IV Agent Uptake And Distribution

Question 1

Pharmacokinetics constitutes of: 4

Answer 1

Absorption, distribution, metabolism, excretion

What body does to a drug

Question 2

Pharmacodynamics: 3

Answer 2

Mechanism of effect, sensitivity, responsiveness

What a drug does to the body

Question 3

Pharmacokinetics measured in: 4

Answer 3

Elimination half time, bioavailability, clearance, volume of distribution (vd)

Question 4

Compartmental models do what

Answer 4

Divides body into compartments that represent theoretical spaces with calculated volumes

Question 5

Central compartment traits and components

Answer 5

Best perfused, 75% CO, 10% of body, rapid uptake, drug introduced here, then 2nd compartment, then back to central for clearance. Kidney, liver, lungs, heart, brain.

Question 6

Peripheral compartment

Answer 6

Large calculated volume (90%), 25% of cardiac output, extensive uptake of drug

Question 7

Rate of transfer between compartments changes with what

Answer 7

Decreases with aging which leads to greater plasma conc in certain drugs (thiopental)

Question 8

Distribution: what happens

Answer 8

Following systemic absorption of a drug the highly perfused tissues (heart, brain, kidneys, liver) receive a large amt of the drug

Question 9

Distribution: what happens after central compartment

Answer 9

As plasma conc decreases, drug to less perfused sites (muscle and fat). W continued elim of drug the plasma level goes below that in tissues, drug leaves tissues to re-enter circulation

Question 10

Tissues that accumulate drugs do what

Answer 10

Preferentially act as reservoir to maintain plasma concentration and prolong effect

Question 11

What large or repeated doses do to distribution

Answer 11

They saturate inactive tissue negating distribution, prolong duration of action, reduction of effect depends on metabolism rather than redistribution

Question 12

% of blood flow and % cardiac output in:
Vessel rich
Vessel poor

Answer 12

10%, 75%

20%, <1%

Question 13

% blood flow and % cardiac output in muscle group and fat group

Answer 13

50%, 19%

20%, 6%

Question 14

Lung uptake does what

Answer 14

Uptakes basic lipophilic drugs (lidocaine, fentanyl, demerol) and acts as reservoir for release of drug back into systemic circulation

Question 15

Blood brain barrier prevents what

Answer 15

Ionized, water soluble drugs from crossing barrier into brain circulation

Question 16

Blood brain barriers can be overcome w what

Answer 16

Large doses of drug or in head injury and hypoxemia

Question 17

Effect site

Answer 17

Where drugs exert their biological effect, at its “biophase” (otherwise known as effect site)

Question 18

Effect site includes what

What is ke0

Answer 18

Membranes, receptors, and enzymes where drug acts on body

Rate constant of drug elim from the effect site

Question 19

What is vd

Answer 19

Volume of distribution, sum of all the volumes of compartments

Dose of IV drug/ plasma conc before elim

Question 20

Vd is effected by what

Answer 20

Physiochemical characteristics of drug: lipid solubility (directly correlated), binding to plasma protein (inversely), molecular size (inversely)

Question 21

Elimination half time

Answer 21

Time for plasma conc of drug to decline 50% during elim phase

Question 22

E 1/2 t of a drug is related to what two things

It is independent of what

Answer 22

Directly to Vd, inversely to clearance

Dose of drug administered

Question 23

Half life refers to 3, half time refers to 1

Answer 23

Plasma, fat, and muscle

Plasma

Question 24

Elimination half life

Answer 24

Time necessary to elim 50% of drug from the body. Drug accum occurs if dosing intervals are less than this

Question 25

Elim half time and half life aren’t equal when what

Answer 25

When the decrease in plasma concentration doesnt parallel its elimination from the body

Question 26

Half time: 0
Fraction of initial amt left
% amt eliminated

Answer 26

1

0

Question 27

Half time: 1
Fraction of initial amt left
% amt eliminated

Answer 27

1/2

50%

Question 28

Half time: 2
Fraction of initial amt left
% amt eliminated

Answer 28

1/4

75%

Question 29

Half time: 3
Fraction of initial amt left
% amt eliminated

Answer 29

1/8

87.5%

Question 30

Half time: 4
Fraction of initial amt left
% amt eliminated

Answer 30

1/16

93.8%

Question 31

Half time: 5
Fraction of initial amt left
% amt eliminated

Answer 31

1/32

96.9%

Question 32

Half time: 6
Fraction of initial amt left
% amt eliminated

Answer 32

1/64

98.4%

Question 33

Distribution phase

Answer 33

First half of curve, from central compartment to peripheral

Question 34

Elimination phase

Answer 34

Second half of curve, from central compartment to liver and kidneys for elimination

