Pharm

Question 1

What is the equation to determine pharmokinetic binding?

Answer 1

k2 = [L] x [R]; and k2 = KD

k1 [LR] k1

Question 2

How is Kd determined for pharmokinetics?

Answer 2

[LR] = RT x [L]

KD + [L]

Question 3

What is the major determinant of k2 in pharmokinetics?

Answer 3

Van Der Waals interactions

Question 4

How is maximal effect measured?

Answer 4

Occurs when all receptors are occupied

Question 5

Do all the receptors have to be bound to get maximal effect?

Answer 5

no, because full effect can be attained with significantly less

Question 6

What is intrinsic activity

Answer 6

How much a particular agonist functions as an agonist as opposed to an antagonist

Question 7

What are the purpose of spare recetpros on cells?

Answer 7

Allows a larger response with the same concentration of effeector

Question 8

What are teh different type of antagonists?

Answer 8

chemical: combine with the agaonist
physiological: activate opposing physiological inputs
Pharmacological: blocks the effect of an agonist of a receptor

Question 9

PHenoxybenzamine is what?

Answer 9

An irreversible inhibitor of the alpha adrenergic receptor. Used to treat hypertensive effects of pheochromocytoma

Question 10

What is potency?

Answer 10

The relationship of the amount of drug administered and its effect

Question 11

What are determinants of potency?

Answer 11

Affinity for site of action and ability to reach the site of action

Question 12

How is ED50 related to potency?

Answer 12

Inversely related to potency, potency is the position of the cuve on the x-axis

Question 13

What is efficacy and how is it determined?

Answer 13

Maximal effect prduced by drug
include a receptor ligand, intrinsic activity
charactersitics of the effector
limitations on amt of drug that can be administered

Question 14

What are some reasons for variation in response among individuals?

Answer 14

differences in pharmokinetics such as caused by smoking
variation in amount of endogenous agonsit
changes in number or function of target
differences in component distal to the darget

Question 15

What is P-glycoprotein?

Answer 15

An ABC carrier. Primarily binds lipophilic drugs and mediates their efflux from cells. ATP used. Multidrug resistant gees

Question 16

What is bioavalability?

Answer 16

Fraction of administered dose of drug that reaches circulation, defined as F. IV drugs IV=1

Question 17

What is the first pass effect for orally adminstered drugs?

Answer 17

Drug is metabolized or excreted in first pass through liver, and bioavalability can be considerably reduced.

Question 18

Bioequivalence between preparation means?

Answer 18

Same drug
Same route of admin
same amnt of drug enters circulation
drug enters circulation at same rate

Question 19

Where is the majority of drug absorbed in the GI tract?

Answer 19

Upper intestines

Question 20

How does gastric emptying impact drug absorption?

Answer 20

Increased gastric emptying will increase the rate of drug absorption

Question 21

How does dissolution of solid drug preparation affect rate of absorption?

Answer 21

It’s affected by formulation and the easier the drug will be absorbed

Question 22

How is controlled release preparation prepared?

Answer 22

Coating active drug with hard to dissolve agents

Question 23

What is a drawback for controlled release preparation?

Answer 23

Greater variability among patients and dose may be toxic if released all at once

Question 24

Enteric coatings do what?

Answer 24

Protect the drug from stomach acid and stomach from drug. Gives better taste.

Question 25

Why are drugs given buccally or sublingualy?

Answer 25

Blood drains into the superior vena cava(avoids liver on first pass)
Small surface area, so drugs need to be lipophilic, readily pass through membranes

Question 26

Why are drugs administered rectally?

Answer 26

Useful if patient can’t or won’t swallow
50% less first pass than orally admin agent
disadvantage: variable absorption, incomplete, irritating to mucosa

Question 27

What type of drugs are administered by transdermal patch?

Answer 27

Lipohphilic drugs only

Best if hydrated (using occlusive, water tight dressing)

Question 28

What are parenteral injections?

