Clinical Pharmacokinetics 1

Question 1

What are the aims of clinical pharmacokinetics?

Answer 1

Aims to design dosage regimens which:

• Optimize therapeutic response of a drug
• Minimize chance of adverse reactions

Question 2

What is plasma concentration of a drug a function of?

Answer 2

• The rate of input of the drug into the plasma
• The rate of distribution of the drug to the tissues
• The rate of elimination of the drug

Question 3

What are the 3 most important pharmacokinetic parameters?

Answer 3

• Volume of distribution
• Clearance
• Bioavailability

Question 4

What is volume of distribution?

Answer 4

A measure of the apparent space in the body available to contain the drug

Question 5

What is clearance?

Answer 5

A measure of the body’s ability to eliminate the drug

Question 6

What is bioavailability?

Answer 6

The fraction of drug absorbed into the systemic circulation

Question 7

How do we calculate the volume distribution?

Answer 7

Relates the amount of drug in the body to the concentration of drug in the plasma

Vd=(Amount of drug in the body)/ (Plasma drug concentration)

Units= volume

Question 8

Does the Vd refer to a physiological volume?

Answer 8

The Vd doesn’t necessarily refer to an identifiable physiological volume

-Vd is the volume that would be required to contain all of the drug in the body at the same concentration as it is in the blood

Question 9

Describe the Vd for a drug retained within the vascular compartment

Answer 9

Drugs that are completely retained within the vascular compartment have a minimum Vd equal to the vascular compartment

-Drugs that have much higher concentrations in the extra vascular tissue than in the vascular compartment have a very high Vd

Question 10

If a drug is bound to peripheral tissues, or partitioned into body fat, what is its concentration in plasma?

Answer 10

The plasma concentration will be low in these circumstances

as a result, Vd is very high

For example, the Vd for quinacrine is 50,000L in a person whose physical body volume is 70L

Question 11

The Vd is a…

Answer 11

Proportionality factor that relates the plasma drug concentration of drug to the amount of drug in the body.

-The volume of distribution allows us to convert concentrations to amounts

Question 12

What is the main use of the volume of distribution ?

Answer 12

The main use of the volume of distribution is to determine the loading dose to quickly achieve a target plasma concentration

Question 13

How is Vd determined?

Answer 13

• To calculate Vd, we need to know the amount of drug in the body and the plasma drug concentration
• The only time the amount of drug in the body is known accurately is immediately after the drug has been given IV
• If we can determine the plasma concentration at time 0 (C0), then we can calculate the Vd as follows:

Vd= Dose/ C0

Question 14

How is Vd determined graphically?

Answer 14

A dose of drug is injected IV

The plasma drug concentration is plotted vs time

• Usually, the plot shows two phases
• The rapid fall is the distribution phase
• The slower phase is the elimination phase

We linearize the curve by plotting the logarithm of the drug plasma concentration vs time

Question 15

What can we extrapolate from log plasma concentration vs time graph?

Answer 15

Extrapolation of the elimination curve to the y-axis, yields the concentration that would have existed at the start if the dose had been instantly distributed

The initial concentration is
C0= dose/ Vd

So,

Vd=dose/C0

Question 16

How can we calculate quickly calculate a target plasma drug concentration (TC)?

Answer 16

Dose= Vdx TC

Question 17

How can we calculate clearance ?

Answer 17

• Clearance is defined as the volume of blood cleared of drug per unit time
• Clearance predicts the rate of elimination of the drug in relation to the drug concentration:

CL= rate of elimination of drug (amount/time) / Plasma drug concentration (amount/volume)

Units= volume per unit time

Question 18

What is total body clearance ?

Answer 18

The sun of all the different clearance processes occurring for a given drug

Question 19

What are the two major sites in drug elimination?

Answer 19

Kidneys and liver

Question 20

What is the “first order” elimination?

Answer 20

For most drugs, CL is constant over the plasma concentrations used clinically

Therefore, the rate of elimination is directly proportional to the drug concentration:

Rate of elimination= CL x C

This is called “first order” elimination

Question 21

What is the mathematical correlation between clearance and rate of elimination?

Answer 21

Rate of elimination= CL x C

For a drug eliminated with first order kinetics, CL is a constant, ie, the ratio of the rate of elimination to the plasma concentration is the same regardless of plasma concentration

CL= Rate of elimination/ C

Question 22

Why do most drugs follow first order kinetics?

