Week 2- pharmacodynamics

Question 1

Define pharmacodynamics.

Answer 1

Study of what drugs do to the body and how they do it.

Question 2

Discuss the three phases of the dose-response curve.

Answer 2

Phase 1 – no measurable response
Phase 2 – increased dose increases response
Phase 3 – No further increase in response

Question 3

Define maximal efficacy.

Answer 3

Largest effect which can be produced by a drug.

Question 4

Define relative potency.

Answer 4

Amount of drug needed to produce an effect. A potent drug produces effects at low doses.

Question 5

The binding of a drug to a receptor does what to body processes?

Answer 5

Turns processes on or off.

Question 6

How does a cell membrane-embedded enzyme work?

Answer 6

Binding to the receptor on the cell membrane activates an enzyme inside the cell.

Question 7

How do ligand-gated ion channels work?

Answer 7

Binding to the receptor on the cell membrane activates ion channels.

Question 8

How do G protein-coupled receptors work?

Answer 8

Binding to the receptor activates the G protein which activates the effector.

Question 9

Where are transcription factors found? How do they work?

Answer 9

On the DNA in the cell.

Activate transcription of messenger RNA to make protein.

Question 10

Which type of receptor is the fastest?

Answer 10

Ligand-gated ion channels

Question 11

Explain the simple occupancy theory of drug-receptor interaction.

Answer 11

The intensity of the response is determined by the number of receptors occupied.

Question 12

Define affinity.

Answer 12

The strength of attraction between drug and receptor.

Question 13

Define intrinsic activity.

Answer 13

The ability of the drug to activate a receptor upon binding.

Question 14

Define agonists.

Answer 14

Drugs which bind to the receptor and mimic the action of endogenous regulatory molecules.

Question 15

Explain the actions of full and partial agonists.

Answer 15

Full agonists have high intrinsic activity and produce a full effect. Partial agonists have a moderate intrinsic activity and produce a partial effect.

Question 16

Define antagonists.

Answer 16

Drugs which bind to the receptor and block the action of endogenous regulatory molecules.

Question 17

Explain the difference between competitive and noncompetitive antagonists.

Answer 17

Competitive antagonists bind reversibly, and a maximal response can be achieved by increasing the concentration of the agonist. Noncompetitive antagonists bind
irreversibly, and the maximal response cannot be achieved.

Question 18

Explain up and down regulation.

Answer 18

Down regulation includes decreasing the number of receptors &/or response. Up regulation includes increasing the number of receptors &/or response.

Question 19

List three receptorless drugs.

Answer 19

Antacids, antiseptics, saline laxatives.

Question 20

Define the average effective dose (ED50).

Answer 20

Dose producing a therapeutic response in 50% of the population.

Question 21

Define the therapeutic index. Is a large index safer or more dangerous?

Answer 21

The ratio of the lethal dose to the average effective dose. Safer.

Question 22

What is the relationship between the number of drugs a patient takes and the risk of drug-drug interactions?

Answer 22

The more drugs the patient takes, the higher the risk of drug-drug interactions.

Question 23

List three types of drug-drug interactions.

Answer 23

Potentiative, inhibitory, unique.

Question 24

How may laxatives affect absorption?

Answer 24

Laxatives can decrease absorption by increasing drug passage.

Question 25

Decreasing cardiac output may do what to drug excretion?

Answer 25

Decrease drug excretion.

Question 26

What organ system is responsible primarily for drug metabolism?

Answer 26

Liver

Question 27

What happens to drug levels of drugs metabolized by the P450 system when the system is inhibited? Induced?

Answer 27

When metabolism is inhibited in the P450 pathway, drugs being metabolized by that pathway are not metabolized as rapidly and plasma drug levels increase. Conversely, when the system is induced, metabolism of those drugs occurs more rapidly, decreasing plasma drug levels.

Question 28

What 4 processes happen with the induction of PGP (P-Glycoprotein)?

Answer 28

Decreased intestinal absorption, decreased fetal exposure, decreased brain exposure, increased elimination of drugs into bile or urine

Question 29

Calcium may do what to the absorption of tetracycline?

Answer 29

Decrease absorption.

Question 30

How does grapefruit affect the absorption of drugs from the intestines?
How long does grapefruit exert this effect?

Answer 30

Grapefruit inhibits CYP3A4 metabolism in the intestinal wall for 72 hours, so more drug is absorbed.

Question 31

How would you administer a drug on an empty stomach?

Answer 31

1 hr before or 2 hours after a meal