Answer 28

Without intestine ( IV, Subcut, and Intramusc)

Question 29

How do proteins injected by IV enter the circulation system?

Answer 29

Enter slowly via the lymphatic system.

Question 30

Parenterally administered drugs distribute where first?

Answer 30

Occurs at lungs before liver
metabolic enzymes can transform the drug
filters particulate
volatile agents can diffuse
lipophilic agents can accumulate

Question 31

How can subcutaneous treatment be delayed?

Answer 31

Absorption can be delayed by vasoconstrictors

Question 32

How can intramuscular treatment be variable?

Answer 32

Dependent on blood flow to the muscle.

Question 33

Novel methods of drug delivery include?

Answer 33

Targetig of drugs using antibodies
drug eluting stents
activation of drugs at site of action

Question 34

Drug delivery depends on blood flow how?

Answer 34

Two phase of drug delivery dependence:
first phase highly pefused organs receive most of drug; equilibration is rapid
second phase: more poorly perfused organs; equilibration is very slow

Question 35

Tissues ca accumulate drugs what does this act as?

Answer 35

slowly releasing resevoirs
Lipophilic drugs can be stored for long periods in fat
tetracycline adn heavy metals accumulate in bone

Question 36

THe time to peak concentration for a drug is what?

Answer 36

The lag time

Question 37

Area under the curve for drug absorption is what value?

Answer 37

It is the extent of absorption

Question 38

How does one determine the apparent volume of distribution/

Answer 38

Amount of drug in body (aka dose)=Volume of distrubtion*conc

Question 39

What values do you use to calculate the concentration of the drug in the body for volume of distribution?

Answer 39

You use C at time 0, which is extrapolated from the graph of the drug elimination phase

Question 40

What is the relevance of bioavailability with respect to determining drug dose?

Answer 40

Needs to be taken into account, especially for oral dosing. F=bioavailability
DF=VdCo

Question 41

Clearance from different mechanisms is related to the total clearance how?

Answer 41

additive, Cltotal=Clrenal+Clliver

Question 42

Slope of elimination is simplified as what?

Answer 42

first order, Slope of elimination is=-kel/2.3

Question 43

How is half life time determined?

Answer 43

T1/2=0.69/kel

Question 44

What are the two phases for deterimining IV drug concentration?

Answer 44

alpha phase and beta phase, alpha phase is distribution of the IV drug, and beta phase is the elimination phase

Question 45

What drugs follow zero order kinetics?

Answer 45

Mechanisms of clearance can be saturated in this istuation; ethanol, aspirin and phenytoin, drug can accumulate

Question 46

What is the rate of clearance-volume of blood cleared of drug per unit time?

Answer 46

CL=Kel*Vd

Cl=0.69*Vd/halflife

Question 47

What equation is the equation for steady state dosing of a drug?

Answer 47

Rate of drug in=rate of drug out
FDose/dosing interval=CLCss
Css=conc plasma drug at steady state

Question 48

What is the equation to achieve steady state with an initial maximal dose?

Answer 48

Loading D=Vd*Css/F

Question 49

What is an example of steroid hormone?

Answer 49

Cortisol, and binds to corticosteroid-binding globulin, enters cell where it binds glucoroticoid receptor which exists as an inactive complex in cytosol

Question 50

What is an examples of ion channel linked receptor?

Answer 50

Receptors for acetycholine, GABA, serotonin, glycine, and glutamate

Question 51

Nictotinic Acetycholine receptor is what type of receptor?

Answer 51

Ion channel, that allows influx of cations when bound to acetycholine

Question 52

What type of receptor is the GABA receptor?

Answer 52

Ion channel receptor that allows influx of Cl- leading to hyperpolarization and inhibition of resposne

Question 53

The alpha subunit of a heterotrimeric G protein coupled receptor is active when what is bound?

Answer 53

GTP

Question 54

What are the three types of Galpha subunits?

