Lec3-5

Question 1

lipophilicity

Answer 1

solubility in lipid relative to water

Question 2

lipophilicity is measured by

Answer 2

oil/water partition coefficient (drug conc in oil v water)

Question 3

drugs with carboxylate reside undergo ionization and become ____
what is their solubility to water and lipid now

Answer 3

anions
more soluble to water
less soluble to lipid

Question 4

drugs with amine undergo ionization and become ____

what is their solubility to water and lipid now

Answer 4

cation
less soluble to water
more soluble to lipid

Question 5

quaternary ammonium with fixed positive charge (such as ACH) has what type of lipophilicity

Answer 5

lipophilicity is low
high solubility in water
low solubility in lipid plasma membranes

Question 6

very large MW drugs

Answer 6

> 1000 (tend to be proteins)

Question 7

small MW drugs

Answer 7

<1000

Question 8

pharmacokinetics is concerned with

Answer 8

the time course of

1. absorption
2. distribution
3. eliminiation

Question 9

absorption

Answer 9

drug from site of administration into the blood stream

Question 10

why is conc of plasma important

Answer 10

bc it’s what we can measure (blood)

Question 11

distribution

Answer 11

from blood stream into tissues in body

Question 12

elimination

Answer 12

getting out of body in form of molc it was administered

Question 13

4 major types of biotransport

Answer 13

passive diffusion throguh plasma membrane
filtration
carrier-mediated transport
receptor-mediated endocytosis

Question 14

what order kinetics is passive diffusion and is the half life or rate dependendant on dose conc

Answer 14

first order
half life NOT dependent on conc
rate IS dep on conc gradient

Question 15

transport in bulk flow of aqueous fluid is known as

Answer 15

filtration

Question 16

filtration rate is dependent on ? (3)

Answer 16

hydrostatic pressure
MW, size, charge
tissue porosity

Question 17

what type of transport can be active transport of a molc that wouldn’t cros w/o it

Answer 17

carrier-mediated transport

Question 18

drug transporter whose efflux pump causes resistance to some antitumor drugs

Answer 18

MDR p-glycoproteins

Question 19

biotransporter that is important for big molecules

Answer 19

receptor-mediated endocytosis

Question 20

rate of receptor mediated endocytosis is dependent on

Answer 20

receptor expression and membrane insertion

Question 21

what protein therapeutics is receptor-mediated endocytosis a mechanism for

Answer 21

monoclonal antibodies (iGg)

Question 22

time course of transport from site of administration to systemic circulation

Answer 22

absorption

Question 23

bioavailability is the

Answer 23

% dose absorbed (what % gets into bloodstream)

Question 24

only route of admin that’s 100% bioavailabity

Answer 24

intravenous bc all put into vasculature

Question 25

route of admin with fastest possible input rate

Answer 25

intravenous

Question 26

during subcutanrous or intramuscular routes of admin where do low MW lipophilic drugs enter
where do high MW compounds enter

Answer 26

low - into blood

high - into lymphatics

Question 27

subcutaneous and intramuscular has better biovailability than ____ for ____ drugs

Answer 27

than oral route

for polar & high MW drugs

Question 28

during inhalation route of admin, rapid absorption of gases and vapors is due to

Answer 28

high pulmonary blood flow

low diffusional distance from alveolus to blood

Question 29

which route of admin do we want no bioavailability

Answer 29

inhalation

Question 30

why is absorption through skin (topical route) generally slow

Answer 30

moves through surface layers of dead, keratinized cells

Question 31

which route avoids the first pass effect

Answer 31

topical (i.e. transdermal)

Question 32

why might bioavailabity of oral route be low

Answer 32

mucosa as barrier
high MW
low lipophilicity
carrier-mediated extrusion
first pass effect

Question 33

biotransformation during the absorption process

Answer 33

first pass effect

Question 34

is bioavailability low or high in a drug with NO first pass effect

Answer 34

high bioavailability

Question 35

time course of transport from vasculature to tissue space

Answer 35

distribution

Question 36

what determines equilibration rate during distribution

Answer 36

blood flow

Question 37

highly perfused organs?
intermed?
low?

Answer 37

high: 
lung 
liver
brain 
kidney 

inter:
skeletal muscle

low:
fat

Question 38

which is equilibrated faster? highly perfused structures or low

Answer 38

highly bc equilibrate in mins while low does in hours

Question 39

determinants of equilibrium gradient in distribution

Answer 39

vascular permability
macromolc binding in plasma and tissue
MW, lipophilicity, carrier affinity

Question 40

BBB has what 2 things that allow drugs to pass

Answer 40

tight junctions and transporters

Question 41

what does a drug binding to albumin do & whats its effect on equilibrium gradient

Answer 41

it prevents the complex from moving out of the vascular compt
as drug distributed, dissociated from albumin and incr drug distribution (high equilibrium gradient)

Question 42

monoclonal antibody likely to distribute into a space like that of

Answer 42

albumin (in plasma)

Question 43

volume of the body into which the drug appears to have distributed once equilibrium is obtained

