Pharmacodynamics - Quiz 1

Question 1

What is the MDRD calculation?

Answer 1

Modified Diet and Renal Disease Calculation.

More accurate calculation for excessive body weight and renal dysfunction

Question 2

What is the actual name of the CrCl equation?

Answer 2

Cockcroft-Gault Equation

Question 3

What is a normal CrCl level?

Answer 3

> 90ml/min

Question 4

A dialysis filter is providing how much CrCl?

Answer 4

about 30 ml/min

Question 5

How do you know if a molecule is likely to be removed during dialysis?

Answer 5

Unbound volume < 3.5 L/kg
Clearance < 10 ml/min/kg
Dosing interval longer than half life
Molecular weight less than 1000 daltons

Question 6

Describe the single dose drug concentration

Answer 6

Quick upstroke then eliminates based on ½ life – until eliminated. One time single dose will just peak over toxic range.

Question 7

Describe the concentration of a continuous IV infusion

Answer 7

maintenance keeps concentration in therapeutic range (between minimum effective and toxic range). Good for meds quickly eliminated (levo)

Question 8

Describe the concentration of intermittent dosing

Answer 8

Get “about average” good consistent peaks and troughs. Goal is to reach steady state.

Question 9

What is steady state?

Answer 9

rate in = rate out

Question 10

How many half lives does it take to reach steady state?

Answer 10

5 half lives

Question 11

Does a loading dose shorten the time to steady state?

Answer 11

No. Can get you to therapeutic concentrations. But you are not a steady state where your body is truly eliminating until 5 half lives

Question 12

Would you reach steady state faster if the dose was given at one half of the medication’s half life?

Answer 12

No, all you are doing is increasing the rate in and putting them at risk of being toxic.

Question 13

How do you interpret and treat drug levels?

Answer 13

ALWAYS treat the patient, not the number

Question 14

Troughs are measured for

Answer 14

efficacy

Question 15

Peaks are measured for

Answer 15

toxicity

Question 16

Age related pharmacokinetic changes in the elderly

Answer 16

• Reduced absorption via carrier proteins
• Reduced first pass metabolism
• INCREASED fat%, reduced free water
• Possible reduced albumin concentration and/or increased alpha-1 acid glycoprotein
• Reduced Phase I metabolism (CYP450)
• Reduced kidney function
• Other disease states, thinning BBB, GI tract changes

Question 17

Age related pharmacokinetic changes in neonates and infants

Answer 17

• Higher gastric pH, longer emptying time
• Higher body water:fat ratio
• Reduced/immature CYP450 enzymes
• Reduced protein binding
• Reduced renal clearance

Question 18

What is the “sweet age range” for kinetics

Answer 18

25-65

Question 19

What is pharmacodynamics?

Answer 19

What the medication does to the body

Question 20

Most drugs bind to ______ ______ where they initiate biochemical reactions that alter the cell’s physiology.

Answer 20

cellular receptors

Question 21

Drugs exert their primary action at the

Answer 21

Cellular level

Question 22

What are the drug receptors at the cellular level?

Answer 22

generally proteins or glycoproteins present on the cell surface, on an organelle within the cell or in the cytoplasm

Question 23

How many receptors are on a given cell?

Answer 23

A finite number

Question 24

Once a drug has bound to a receptor, one of the following actions is likely to occur

Answer 24

An ion channel is opened or closed.

Biochemical messengers, often called second messengers, (cAMP, cGMP, Ca++, inositol phosphates) are activated.

A normal cellular function is physically inhibited or initiated.

Question 25

The biochemical messengers on G-Proteins are often call ________ and they cause a __________ __________ in the receptor.

Answer 25

G-Protein

Confirmational Change

Question 26

What is affinity

Answer 26

strength of binding between a drug and its receptor.

Question 27

What is Dissociation Constant (Kp)

Answer 27

the measure of a drug’s affinity for a given receptor. The concentration of drug required in solution to achieve 50% occupancy of its receptors.

Question 28

What is an agonist

Answer 28

drugs which alter the physiology of a cell by binding to plasma membrane or intracellular receptors.

Question 29

What is a strong agonist?

Answer 29

an agonist which causes maximal effects even though it may only occupy a small fraction of receptors on a cell.

Question 30

What is a weak agonist?

Answer 30

an agonist which must be bound to many more receptors than a strong agonist to produce the same effect.

Question 31

What is an antagonist?

Answer 31

inhibit or block actions caused by agonists.

Question 32

What is a competitive antagonist?

