Session 2 - Pharmacokinetics and Pharmacodynamics

Question 1

What is pharmacokinetics?

Answer 1

What the body does to the drug

Question 2

What is pharmacodynamics

Answer 2

What the drug does to the body

Question 3

What is pharmacogenetics

Answer 3

The effect of genetic variations on pharmacokinetics/dynamics

Question 4

What is enteral delivery?

Answer 4

Enteral Delivery includes drug routes via the GI tract, including the oral, sub-lingual and rectal routes.

Question 5

What is parenteral delivery?

Answer 5

Parental Delivery are the drug routes not via the GI tract, including intravenous, subcutaneous, transdermal, intrathecal and intramuscular.

Question 6

What two main factors effect peak plasma concentration of a drug?

Answer 6

Rate of uptake of a drug

First pass metabolism

Question 7

Give three passive factors which effect the systemic entry of a drug?

Answer 7

o Drug Liphophilicity.
o Molecular size
o pH changes

Question 8

Give three active factors which effect the systemic entry of a drug?

Answer 8

o Presence of active transport systems
o Splanchnic blood flow (reduced in shock and heart failure)
o Drug destruction by gut and/or bacterial enzymes

Question 9

WHat is oral bioavailability?

Answer 9

Oral Bioavailability is the proportion of a dose given orally (Or by any other route other than intravenous) that reaches the systemic circulation in an unchanged form. Bioavailability can be expressed as amount or rate.

Question 10

How is oral bioavailability calculated?

Answer 10

AUC oral/AUC IV x 100

Question 11

What are the three consitutents of first pass metabolism/

Answer 11

Gut lumen
Gut wall
The liver

Question 12

What three factors effect drugs in the gut lumen?

Answer 12

 Gastric acid, proteolytic enzymes, grapefruit juice

Question 13

How does the gut wall effect drug absorption?

Answer 13

 P-glycoprotein efflux pumps drugs out of the intestinal enterocytes back into the lumen,

Question 14

What occurs in the liver in terms of first pass metabolism?

Answer 14

 Substances absorbed in the ileum enter the portal circulation and are taken to the liver, where enzyme systems metabolise them

Question 15

What is drug distribution?

Answer 15

Ability of drug to dissolve in the body

Question 16

What four factors effect the distribution of drugs?

Answer 16

lo Lipophilicity / Hydrophobicity
 The more lipophilic a drug molecule is, the more of it will move out of the blood plasma into tissues with a higher lipid content
o Protein Binding
 If drug binding to plasma proteins such as albumin is considerable, entry into other tissues and the amount of drug free to exert pharmacological effect will be reduced
o Tissue Protein Binding (e.g. muscle)
 If a drug binds strongly to tissue proteins it will have the effect of moving the drug from the plasma, thus decreasing its plasma concentration. This can affect the amount of free drug available for pharmacological effect.
o The mass or volume of tissue and density of binding sites within that tissue
 This can vary significantly between individuals, for example in a patient with a large muscle mass Digoxin binding would be effected as it has a very high affinity to Na/K ATPase.

Question 17

Do protein bound drugs act pharmacologically?

Answer 17

Nope

Question 18

When is it important if drugs are displaced from their protiein binding sites? 3

Answer 18

1. High protein binding
2. Low volume of distribution
3. Drug has a narrow therapeutic ratio

Question 19

Give four factors which effect protein binding (physiological and pharmacological)

Answer 19

o Hypoalbuminaemia
o Pregnancy
o Renal failure
o Displacement by other drugs

Question 20

What are the three compartments of body fluid?

Answer 20

Intracellular space - 55%
Interstitial space - 33%
Intravascular space - 12%

Question 21

What is the literage of each compartment?

Answer 21

Intracellular - 23l
Interstitial - 14l
Intravascular - 5l

Question 22

What is passive movement of drugs between compartments determined by?

Answer 22

Lipophilicuty

Question 23

What is the volume of distribution a measure of?

Answer 23

The Volume of Distribution is a measure of how widely a drug is distributed in body tissues. It is a calculated pharmacokinetic space into which a drug is distributed

Question 24

Equation for Vd

Answer 24

Volume of Distribution (Vd)= (Total Amount of Drug in Body)/(Plasma Concentration of Drug at Time=Zero)

Question 25

If Vd is <5l where is drug?

Answer 25

Intravascular

Question 26

If vd <15 where is drug?

Answer 26

ECF (intravascular + interstitial space)

Question 27

What has happened if Vd exceed body weight?

Answer 27

Tissue binding has occured

Question 28

Outline phase one metabolism

Include enzyme system and high-energy cofactor

Answer 28

Most drug molecules are stable and relatively unreactive (a pro-drug) so in Phase I metabolism a reactive group is exposed on the parent molecule or added to the molecule via Oxidation, Reduction and Hydrolysis reactions.

