?

Answer 44

Increasingly

Question 45

What is sometimes absorbed in the stomach acid?

Answer 45

Weak acids

Question 46

Where does most absorption occur?

Answer 46

Small intestines (even weak acids)

Question 47

Are weak acids and weak bases or strong acids and strong bases better absorbed?

Answer 47

Weak acids and weak bases

Question 48

Factors affecting GI absorption? (6)

Answer 48

GI motility (rate of stomach emptying and movement through intestine) - modified by drugs and food
pH @ absorption site
Blood flow to GI tract (increased by food)
Way in which tablet, capsule, etc. is manufactured (can be customised to release drugs at different rates/ sites)
Physiochemical interactions (e.g. rate of absorption is modified by calcium rich food)
Presence of transporters in membrane of epithelial cells of GI tract

Question 49

Oral Availability? Equation?

Answer 49

Fraction of drug that reaches the systemic circulation after oral ingestion
amount in systemic circulation/ amount administered

Question 50

Systemic availability? Equation?

Answer 50

Fraction of drug that reaches the systemic circulation after absorption
amount in systemic circulation/ amount absorbed

Question 51

First pass/ pre-systemic metabolism?

Answer 51

Drugs administered orally, once absorbed can be inactivated by enzymes in the gut wall and liver

Question 52

2 categories of routes of drug administration?

Answer 52

ENTERAL-via GI tract

Parenteral - any route not via the GI tract

Question 53

4 enteral routes of drug administration?

Answer 53

Oral
Sublingual
Buccal
Rectal

Question 54

4 parenteral routes of drug administration?

Answer 54

IV
intramuscular
subcutaneous
Inhalation
Topical

Question 55

What kind of drugs are able to move freely between the compartments of the body?

Answer 55

Free drugs

Question 56

Volume of distribution?

Answer 56

Apparent volume in which a drug is dissolved

Question 57

Vd=

Answer 57

Dose/ plasma concentraiton (for a drug administered IV)

Question 58

Vd

Answer 58

Implies that the drug is retained in the vascular compartment

Question 59

Vd

Answer 59

Implies that the drug is restricted to extracellular fluid

Question 60

Vd>15L

Answer 60

Indicates distribution throughout total body water (or concentration in certain tissue)

Question 61

What is the drug concentration that must be achieved to achieve an effect

Answer 61

Minimum effective concentration

Question 62

What is the concentration level that causes significant adverse affects

Answer 62

Maximum tolerated concentration

Question 63

What is the phase between MEC and MTC

Answer 63

therapeutic window

Question 64

Therapeutic window of safe drugs

Answer 64

Large

Question 65

Therapeutic ratio =?

Answer 65

MTC/MEC

Question 66

Kabs?

Kel?

Answer 66

Absorption rate

Elimination rate

Question 67

If given IV, what is the initial concentration of drug equation?

Answer 67

Co = D/ Vd (C=m/V)

Question 68

What factor does concentration of drug at a later time depend on (Ct)

Answer 68

Kel

Question 69

What type of kinetics do most drugs exhibit

Answer 69

First order

Question 70

Ct=

Answer 70

Ct= Coe^-Kel-t

Question 71

Half life

Answer 71

Time taken for Ct to fall by 50%

Question 72

What is t1/2 inversely related to

Equation

Answer 72

Kel

t1/2 = 0.69/ Kel

Question 73

What is Cp shorthand for

Answer 73

Plasma concentration

Question 74

Are Kel and half life dependant on the dose administered

Answer 74

No

Question 75

What is clearance (Cl)

Answer 75

The volume of plasma cleared of drug per unit time (a constant relating the rate of elimination to plasma concentration)

Question 76

What type of kinetics does clearance apply to?

Answer 76

First order

Question 77

Rate of elimination =

Answer 77

Rate of elimination = Cl X Cp

Question 78

Maintenance dose rate?

Answer 78

Dose per unit time required to maintain a given plasma concentration

Question 79

At steady state (SS)

Answer 79

Rate of elimination

Question 80

Cps.s.=

Answer 80

Cps.s. = maintenance dose rate / Cl

Question 81

For drugs that exhibit first order kinetics, what is the steady state (SS) plasma concentration linearly related to

Answer 81

infusion rate

Question 82

What is the time to reach Css determined by?

Answer 82

half life (NOT the infusion rate)

Question 83

When is Css reached?

Answer 83

After approx. 5 half lives

Question 84

What is bioavailability (F)

Answer 84

Fraction of drug administered that enters the systemic circulation?

Question 85

Css(average) = (oral dose)

Answer 85

FXdose / Clp X dosage interval

Question 86

Volume of distribution (Vd)

Answer 86

Volume into which a drug appears to be distributed with a concentration equal to that of plasma (relates plasma concentration (Cp) to the amount of drug in the body (Ab)

Question 87

Ab = ?

Answer 87

Ab = Vd X Cp (C=mXV)

Question 88

Loading dose (LD)?

Answer 88

An initial high dose of a drug given at the beginning of a course of treatment before stepping down to a lower maintenance dose

Question 89

LD (for IV) =

Answer 89

LD (IV) = Vd X target Cp

Question 90

LD (for oral) =

Answer 90

LD = Vd X target Cp / F

Question 91

In terms of Vd and Cl, what does t1/2 =?

Answer 91

t1/2 = 0.693 X Vd / Cl

Question 92

What happens during zero order kinetics?

Example of 2 drugs that do this?

Answer 92

Drugs are initially eliminated at a constant rate, rather than at a rate proportional to their concentration (straight line on graph rather than curve)
Ethanol and phenytoin

Question 93

When do drugs exhibit zero order kinetics?

Answer 93

When Cp > km of an enzyme that metabolises it