Question 35

Context sensitive half time

Answer 35

Time req for blood or plasma concentrations of a drug to decrease by 50% after discontinuation of drug admin. Usually refers to d/c an infusion

Question 36

Absorption

Depends on what

Answer 36

Drugs solubility, regardless of route of administration

Question 37

Oral admin

Pros and cons

Answer 37

Pro: Convenient and economic
Con: Emesis, destruction by enzymes or acidic gastric fluid, irregular absorption w food or other drugs

Question 38

First pass effect

Answer 38

Drugs absorbed from GI sys enter portal venous blood and pass thru liver before entering the systemic circ for delivery to tissue receptors. Here they are extensively extracted and metabolized

Question 39

Sublingual and transmucosal routes

Answer 39

Rapid onset, bypasses liver and prevents first pass effect

Question 40

Transdermal route

What it provides, where absorbed

Answer 40

Sustained plasma conc of drug. Absorp in sweat ducts and hair follicles that serve as diffusion shunts

Question 41

Transdermal route
Rate limiting step
Factors for permeability of drug
What can occur

Answer 41

• diffusion across stratum corners of epidermis
• thickness and blood flow of skin
• contact dermatitis

Question 42

Rectal mode.
Proximal
Distal
Overall

Answer 42

P- trans to portal sys via superior hemorrhoidal veins, 1st pass effect
D- bypasses portal sys
Unpredictable responses that follow rectal admin of meds

Question 43

IV route

Answer 43

Achieves therapeutic plasma levels precisely and rapidly

Question 44

Ionization
Most drugs are what
Non ionized drugs are what

Answer 44

• Weak acids or bases in ionized and non-ionized forms

- usually lipid soluble and can diffuse across lipid cell membranes ex BBB, renal, tubules, GI epithelium, hepatocytes

Question 45

Ionization

-the fraction of drug is pharmacologically ___ and undergoes what

Answer 45

Active- undergoes reabsorption across renal tubules, is abs from gi tract, and is metabolized by liver

Question 46

Ionized fraction of drug is what

Answer 46

Poorly lipid soluble, cant penetrate lipid cell membranes, and is repelled from portions of the cell w similar changes. They are excreted by kidneys unchanged

Question 47

Degree of ionization depends on what

Answer 47

Dissociation constant (pk) and ph of the surrounding fluid

Question 48

Changes in ph can result in what

Answer 48

Large degree of ionization. Acidic drugs are highly ionized at alkaline ph and vice a versa

Question 49

Alkalotic pt giving a weak acid=

Answer 49

Will have less drug effect because more ionization

Question 50

Acidotic pt giving weak acid drug

Answer 50

More nonionized drug, more effect

Question 51

Ion trapping

Ex

Answer 51

Concentration difference of total drug can develop on 2 sides of a membrane that separates fluids w diff pHs. Ex placenta

Question 52

Protein binding: ex., effect

Answer 52

Albumin acids, a1 acid glycoprotein bases, lipoproteins

Only free or unbound fraction of drug is readily able to cross cell membranes

Question 53

Vd inversely proportional to

Unbound drug in plasma is metabolized and excreted ___ ___

Answer 53

Protein binding

More readily

Question 54

Drugs that are highly protein bound (4 ex) are effected by what

Answer 54

Warfarin, propranolol, phenytoin, diazepam

Alterations in protein binding

Question 55

Clearance

Answer 55

Volume of plasma cleared of drug by metabolism and excretion

Question 56

First order kinetics

Answer 56

Almost all drugs administered in therapeutic dose range are cleared at a rate proportional to the amount of drug present in plasma

Question 57

Zero order kinetics, ex 3

Answer 57

Drugs that exceed metabolic or excretory capacity of the body to clear drugs by first order kinetics even at therapeutic doses
Constant amt of drug metabolized per unit of time
Ex) asa, dilantin, etoh

Question 58

Hepatic clearance, other term for it

Answer 58

Hepatic blood flow and hepatic extraction ratio. If extraction high (>0.7) the clearance of the drug depends on hepatic blood flow
Perfusion dependent elimination

Question 59

Extraction ratio dep on blood flow

Total range

Answer 59

0.7-1

0-1

Question 60

What = low extraction ratio

If extraction ratio low what will increase clearance

Answer 60

0.3 or less

A decrease in protein binding or increase in enzyme activity

Question 61

What will have minimal change in clearance if extraction ratio is low

Answer 61

Changes in hepatic blood flow

Question 62

What is capacity dependent elim

Answer 62

If extraction ratio low: protein binding or inc enzyme activity increases clearance. Changes in hepatic blood flow has min effect

