APEX: VALLEY PHARMACODYNAMICS

Question 1

Pharmacodynacmis is the study of

Answer 1

Effect site concentration and CLINICAL EFFECT

Question 2

Describes the relationship between the DRUG DOSE AND PLASMA CONCENTRATION

Answer 2

Pharmacokinetics

Question 3

Pharmacobiophasics unites

Answer 3

Pk and PD by examining the relationship between plasma concentration and effect site concentration

Question 4

Pharmacokinetics studies primarily 2 things

Answer 4

Drug dose

Plasma concentration

Question 5

Pharmacobiophasics studies primarily 2 things

Answer 5

Plasma concentration

Effect site concentration

Question 6

Pharmacodynamics studies primarly 2 things

Answer 6

Effect site concentration

Question 7

Mnemonic to remember each pharmk,pharmB, PharmD

Answer 7

KBD

DPEC

Question 8

What the body does to the drug

Answer 8

Pharmakinetics

Question 9

Relationship is affected by

Answer 9

ADME

Question 10

The biophase aka

Answer 10

Effect site

Question 11

What the drug does the body

Answer 11

Pharmacodynamics

Question 12

Pharmacodynamics concepts

PEDAPIA LETS

Answer 12

Potency
Efficacy
Dose response curve slope
Agonist
Partial Agonist
Inverst agonist
Antagonist
LD50
ED50
Therapeutic index
Stereochemistry

Question 13

On the dose response curve, the x-axis correlates with:

Answer 13

Potency

Question 14

Dose requires to achieve a given clinical effect

Answer 14

potency

Question 15

Intrinsic ability of a drug to elicit a given clinical effect.

Answer 15

Efficacy

Question 16

Potency is on ___axis, efficacy on ____axis

Answer 16

x; y

Question 17

What does the slope of the dose response curve tells us?

Answer 17

How many receptors must be occupied to elicit a clinical effect.

Question 18

Dose response curve from multiple patients to learn abou tthe

Answer 18

individual variability of each patient.

Question 19

Measure of potency 2

Answer 19

ED 50 and E90

Question 20

The curve shifts to left meaning as far as affinity , potency , dose

Answer 20

Increase affinity for receptor, HIGHER POTENCY, lower dose required

Question 21

The curve shifts to right meaning as far as affinity , potency , dose

Answer 21

Decrease affinity for receptor, LOWER POTENCY, Higher dose required

Question 22

The height of the plateau on the y-axis represents

Answer 22

efficacy

Question 23

Higher plateau means _____efficacy

Answer 23

Greater

Question 24

Lower plateau means _______ efficacy

Answer 24

Lower

Question 25

A steep slope on the dose-response curve implies

Answer 25

Most of the receptors must be occupied before we observe the clinical response.

Question 26

Once the effect is observed, small increase in the dose can have a

Answer 26

Profound clinical effect.

Question 27

Medications with steep slope

Answer 27

NMB and inhaled anesthetics.

Question 28

A drugs that binds to a receptor follows which law?

Answer 28

LAW of mass action

Question 29

There is rate constant for

Answer 29

Drug binding and a rate constant for dissociation from the receptor.

Question 30

Remember that efficacy is measured by the

Answer 30

height of the y-axis on the dose response curve.

Question 31

Mimics an endogenous ligand

Answer 31

agonist

Question 32

Instructs the receptor to produce its maximal response

Answer 32

A full agonist

Question 33

Different drugs may produce the same clinical effect but each may require a different dose to do so. this is difference in

Answer 33

potency

Question 34

Continuous administration of an AGONIST may cause (UP or down)

Answer 34

DOWN=REGULATION of the target receptors.

Question 35

Examples of full agonist at the beta receptor

Answer 35

NE

Question 36

It is less efficacious than a full agonist

Answer 36

Partial agonist

Question 37

A partial agonist is also called

Answer 37

Agonist-antagonist

Question 38

It can block the effects of an agonist by competing for binding sites

Answer 38

Partial agonist.

Question 39

Giving a partial opioid agonist to an opioid addicted patient can

Answer 39

Precipitate withdrawal

Question 40

Nalbuphine what you should no?

Answer 40

provides pain relief but there is a ceilling to its efficacy.

Question 41

Sits in the receptor and prevents an agonist from binding to it, does not tell the cell to do anything.

Answer 41

Antagonists

Question 42

By definition no efficacy

Answer 42

Antagonist

Question 43

Continuous ADMINISTRATION of an ANTAGONISTS may cause

Answer 43

UPREGULATION Of target receptors.

Question 44

Competitive antagonism is (reversible vs irreversible)

Answer 44

reversible

Question 45

If a pt receives a competitive antagonist, the dose response curve for the agonist shifts to

Answer 45

shifts to the right.

Question 46

Increasing the concentration of the agonist in a competitive antagonism can

Answer 46

overcome competitive antagonism (the agonist can achieve the same efficacy) but since it requires more drug molecules to achieve the desired clinical effect, the dose response would reflect a reduction in potency.