Answer 22

This occurs because the physiological mechanisms of drug elimination (enzymes and transporters) are not saturated

The dependence of the rate of drug elimination on drug plasma concentration is described by the equation:

Rate of elimination: (Vmax x C)/(Km + C)

When the drug concentration is very low compared to the Km (C

Question 23

What are the properties of first order kinetics?

Answer 23

The initial concentration is: C0= Dose/ Vd

The concentration at a later time will depend on the rate of elimination of the drug

The drug concentration decays exponentially

For drugs with first-order kinetics of elimination the rate of elimination is directly proportional to drug concentration

When a drug follows first-order kinetics, a constant fraction of the drug is eliminated per unit of time

Plotting the logarithm of C against t yields a straight line

Question 24

What is half life?

Answer 24

Half-life is time required to reduce the amount of drug in the body by 50% during elimination

Half-life is a constant for drugs eliminated by first-order kinetics (the great majority of drugs)

Question 25

What does half-life determine?

Answer 25

Determines the rate at which blood concentration rises during a constant infusion and falls after infusion is stopped

Question 26

A drug will accumulate until…

Answer 26

Until the amount administered per unit time is equal to the amount eliminated per unit time

The plasma concentration at this point is called steady state concentration (Css)

Question 27

How does constant infusion affect half-life of a drug?

Answer 27

During constant IV infusion, every half-life the drug concentration increases 50% of the difference between the Css and the current C

During elimination, every half-life the drug concentration is reduced 50%

Question 28

During a constant IV infusion of a drug:

Answer 28

• 50% of Css is reached after 1 half-life
• 75% after 2 half-lives
• 87.5% after 3 half lives
• 93.75% after 4 half lives

Question 29

After stopping the IV infusion the drug:

Answer 29

• 50% of Css is lost after 1 half-life
• 75% after 2 half-lives
• 87.5% after 3 half lives
• 93.75% after 4 half lives

Question 30

When can steady state be attained in terms of half lives?

Answer 30

• It can be assumed that steady state is attained after about 4 half-lives
• It can be assumed that the drug has been effectively eliminated after about 4 half lives

Question 31

What is the formula for half-life?

Answer 31

T1/2= (0.693x Vd)/ CL

Question 32

Doubling the infusion rate…

Answer 32

Doubles the Css

But increasing the infusion rate doesn’t influence time required to reach Css

Question 33

What are the effects on Vd and how they affect half-life?

Answer 33

Effects on Vd
Obesity- increased half-life
Pathologic fluid- increased half life

Question 34

What are the effects on CL that can affect half-life?

Answer 34

Effects on CL
Ageing- increased half-life

CYP induction- decreased half-life

CYP inhibition- increased

Cardiac failure- increased

Liver failure - increased

Renal failure- increased

Question 35

Why do some drugs exhibit saturation kinetics?

Answer 35

Drug metabolism and tubular secretion are saturable processes

When drug concentration exceeds Km, nonlinear kinetics is observed

Rate of elimination= (Vmax x C)/(Km + C)

When C&raquo_space; Km the equation reduces to:

Rate of elimination = (Vmax x C)/C= Vmax

Question 36

Which drugs exhibit saturation kinetics?

Answer 36

Zero order elimination is observed with a small number of drugs:

• Aspirin at high doses
• Ethanol
• Phenytoin

Question 37

What are the properties of saturation kinetics?

Answer 37

• The rate of elimination is maximal and independent of drug concentration
• Elimination is zero order
• A constant amount of drug is eliminated per unit time
• Recall that in first order kinetics a constant fraction of drug is eliminated per unit time

For a drug with zero-order elimination the plot of plasma concentration vs time is linear

The drug is removed at aa constant Rate of independent of plasma concentration

Question 38

Summarize clearance in saturation kinetics

Answer 38

• Clearence isn’t constant
• Clearence varies with the concentration of drug

Rate of elimination = (Vmax x C)/(Km + C)

CL= rate of elimination/ C= Vmax/ (Km + C)

Question 39

Describe half-life for drugs that follow saturation kinetics

Answer 39

Half life is not constant

Therefore, the concept of “4 half-lives to steady state” is NOT applicable for drugs with non-linear elimination kinetics

T1/2= (0.693x Vd)/ CL

Question 40

Contrast first order and zero order kinetics

Answer 40

First order:

• Constant fraction of drug eliminated per unit time
• Rate of drug elimination proportional to drug plasma concentration

Zero order:

• Constant amount of drug eliminated per unit time
• Rate of drug elimination independent of drug plasma concentration