Answer 54

GalphaS–>stimulates adenylyl cyclase
Galphai–>inhibits adenylyl cyclase
Galphaq–>activates phospholipase C

Question 55

What are monomeric G protein such as RAS activated by?

Answer 55

Interaction with a GEF

Question 56

What is GEF?

Answer 56

ie SOS, is the gaunine nucleotide exchange factors

Question 57

What is an example of an important monomeric G protein?

Answer 57

MAP Kinase signaling cascade. (mitogen activating protein)

Question 58

Ras-GTP activates what?

Answer 58

Raf which is MAPKKK

Question 59

What does RAF phospohrylate?

Answer 59

Raf phosphorylates MKK1, MKK1 is Map kinase kinase

Question 60

What does MKK1 phosphorylate?

Answer 60

ERK which is a MAP Kinase

Question 61

GPCR can be desensitized upon phospohrylateion of the recceptor by what?

Answer 61

Beta adrenergic kinase, which allows beta-arrestin to bind it

Question 62

What are phase 1 drug elimination enzymes?

Answer 62

oxidation, reduction, dealkylation or hydrolysis;

introduce or reveal a functional group

Question 63

What are phase 2 drug eliminiation enzymes?

Answer 63

Conjugation of a drug or drug metabolite to an endogenous substrate molecule

Question 64

Where are drug metabolizing enzymes located?

Answer 64

Located in all tissues to some degree.

Liver is the highest overall but GI tract, kidney and lungs all have significant amounts

Question 65

What are some type of PHase 1 enzymes?

Answer 65

• CYP 450s
• Flavin-containing monooxygenases
  dehydrogenases
  hydrolases
  esterases
  amidases

Question 66

What are the three families of cytochrome p450s involved in drug metabolis?

Answer 66

CYP1, CYP2, CYP3

Question 67

What are the three isoforoms of CYP450s that are involved in 90% of drug metabolism?

Answer 67

CYP3A~50%
CYP2D6~25%
CYP2C9~15%

Question 68

Flavin-containing monooxygenase(FMO) do what?

Answer 68

Monooxygenase reactions, with substrates that are soft nucleophiles. Excludes non-substrates rather than selectively binding substrates; products usually more polar less toxic

Question 69

FMO3 exist where?

Answer 69

Liver, brain, kidney and is 2-3% of hepatic protien

Question 70

FMO2 is present in what group?

Answer 70

26% of african americans in the lung and non functional in caucasians

Question 71

What enzyme is responsible for glucuronidation?

Answer 71

UDP-glucuronosyl transferase

Question 72

What enzyme is responsible for acetylation?

Answer 72

N-acetyltransferases

Question 73

What enzyme is responsible for sulfation?

Answer 73

sulfotransferases

Question 74

What enzyme is rsponsible for glutathione conjugation?

Answer 74

glutathione S-transferases

Question 75

What is TMPT?

Answer 75

Thiopurine methyltransferase

Question 76

What is ethanol an inducer of ?

Answer 76

CYP2E1

Question 77

What CYP is not as inducible as the others?

Answer 77

CYP2D6

Question 78

What are some inducers of UGTs and GSTs?

Answer 78

tobacco smoke, phenobarbital, polycyclic aromatic hydrocarbons, benzopyrene

Question 79

What are the major cause of CYP-related drug interactions?

Answer 79

Competitive substrates/inhibitors for P450

Question 80

Several inhibitors of CYP2D6 can reduce its activity to nearly 0 some examples?

Answer 80

chloroquine, quinide, fluoxetine

Question 81

How does grapefruit juice work as an inhibitor?

Answer 81

Inhibits only CYP3A by furanocoumarin, in the intestine but increases amnt that reaches circulation CYP3A handles 50%

Question 82

How are FMOs inhibited and induced?

Answer 82

Neigher significantly induced or inhibited; less susceptible to to competitive substrate inhibition
less potential for metabolic drug-drug interactions

Question 83

Women require half the dose of what drug?

Answer 83

zolpidem; even though CYP3A present at similar levels

Question 84

What is the NAT-2 polymorphism?