Question 47

Example of competitive antagonism: Rocuronium competes with

Answer 47

Ach at the NMJ. Increasing the concentration of one susbtance increase its ability to compete for the binding site on the receptors/.

Question 48

NONCompetitive antagonism is (reversible vs irreversible)

Answer 48

Not reversible (irreversible)

Question 49

Permanently bind to a receptor through covalent bonds and their effect cannot be overcome by increasing concentration of agonist.

Answer 49

Noncompetitive antagonists.

Question 50

Noncompetitive antagonists shifts dose response curve for the agonist

Answer 50

down, so that it resembles a partial agonist

Question 51

The effects of noncompetitive antagonists can be only reversed by

Answer 51

producing new receptors. This explains why these drugs have long duration of action.

Question 52

Example of noncompetitive antagonists?

Answer 52

ASA inhibits the COX-1 enzyme for the entire life of the platelet.

Question 53

Has negative efficacy

Answer 53

Inverse Agonist

Question 54

Binds to the receptor and causes an opposite effect to that of a full agonist

Answer 54

Inverse agonist.

Question 55

Epinephrine is a

Answer 55

Full agonist

Question 56

Epinephrine (Full agonist) binds to beta 1 receptor to _______while propranolol (an inverse agonist) binds to the beta-1 receptor to_____

Answer 56

increase cAMP, Decrese cAMP

Question 57

G protein modulates

Answer 57

cAMP production

Question 58

G protein: An agonist completely

Answer 58

activates the receptor and increase cAMP production

Question 59

G proteins; A partial agonist

Answer 59

Partailly activates the receptors, it increases cAMP production, but not as much as a full agonist.

Question 60

G Proteins: An inverse agonist

Answer 60

Activates the receptor, but because it causes the opposite effect of the agonist, it decreases cAMP production

Question 61

G proteins: Antagonists

Answer 61

blocks the ability of the agonist to bind with the receptor, but it does not increase or decrease cAMP production .

Question 62

A new induction agent has a median effective dose of 125 mg and the median lethal dose of 1500 mg. Calculate the TI of the drug?

Answer 62

LED (how to remember)
LD50/ ED50 = TI
1500mg/125mg = 12 mg

Question 63

What is the ED50?

Answer 63

dose that produces the expected clinical response in 50% of the population .

Question 64

ED50 is a measure of

Answer 64

Potency

Question 65

LD 50 is the dose that will

Answer 65

produce death in 50% of the population

Question 66

The Therapeutic index is a measure of

Answer 66

Drug safety

Question 67

TI is the ratio of

Answer 67

TI= LD50/ ED 50

Question 68

A drug with narrow therapeutic index has a

Answer 68

narrow margin of safety : Examples VA and chemotherapy

Question 69

A drug with WIDE therapeutic index

Answer 69

has a wide margin of safety.

Question 70

Chirality is a division of

Answer 70

Stereochemistry

Question 71

Deals with molecules that have a center of

Answer 71

3D symmetry

Question 72

A molecule with 1 chiral carbon will exist as

Answer 72

2 enantiomers

Question 73

The more chiral carbons in a molecue, the ____enantiomers that are created

Answer 73

More

Question 74

A racemic mixture contains

Answer 74

2 enantiomers in equal amounts.

Question 75

Study of 3 D structures of molecules

Answer 75

Stereochemistry.

Question 76

Enantiomers are

Answer 76

chiral molecules that are NON-SUPERIMPOSABLE MIRROR IMAGES of one another.

Question 77

Enantiomers are distinguished from each other by

Answer 77

the direction they rotate when exposed to polarized light.

Question 78

The D means

Answer 78

Dextrorotary enantiomer

Question 79

The dextrorotary enantiomer (+) rotates

Answer 79

Clockwise (think Positive DC)

Question 80

The L means

Answer 80

Levorotary enantiomer

Question 81

The Levorotary enantiomer (-) rotates

Answer 81

Counterclockwise (Negative Lcount)

Question 82

What is a racemic mixtures

Answer 82

Contains 2 enantiomers in equal amount. About 1/3 of the drugs we administer are enantiomers, and just about all of these are prepared as racemic mixtures.

Question 83

Drugs that exists as enantiomers often function as

Answer 83

2 different drugs, with different affinities for the target receptors and different side effects.

Question 84

Clinical examples of racemic mixtures: bupivacaine

Answer 84

S-bupivacaine (Levobupivacaine) is less cardiotoxic than the R-bupivacine or the racemic mixtures

Question 85

Clinical examples of racemic mixtures: Ketamine

Answer 85

S enantiomer of ketamine is less likely to cause emergene delirium than the R form, the S form is also more potent.

Question 86

Examples of racemic mixtures VA

Answer 86

Isoflurane

Desflurane

Question 87

Examples of racemic mixtures IV anesthetics

Answer 87

Ketamine
Thiopental
Methohexital

Question 88

Examples of racemic mixtures : Amide LAs

Answer 88

Mepivacaine
Bupivacaine
Prilocaine

Question 89

Examples of racemic mixtures: Pain meds

Answer 89

IBuprofen
Ketorolac
Methadone
Morphine