Answer 32

Competes with agonist for same receptors.
During the time that a receptor is occupied by an antagonist, agonists cannot bind to the receptor.
Because the antagonism can be overcome by high doses of agonists, competitive antagonism is said to be “surmountable”

Question 33

What is noncompetitive antagonists?

Answer 33

Binds to a site other than the agonist-binding domain. Induces a conformational change in the receptor such that the agonist no longer “recognizes” the agonist-binding domain.
“Insurmountable” because even high doses of agonist cannot overcome this antagonism.

Question 34

What is irreversible antagonism?

Answer 34

Agents compete with agonists for the agonist-binding receptor. Irreversible antagonists combine permanently with the receptor.
(e.g. Plavix)

Question 35

What is efficacy?

Answer 35

The degree to which a drug is able to cause maximal effects.

If Drug A reduces blood pressure by 20mmHg and Drug B reduces blood pressure by 10mmHg, then Drug A has greater efficacy than Drug B.

Question 36

What is potency?

Answer 36

The amount of drug required to produce 50% of the maximal response that the drug is capable of causing.

For example, morphine and codeine are both capable of relieving post-op pain. A smaller dose of morphine than codeine is required to achieve this effect. Morphine, is therefore more “POTENT” than codeine.

Question 37

“Potency” is frequently used to compare drugs within

Answer 37

the same chemical class

Question 38

“Efficacy” is used to compare drugs with

Answer 38

different mechanisms

For example, toradol (NSAID) has equal efficacy to morphine (narcotic) in controlling post-op pain.

Question 39

What is the dose respires curve?

Answer 39

Response of concentration in the body in response to dose over time.

Question 40

What is the therapeutic window?

Answer 40

space between safety and efficacy

Question 41

Effective Concentration 50%

Answer 41

The concentration of drug which induces a specified clinical effect in 50% of the subjects to which the drug is administered.

Question 42

Lethal Dose 50%

Answer 42

the concentration of drug which induces death in 50% of the subjects to which the drug is administered.

Question 43

Therapeutic Index

Answer 43

a measure of the safety of a drug.

Question 44

Margin of Safety

Answer 44

the margin between therapeutic and lethal doses of a drug.

Question 45

What is altered absorption

Answer 45

Drugs may inhibit absorption of other drugs across biologic membranes

(antiulcer agents that coat the stomach may decrease GI absorption of other drugs)

Question 46

What is altered metabolism:

Answer 46

Clinically important drug interactions can occur when the P450 isoenzymes are inhibited or induced.

Question 47

What is plasma protein competition:

Answer 47

Drugs that bind to plasma proteins may compete with other drugs for the protein binding sites.

Displacement of drug ‘A’ from plasma proteins by drug ‘B’ may increase the concentration of unbound drug ‘A’ to toxic levels.

Question 48

What is altered excretion:

Answer 48

Drugs may act on the kidney to reduce excretion of specific agents

(e.g. probenecid competes with sulfonamides for the same carrier, increasing the risk of sulfonamide toxicity).

Question 49

Types of Drug Interactions: Addition

Answer 49

the response elicited by combined drugs is EQUAL TO the combined responses of the individual drugs.

1+1=2

Question 50

Types of Drug Interactions: Synergism

Answer 50

the response elicited by combined drugs is GREATER THAN the combined responses of the individual drugs.

1+1=3

Question 51

Types of Drug Interactions: Potentiation

Answer 51

A drug which has no effect enhances the effect of a second drug.

0+1=2

Question 52

Types of Drug Interactions: Antagonism

Answer 52

Drug inhibits the effect of another drug. Usually, the antagonist has no inherent activity.

1+1=0

Question 53

What is tolerance?

Answer 53

Tolerance represents a decreased response to a drug. Clinically, this is observed when the dose of a drug must be increased to achieve the same effect.

Question 54

What is metabolic tolerance?

Answer 54

drug is metabolized more rapidly after chronic use.

Question 55

What is cellular tolerance?

Answer 55

decreased number of receptors, “down regulation”.

Question 56

What is dependance?

Answer 56

Dependence occurs when a patient needs a drug to “function normally”. (do ADLs)
Clinically this is noted when cessation of a drug produces withdrawal symptoms.

Question 57

What is withdrawal?

Answer 57

Withdrawal occurs when a drug is not administered to a person who has become dependent on it.

Symptoms of withdrawal are often opposite the effects achieved by the drug. (Benzo withdrawal = anxiety/agitation)