Answer 84

Slow inactivators lead to increased neurological side effects from teh drug
isoniazid
can check for with caffeine metabolism

Question 85

CYP2d6 polymorphism are present in what percentage of population; what causes ultrafast metabolism?

Answer 85

genotypic frequency 30%; phenotype frequency between 2 and 10 % dependent on ethnicity
ultrafast is caused by multiple coppies of normal allele

Question 86

What type of drugs are effected by CYP2d6 metabolism?

Answer 86

Antidepressants** esp tricyclics
beta-blockers[metropolol, propanolol, timolol, carvedilol]
antiarrythmatics[encainide, flecainide]
neurleptics
codeine
dextromorphan

Question 87

What is the prevalence of CYP2C19 are poor metabolizers

Answer 87

3-20%

Question 88

What classes of drugs are effected by CYP2C19 polymorphism

Answer 88

Proton Pump inhibitors [omeprazole]
anticonvulsants [phenytoin]
anti-depressants
anti-cancer
horomones [progesterone]
anti-platelet [clopidogrel]

Question 89

What classes of drugs are effected by CYP2C9 polymorphism?

Answer 89

anticoagulant[warfarin]
anticonvulsant
type 2 diabetes [tolbutamide]

Question 90

Psuedocholinesterase polymorphism can lead to what?

Answer 90

multiple reduced variance can lead to apnea and paralysis for 2-3 hours from succinylcholine as well as cocaine and insectide toxicity

Question 91

How does one test for atypical cholinesterase activity?

Answer 91

in vitro diagnostic test using dibucaine, which inhibits normal cholinesterase activity better than atypical

Question 92

TPMT polymorphism leads to what?

Answer 92

life-threatening bone marrow suppression in 6-mercaptopurine trerated patients

Question 93

Nicotinic Receptors are involved in what?

Answer 93

Striated muscles, motor neurons utilize acetycholine

Question 94

Parasmpathetic receptors utilize what type of recetors?

Answer 94

Musarinic receptors

Question 95

What type of receptors are utilized by sympathetic glands?

Answer 95

Alpha/Beta adrenergic receptors

except for sweat glands (musarinic receptors)

Question 96

Nicotinic Receptors are involved in what?

Answer 96

Striated muscles, motor neurons utilize acetycholine

Question 97

Parasmpathetic receptors utilize what type of recetors?

Answer 97

Musarinic receptors

Question 98

What type of receptors are utilized by sympathetic glands?

Answer 98

Alpha/Beta adrenergic receptors

except for sweat glands (musarinic receptors)

Question 99

monoamine oxidase does what?

Answer 99

Major role in neurons to metabolize norepinephrine

Question 100

VMAT2 is what?

Answer 100

UPtakes dopamine and norepinephrine into vesicles for storage

Question 101

What is ENT?

Answer 101

Effector Neuroepinephrine transporter, uptakkes neuroepinephrine into efefctor cell

Question 102

monoamine oxidase does what?

Answer 102

Major role in neurons to metabolize norepinephrine

Question 103

What is pre-synaptic alpha2 receptors when bound by neuroepinephrine does what?

Answer 103

Inhibits adenylate cyclase when bound by neuroepinephrine, which increases Ca2+ into neuron and increases exocytosis

Question 104

What is the role of COMT?

Answer 104

transfers a methyl group to the 3-hydroxy position of a norepinephrine metabolism and deactivates it

Question 105

What is ChAT?

Answer 105

Produces aceytcholine from AcCoA and Choline;

Choline Acetyltransferase

Question 106

Where is M1 receptor located, and what G protein family is responsible?

Answer 106

Peripheral and Central nervous system; depolarization of nerves activate phospholipase
Gq

Question 107

What is M2 receptor responsible for and it’s location?

Answer 107

Gi
heart, nerves, smooth muscle
decrease electrical conduction and muscle contraction
, inhibits AC; activate potassium channels

Question 108

What is M3 receptor responsible for, location and its G protein?