Question 63

Renal clearance

• most imp organ for what
• what is excreted better
• what isn’t excreted

Answer 63

• elim of unchanged drugs or their metabolites
• water soluble compounds > lipid soluble drugs
• highly lipid soluble drugs, little or no unchanged drug excreted in urine

Question 64

Metabolism

Answer 64

Bio transformation to convert pharmacologically active, lipid soluble drugs into water soluble and often inactive drugs

Question 65

Increased water solubility reduces what and enhances what

Answer 65

Reduces Vd

Enhances renal excretion

Question 66

Metabolism not always synonymous with what

Answer 66

Inactivation or detoxification. Some metabolites of certain drugs are active

Question 67

Which order kinetics most common

What it is basically

Answer 67

First order

Constant fraction of available drug is metabolized in a given time period

Question 68

Zero order kinetics basically and ex

Answer 68

Plasma conc of drug exceeds capacity of metabolizing enzymes. Metab of a constant amt of drug per unit time

Etoh, dilantin, asa

Question 69

4 pathways of metabolism

Answer 69

Oxidation
Reduction
Hydrolysis
Conjugation

Question 70

Phase I

Answer 70

Oxidation, reduction, hydrolysis

Question 71

Phase II

Answer 71

Parent or metabolite drug reacts w an endogenous substrate to form water soluble conjugates

Question 72

Sites of uptake

Answer 72

Plasma, kidneys, lungs, gi tract, liver (hepatic microsomes enzymes are responsible for metabolism of most drugs)

Question 73

Hepatic microsomes enzymes:

• located where
• cytochrome p450

Answer 73

• hepatic smooth ER

- large number of diff protein enzymes involved in oxidation and reduction and conjugation of large # of drugs

Question 74

Enzyme induction

Answer 74

Drugs and chemicals stimulate activity of these enzymes

Question 75

Nonmicrosomal enzymes

• metabolize by what
• present where

Answer 75

Mainly by conjugation and hydrolysis. Some by oxidation-reduction

Liver mostly, plasma, gi tract

Question 76

Nonmicrosomal enzymes

• responsible for hydrolysis of what
• dont undergo what
• determined by

Answer 76

• drugs that contain ester bonds (succhs, esmolol)
• enzyme induction
• genetically

Question 77

Pharmacodynamics

Answer 77

How drugs exert fx. Most common mechanism= interaction w specific macromolecules in lipid bi-layer of cell membranes called receptors

Question 78

State of receptor activation theory

Answer 78

Non activated receptors are converted to active by the drug

Question 79

Receptor occupancy theory

Answer 79

The more receptors occupied by drug the more effect

Question 80

Nonreceptor drug action

Def and Ex

Answer 80

Mechanisms other than receptor drug interactions. Chelating drugs form bonds w metallic ions that are found in body. Ex antacids

Question 81

Agonist drugs

Answer 81

Mimic cell signaling molecules by activating the same receptor sites and causing similar effects

Question 82

Antagonist drugs

Answer 82

Bind to receptors and change configuration of agonist site or bind to it, preventing effect from cell signaling molecules

Question 83

Structure activity

Answer 83

Affinity of a drug for a specific macro molecular component of the cell and its intrinsic activity are r/t chemical structure

Question 84

Enantomerism produced by

Answer 84

Sp3 hybridized carbon atoms. Free rotation about chiral carbon not possible, 2 stable forms of molecule exist

Question 85

Isomer differences w drugs

Answer 85

Interaction w biological receptors can differ, even to pt of no binding. Some may cause entirely diff side effects. Some may have little to no effect

Question 86

Ephedrine isomers

Answer 86

2 chiral centers and 4 isomers

Question 87

Potencies of ephedrine

Answer 87

D ephedrine 36
L epedrine 11
D pseudophedrine 1
L pseudophedrine 7

Question 88

Efficacy

Answer 88

The ability of a drug to produce desired therapeutic effect

Question 89

Potency

Answer 89

The relationship b/w therapeutic effect of a drug and dose necessary to achieve that effect

Question 90

ED 50

Answer 90

Median effective dose. The wider the range, the more effective the drug

Question 91

LD 50

Answer 91

Median lethal dose. Halfway pt where rats stop breathing

Question 92

Ratio of LD50 to ED50

Answer 92

Indicates therapeutic index of a drug for that effect. Suggests how selective drug is in producing its desired effects. Estimates clinical therapeutic index

Question 93

Hyperreactive

Answer 93

Ppl in whom lose dose of drug produces expected pharmacological effect

Question 94

Hypersensitivity

Answer 94

Refers to allergies

Question 95

Additive effect

Answer 95

Second drug acting w first produces sum of both

Question 96

Synergistic effect

Answer 96

2 drugs interact to form greater effect than sum. Like fentanyl and versed