Answer 43

volume of distribution

Question 44

(plasma) concentration is

Answer 44

amount (g) / volume (L)

Question 45

volume of distribution is determinant of

Answer 45

plasma concentration

Question 46

one compt model v 2

Answer 46

1 compt - drug ditributes entire volume and reaches equilibrium v quickly

2 compt - equilibrates slowly

Question 47

high lipid solubility means ____ Vd

Answer 47

high

Question 48

high MW(proteins) - ___ Vd
small MW and polar(charge) - ____ Vd
small MW and lipophilic - _____ Vd
highly lipophilic and accumulates in fat - ____ Vd

Answer 48

small (Vd about plasma vol, 4%)
Vd like sucrose (Vd about extracell fluid vol, 17%)
Vd like water (Vd about total BW, 58%)
more than body water (»58%)

Question 49

mechanism by excretion or biotransformation

Answer 49

elimination

Question 50

molc in same chemical configuration as the form it was injected in is by

Answer 50

excretion

Question 51

clearance is what over what

Answer 51

volume of plasma cleared over unit time

Question 52

what is the extraction ratio & what is it’s range of values

Answer 52

Cp arterial - Cp venous
0=nothings removed
1=all of drug is removed

Question 53

what determines the elimination rate of a drug from the body

Answer 53

total clearance

Question 54

elimination rate (amt of drug in body/time) =

Answer 54

Cl Total x Cp

where Cp=plasma conc

Question 55

elimination rate changes in parallel w

Answer 55

plasma conc

Question 56

total clearance = sum of

Answer 56

renal and nonrenal clearance

Question 57

renal clearance refers to

nonrenal

Answer 57

urinary excretion unchanged

all other routes and mechanisms

Question 58

nonrenal clearance participates in biotransformation where critical enzymes are lumped into phase 1 and phase 2
-whats the general difference

Answer 58

1- oxidation, reduction, hydrolysis

2-conjugations

Question 59

pathway of biotransformation

Answer 59

drug –phase 1 –> metabolite –phase 2–> conjugated metabolite

Question 60

main enzyme for phase 1

Answer 60

CYP450

Question 61

2 isozymes of CYP450

Answer 61

3A4 and 2D6

Question 62

how do CYP450 familu isozymes differ

Answer 62

substrate specificity
inducers
inhibitors

Question 63

what happens to clearance of some drugs when theres biotransfortmation w an inducer

Answer 63

increases clearance

Question 64

what are good ligands for phase 2 conjugation

Answer 64

OH

Question 65

good ligands for phase 1

Answer 65

CH3

Question 66

phase 2 conjugating MOieties (6)

Answer 66

GMS GAG
glucoronic acid 
methyl groups
sulfate
glutathione
acetyl group
glycine

Question 67

phase 2 enzymes that are transferase creater metabolites with ___ compared to parent

Answer 67

higher MW

Question 68

volume of plasma cleared by excretion unchanged into urine

Answer 68

renal clearance

Question 69

mechanisms of renal clearance

Answer 69

Glomerular filtration of unbound low MW drug
prox tube secretion mediated by oatp and mdr
passive reabsorption of uncharged, lipophilic drug

Question 70

why is renal clearance small

Answer 70

bc readily reabsorbed

Question 71

equation for renal clearance

Answer 71

urinary excretion rate / Cp

Cp=plasma conc

Question 72

if renal clearance is 0-120 (

Answer 72

not filtered and/or lots of reabsorption or bound to macromolc in plasma

Question 73

if renal clearance is 120 (GFR) it’s mechanism of excretion was

Answer 73

filtration and NO reabsorption

Question 74

if renal clearance is 120-640 (RPF) it’s mechanism of excretion was

Answer 74

filtration and secretion
NO net reabsorption
*>GFR only happens if secreted into nephron in prox tubule and no net reabsorption

Question 75

renal clearance is most likely what for:

high albumin binding

Answer 75

<120

Question 76

renal clearance is most likely what for:

lipophilic drug

Answer 76

<120

filtered but reabsorbed

Question 77

renal clearance is most likely what for:

acidic drug w affinitiy for OATP, high urine pH

Answer 77

> 120
OATP means likely to be secreted so incr ClR
if drug is anion (wk acid) then it’s more charged in high pH –> less reabsorption –> incr ClR

Question 78

renal clearance is most likely what for:

acidic drug w low urine pH

Answer 78

<120

would want a more basic pH if drug is acidic

Question 79

what type of distribution? drug rapidly equilibrates into volume of distribution

Answer 79

single compartment distribution

Question 80

type of elimination?
drug is cleared at constant fractional rate
Kel (elimination constant) is fraction eliminated per unit time

Answer 80

first order elimination

Question 81

does total clearance depend on dose

Answer 81

no

Question 82

how do you linearize plasma conc

Answer 82

take ln

Question 83

bioavailability with iv

Answer 83

100%

Question 84

compute vol of distribution

Answer 84

dose/Cp0

Question 85

elimination half life is function of both

Answer 85

Vd and clearance

Question 86

tiem to eliminate 50% of a drug from plasma

Answer 86

half life

Question 87

is half life dose depend or independ? what order of elimination?