Answer 108

Gq, glands smooth muscle, endothelium, increase secretion and muscle contraction
activate phospholipase C

Question 109

What is alpha2 receptor location, response and g protein?

Answer 109

Gi, nerve terminals, pancreatic Beta cells, vascular smooth muscle, decrease NE release, decrease insulin secretion, contraction, inhibit AC, downregulate cAMP, activate phospholipase

Question 110

What is M5 location, G protein and location?

Answer 110

Gq, CNS, depolarization and activate pohopholipase C

Question 111

What is alpha1 receptor location, response and g protein?

Answer 111

Gq, vascular and other smooth muscle, glands, contraction and secretion from glands, activate phospohlipase C

Question 112

What is alpha2 receptor location, response and g protein?

Answer 112

Gi, nerve terminals, pancreatic Beta cells, vascular smooth muscle, decrease NE release, decrease insulin secretion, contraction, inhibit AC, downregulate cAMP, activate phospholipase

Question 113

What is teh role of Beta1 receptor,?

Answer 113

Gs, cardiac muscle, juxtaglomerular cells, increase heart rate and renin secretion, upreg cAMP

Question 114

What is the role of Beta2 receptor?

Answer 114

Gs, vascular and other smooth muscle, skeletal muscle, liver, relaxation, glycogenolysis, activate cAMP

Question 115

Waht is teh role of beta3 receptor?

Answer 115

Gs, adipose tissue, lipolysis, activate cAMP

Question 116

All therapeutic antibodies are what type?

Answer 116

IgG

Question 117

What is the ending for nomenclature source antibodies?

Answer 117

• umab — Human (Used against an immune target)
• momab – Murine (mainly used against tumor)
• -ximab – Chimeric (Used on cardiovascular system)
• zumab – Humanized (Used against a virus)

Question 118

Neonatal Fc Receptor for IgG does what?

Answer 118

Protects IgG from degradation-prolongs serum half life.

Question 119

How does antibody play a role in anatagonism or neutralization?

Answer 119

Antibody binds and inactivates soluble antigen or acts as a competitive inhibitor of ligand to a cellular receptor

Question 120

What does Bevacizumab do?

Answer 120

Humanized IgG1 that binds and inhibits the angiogenic growth factor vascular endothelial growth factor (VEGF) from binding its receptor

Question 121

How does Cetuximab?

Answer 121

Chimeric antibody that binds to the epidermal growth factor receptor. Promotes antibody-dependent cellular cytotoxicity.

Question 122

What does abciximab do?

Answer 122

anti-coagulation
Chimeric Fab fragment taht binds the GPIIb/IIIa receptor on platelets
Competitively inhibits fibrinogen binding to platelets GPIIb/IIIa receptor
used to prevent intravascular platelet aggregation
No Fc region since this is a Fab fragment

Question 123

What does Rituximab do?

Answer 123

Chimeric IgG1 that binds CD20 on malignant B cells

ADCC of malignant B cells results- used to treat non-Hodgkin lymphoma

Question 124

What two drugs are involved in antibody bound toxin or radionuclides?

Answer 124

Ibritumomab tiuxetan, Brentuximab vedotin,

Question 125

Ibritumomab tiuxen delivers what to B cells and by what mechanism?

Answer 125

Antibody binds CD20 and delivers radionuclide to kill cell

Question 126

Brentuximab vedotin delivers what to a b cell how?

Answer 126

Antibody binds CD30 and delivers the microtubule antagonist monomethyl auristatin to B cell.

Question 127

Capromab pendetide does what?

Answer 127

Antibody binds prostate specific membrane antigen and delivers 111In to detect prostate cancer.

Question 128

What is teh route of administration for muscarinic agonists Bethanechol and pilocarpine?

Answer 128

not administered IV bc will cause hypotension
orally ( bethanechol, pilocarpine)
SubCut (bethanechol)
Opthalmic (pilocarpine, acetycholine

Question 129

What are the side effects of Bethanechol and pilocarpine with systemic exposure?