The process requires a complex enzyme system called the Cytochrome P450 (CYP450s) system and a high-energy cofactor (NADPH). These enzymes are both Inducible and Inhibitable, and are located on the external face of the endoplasmic reticulum in hepatocytes.

Question 29

What effects phase 1 metabolism?

Answer 29

A wide range of factors, including sex, age, genetics, cardiac output, and a disease state affects the metabolism of drugs. CYP450 enzymes can also be inhibited and induced by both prescription and OTC drugs.

Some drugs already have a reactive group on their molecule so they can bypass Phase I. Morphine is a good example of this.

Question 30

Name 6 enzyme cyp450 inducers

Answer 30

Phenytoin
Carbamazepine
Barbituates
Rifampicin
Alcohol (Chronic)
Sulphonylureas & St. John’s Wort

Question 31

Name 9 cyp450 inhibitors

Answer 31

Grapefruit Juice
Omeprazole
Disulfiram
Erythromycin
Valporate
Isoniazid
Cimetidine & Ciprofloxacin
Ethanol (Acutely)
Sulphonamides

Question 32

Outline phase 2 metabolism

Answer 32

Phase II
The reactive intermediate from Phase I is conjugated with a polar molecule to form a water-soluble complex. The process is also known as conjugation.

Glucoronic acid is the most common conjugate, as it’s an available by-product of cell metabolism. Drugs can also be conjugated with sulphate ions and glutathione.
Phase II metabolism requires specific enzymes and a high-energy cofactor, uridine diphosphate glucuronic acid (UDPGA).

Question 33

What does drugs becoming ionic increase the ability of?

Answer 33

increasing the ability of the kidney to excrete them via passive glomerular filtration and active tubular secretion.

Question 34

Give two tranpsorters responsible for excretion of metabolised drugs in kidney?

Answer 34

Organic Anion and Cation Transporters

Question 35

Give three factors effecting renal elimination

Answer 35

Renal Blood Flow, Plasma Protein Binding and Tubular Urinary pH

Question 36

What is clearance?

Answer 36

The volume of plasma that is completed cleared of drug per unit time`

Question 37

What is total clearance the sum of?

Answer 37

Total Clearance = Hepatic Clearance + Renal Clearance

Question 38

What are the two outputs of the kidney?

Answer 38

Renal vein and the ureter

Question 39

What is the clearance equation?

Answer 39

learance=(Amount in urine × Urine flow rate)/(Arterial Plasma Concentration)

Question 40

Give three factors effecting total clearance?

Answer 40

Heart – CVS/Circulatory factors affecting blood flow to the main organs of elimination
Renal – Factors affecting Renal elimination
Hepatic – Factors affecting Hepatic elimination

Question 41

Define half-life

Answer 41

The half-life of a drug is the amount of time over which the concentration of a drug in plasma decreases to one half of the concentration value it had when it was first measured.

Question 42

How is half-life calculated?

Answer 42

alf Life= (0.693 × Volume of Distribution)/Clearance

Question 43

What are first order kinetics?

Answer 43

This means that Metabolism is Proportional to Drug Concentration – 1st Order Kinetics.

Question 44

What do you get with log graphs in first order kinetics?

Answer 44

First Order Kinetics gives a straight line when a log scale is on the Y-axis versus time.

Question 45

What occurs in second order kinetics?

Answer 45

The enzymes (e.g. CYP450s) are saturated. The rate of decline of plasma drug level is a constant, regardless of concentration. Because of this Zero Order drugs are more likely to result in toxicity.

Question 46

What is steady state calculated by?

Answer 46

Steady State Concentration in Plasma (CpSS)= (Dose Rate)/Clearance

Question 47

What is a loading dose?

Answer 47

Irrespective of whether a drug is given by continuous infusion or by divided doses, when starting from a plasma concentration of zero, the time then taken to reach a steady state concentration in plasma is 4-5 half-lives of the drug.

If clinicians want to achieve a therapeutic concentration as quickly as possible without waiting for these 4-5 half-lives, they can use a loading dose. A loading dose aims to fill the compartments contributing to the drugs volume of distribution by using a larger than normal dose. The size of the loading dose is calculated using the known Vd of the drug and the desired therapeutic concentration.

Question 48

Give two drugs you would use a loading dose with

Answer 48

Heparin and Digoxin

Question 49

Give the loading dose calculation?>

Answer 49

Loading Dose (Dose L)= Vd ×CpSS

Question 50

Give four basic classes of receptor site

Answer 50

Receptors, Enzymes, Carriers/Transporters and Ion Channels.