Answer 87

dose independent

first order

Question 88

if you incr Vd what happens to half life

Answer 88

larger Vd –> lower Cp0 –> (longer or) incr half life

Question 89

increase clearance what happens to half life

Answer 89

faster clearance (higher ClT) so shorter half life
* no effect on CP0

Question 90

how are Cp, Vd, ClT, and half life affected with dose

Answer 90

Cp incr w dose

rest do not change

Question 91

with iv admin, 1st order elimination, 1 compt distribution, rapid reversible effect, and no active metabolits

if you double dose, what happens to duration

Answer 91

duration increases by addition of one half life

Question 92

what type of elimination has Cp v time as linear without log transformation

Answer 92

zero order

Question 93

in zero order kinetics, how does biotransformation time change w conc

Answer 93

50% biotransformation time incr w conc

Question 94

main diff bn first ortder and zero order Cp v time

Answer 94

first order has fractional elimination like it decr by half

zero order has constant rate of elimination like decr by 20 every hour

Question 95

is eliminiation happening from the central or peripheral compt? what are central organs? peripheral?

Answer 95

central

central: lung liver kidney brain
peripheral: fat and skeletal muscle

Question 96

Cp v time curve for two compt model has 2 phases, what are they and what do they describe

Answer 96

alpha - initial rapid decline that describes distribution of drug from central in peripheral comp
beta - linear

Question 97

which most similarly acts/looks like the plasma conc v time curve of a 2 compt model? highly perfused or poorly perfused tissue concentration

Answer 97

highly perfused tissue (central compt like brain)

Question 98

what happens to conc of poorly perfused tissue as Cp decreases

Answer 98

they rise/ incr til reach equilibirum

Question 99

duration of action for multi-compartments is dependent on

Answer 99

distribution into and out of compt where target is located

Question 100

what do lipophilic drugs that act in the brain duration of action depend on

Answer 100

redistribution out of brain to slowly perfused tissues

**not on elim by kidney or liver

Question 101

can duration of action be short if elimination half life is long

Answer 101

yes

Question 102

half life is always elimination

Answer 102

false theres an absorption half life

Question 103

plasma conc time curve is influenced by what 3 things

Answer 103

absorption rate constant
elimination rate constant
bioavailability

Question 104

the faster the absorption (i.e. the shorter the half life of absorption), the ___ Cp max and the ____ t max

Answer 104

higher Cp max

earlier the tmax (so the time for that peak is shorter)

Question 105

fraction of dose that gets into plasma conc is known as

Answer 105

bioavailability

Question 106

what is proportional to bioavailability

Answer 106

area under the curve of Cp v t

Question 107

integral of Cp = AUC = ?

Answer 107

Fx D / ClT
bioavailability x dose / total clearance
*ClT is constant

Question 108

the absolute bioavailability is determined for

Answer 108

a new drug

Question 109

the relative bioavailability is determined for

Answer 109

generic in comparison to proprietary formulation of drug

*comparing one manufacturers formualtion to anoteher

Question 110

eq for absolute bioavailability and relative

Answer 110

abs: AUC nonIV dose / AUC IV dose
rel: AUC formualtion 1/AUC formualtion 2

Question 111

during continuous infusion, at steady state what 2 rates equal each other

Answer 111

input rate = output rate

Question 112

input rate =

Answer 112

Cp steady state * ClT

*also true for output rate equation

Question 113

equation that relates Cpss w infusion rate

Answer 113

Cpss=infusion rate / ClT

Question 114

the higher the ClT the ____ the Cpss

Answer 114

lower the Cpss

*unless you increase the infusion rate to get a desired CPss

Question 115

tiem to achieve steady state level achieved by infusion depends SOLELY on

Answer 115

elimination half life

Question 116

time to reach 50% of Cpss take how many elimination half life

Answer 116

one

Question 117

time to reach 93% of Cpss take how many elimination half life

Answer 117

four

Question 118

when prescribe a drug by continuous IV infusion, which drug will reach steady state mor quickly? shorter half life or longer

Answer 118

shorter half life

Question 119

Cmin is called a

Answer 119

trough

Question 120

CmaxSS to CminSS is

Answer 120

therapeutic window

Question 121

when is loading dose important

Answer 121

for rapid onset of effect is needed

if drug elimination half life is LONG and slowly attains SS

Question 122

diff bn multiple dose kinetics and IV infusion

Answer 122

multiple is not continuous, it’s pulsatile

Question 123

equation for multiple dose kinetics

Answer 123

maintenance dose / dosing interval

Question 124

extent of accu,ulation from first dose to SS depends on

Answer 124

ration bn elimination half life and dosing interval

Question 125

if dosing interval is 7 times the elimination half life, how much accumulation?

Answer 125

none

Question 126

if dosing interval = elimination half life, how much accumulation?

Answer 126

2 fold accumulation

Question 127

calculate Cp average

Answer 127

input rate / clearance

(D/t) / Cl T

Question 128

compare the Cp avg of small dose at frequent intervals and high dose at long intevals

Answer 128

they’re about the same