Answer 129

SLUDGE: salivation, lacrimation, urination, defecation, GI upset, emesis
hypotension, bradycarida, blurred vision

Question 130

What do you treat Bethanechol and pilocarpine toxicity with?

Answer 130

Muscarinic receptor antagonist, atropine

Question 131

What pateients should you be cuatious with administering Bethanechol and pilocarpine?

Answer 131

Asthma, COPD
Urinary, GI obstruction and peptic ulcer
CV disease involving bradycardia or hypotension

Question 132

what do acetylcholinesterase inhibitors do?

Answer 132

enhance the effect of endogenous released acetycholine, effective at any site where acetycholine is neurotransmiter
SIte of actions:
Ganglia
neuromusc junction
CNS
post-ganglionic parasympathetic junciton

Question 133

What are the two types of acetylcholinesterase inhibitors?

Answer 133

reversible and irreversible

Question 134

What are the two types of neuromuscular blocking agens?

Answer 134

Competitive and Depolarzing blockers

Question 135

What are acetylcholinesterase inhibitors?

Answer 135

Irreversiblely phosphorlate serine in substrate binding domain, and they are organophosphate acetylcholinesterase inhibitors
lipophilic and penetrate anywhere

Question 136

What are the side effects of muscarinic receptor antagonists?

Answer 136

no sweating, dry mouth, red from that combination, mydriasis, cycloplegia, drowsiness and at toxic concentrations ataxia, restlessness, excitemetn, hallucinationa dn delirium

Question 137

What pts should use muscarinic receptor antagonits with caution?

Answer 137

glaucoma pts
Benign prostatic hyperplasia
tacycardia and angina

Question 138

What are tx for muscarinic receptor antagonist poisoning?

Answer 138

limit absorption, physostigimine

Question 139

What are causes of Muscarinic receptor antagonist poisoning?

Answer 139

belladonna alkaloids, drugs block it including histamine receptor blockers, antipsychotics, tricyclic antidepressants

Question 140

What are substrate inhibitors of acetylcholinesterase inhibitors?

Answer 140

hydrolyzed by ACh slowly, carbamate derivatives, reversible Acetylcholinesterase inhibiots

Question 141

What is the result of oganophosphate toxicity?

Answer 141

SLUDGE
hypotension, bradycardia, bronchocontrction
medulla respiratory center depression and muscle paralysis due to depolarizing neuromusc
death due to respiratory failure

Question 142

What do neuromuscular blocking agents do?

Answer 142

blcok neurotransmission at neuromuscular junction porducing paralysis of skeletal muscle

Question 143

What is the mian role of neuromuscular blocking agents?

Answer 143

main clinical use is an adjuvant in surgical anesthesia to obtain relaxation of skeletal muscle to facilitatie operative manipulations

Question 144

What are the two chemical classes of competitive neuromuscular blocking agents?

Answer 144

aminosteroids

benzylisoquinolines

Question 145

What are some properties of competitive neuromuscular blocking agents?

Answer 145

copete with acetycholine for end-plate nicotinic receptor as an antagonist
no CNS pen, bc quaternary amines
variable potency, blocking ganglionic nicotinic
blockade of muscarinic effect stimulate histamine relase

Question 146

What is the mechanism of action of depolarizing neuromuscular blockers?

Answer 146

activate nicotinic receptors at junction maintaing end plate depolarization and prevents transmission of another action potential, agonist of nicotinic receptor

Question 147

What are the adverse effects and toxicity of neuromuscular blockers?

Answer 147

Competitive:
prolonged apea
oxicity or OD can be reverswed with neostigmine or edrophonium
can also reverse decrease duration of action with acetylcholinesterase inhibitor, if they treat with athat they should treat with glycopyrrolate to minimize muscarinic actions
Depolarizing:
prolonged apnea
malignant hyperthermia
hyperkalemia
muscle pain