Pharmacology 1

Question 1

Zero Order Elimination Drugs(4)

Answer 1

“PEA” ( a pea is round- shaped like the “0”)

1. Phenytoin
2. Ethanol (causes hangover!!)
3. Aspirin(at high or toxic concentrations)
4. cisplatin

Constant amount of drug elimination per unit time

Question 2

Weak acids(3) eliminated in urine
How treat overdoses?

Answer 2

1. Phenobarbital
2. Methotrexate
3. Aspirin

Trapped in basic environment.
Treat overdose w/ Bicarbonate

Question 3

Weak bases(2) eliminated in urine
How treat overdoses?

Answer 3

1. amphetamines
2. TCAs

Trapped in acidic environment
Treat overdose w/ Ammonium chloride

Question 4

Notoriously slow Acetylators

Significance

Answer 4

Asians»White/Af. Am

increase drug concentration–> increase drug reactions

Question 5

Drugs with lower Therapeutic Index(4)

Whats the formula for Therapeutic Index?

Answer 5

1. Digoxin
2. Lithium
3. Theophylline
4. Warfarin (monitor PT/INR)

TI= ToxD50/ED50
(in animal studies= LD50/ED50)

Question 6

Diazepam is an agonist at GABA-R

What effect does Flumazenil have on the GABA receptor?

Answer 6

Competitive antagonist (resembles substrate)

• decrease potency, no change in efficacy
• can be overcome with increased concentration of agonist substrate

Question 7

NE is an agonist at alpha-R

What effect does phenoxybenzamine have on the alpha-R?

Answer 7

Noncompetitive antagonist

• decrease efficacy
• can’t be overcome by increased agonist substrate concentration

Question 8

Morphine is a full agonist at the u-R.

What effect does buprenorphine have on the u-R?

Answer 8

partial agonist

• acts at same site as full agonist but with lower efficacy

Question 9

Sypathetic G-protein type:
a1
a2
B1
B2
B3

Answer 9

a1- q
a2-i
B1-s
B2-s
B3-s

Question 10

Parasympathetic G-protein type:
M1
M2
M3
What type of receptor is nAch-R

Answer 10

M1-q
M2-i
M3-q

nAch-R: ligand-gated Na/K channel (Nn and Nm)

Question 11

Dopamine G-protein type:
D1
D2

Answer 11

D1-s

D2-i

Question 12

Histamine G-protein type:
H1
H2

Answer 12

H1-q

H2-s

Question 13

Vasopressin G-protein type:
V1
V2

Answer 13

V1-q

V2-s

Question 14

Mnemonic for G-proteins

Answer 14

“After QISSeS(kisses), you get a QIQ(kick) out of SIQ(sick) SQS (super qinky sex)”

Question 15

Which receptors are Gs linked?

Answer 15

B1-3, D1, H2, V2

Question 16

Which receptors are Gi linked?

Answer 16

M2, a2, D2

“MAD 2’s”

Question 17

Which receptors are Gq linked?

Answer 17

H1, a1, V1, M1, M3

“HAVe 1 M&M”

Question 18

Hemicholium (experimental rat drug):

MOA

Answer 18

inhib choline transporter

prevent choline uptake into cholinergic axon

Question 19

Vesamicol(experimental rat drug):

MOA

Answer 19

inhib vAchT
(prevent Ach transport into vesicle in cholinergic axon terminal)

Question 20

Botulium:

MOA

Answer 20

inhib SNAP-25

prevent Ach vesicle fusion for NT release

Question 21

Metyrosine:

MOA

Answer 21

inhib tyrosine hydroxylase

prevent tyrosine–>DOPA

Question 22

Reserpine (anti-pysch):
MOA
Important adverse

Answer 22

Inhib VMAT 
(prevent Dopamine transport into Noradrenergic vesicle)
* decrease BP b/c prevents NE storage-->loose a1 vasoconstriction

Question 23

Bretylium & Guanethidine (never used):

MOA

Answer 23

inhib Noradrenergic vesicle fusion at synapse –> inhib NT release

Question 24

Amphetamine & ephedrine:

MOA

Answer 24

increase fusion of vesicles at Noradrenergic synapse–> increase release of all Monoamines

• Amphetamines use NET to enter presynaptic terminal, and use the VMAT to enter vesicle. This displaces NE from vesicle. Once NE reaches threshold concentration w/in terminal–>reverse NET and NE is expelled into Synaptic Cleft contributing to increased NE observed

Question 25

Cocaine & TCAs & Amphetamine:

MOA

Answer 25

inhib reuptake transporter & inhib DA transporter

–>many monoamine’s reuptake inhibited–> Feel great and jacked up

Question 26

ACEi effect on adrenergic-R in axon

Answer 26

inhib AT-II binding to “Release-modulating receptors”

–>prevent release of monoamines

Question 27

Precursor to Tyramine (enzyme for conversion)
Enzyme which degrades Tyramine
Foods which contain Tyramine

Answer 27

• Tyrosine–>tyramine via tyrosine decarboxylase
• degraded by MAO
• Cheese and Wine

Question 28

Describe D-D Tyramine & MAOi interaction

Answer 28

1. Excess tyramine enters presynaptic vesicles and displaces other NTs
2. increase active presynaptic NTs
3. increase NT diffusion in cleft
4. increase sympathetic stimulation
5. –>HYPERTENSIVE CRISIS

Question 29

Buproprion:
MOA
Use (2)
Adverse(4)
Sexual effect?

Answer 29

-increase Ne/DA via unknown MOA
Uses: 1. depression 2. smoking cessation

1. Tachycardia
2. insomnia
3. HA
4. seizures in ANOREXICS
   * NO SEXUAL SIDE EFFECTS

Question 30

Describe the C. botulinum toxin:
type of toxin 
MOA
site of action
Where do adults get toxin
Where do babies get toxin
Antidote

Answer 30

-heat-labile toxin (protease) cleaves SNARE
-Toxin inhib Ach release at NMJ–>Flaccid paralysis
-Adults= inject preformed toxin
-Babies= ingest Honey spores–>Floppy Baby
Tx: Anti-toxin

Question 31

Can Dopamine cross BBB?

Can L-DOPA cross BBB?

Answer 31

No

Yes

Question 32

Direct Cholinergic agonists:

Name (4)

Answer 32

1. BethaneCHOL
2. CarboCHOL
3. MethaCHOLine
4. Pilocarpine

Question 33

Bethanechol:
Action
Effects 
Use (3)
ACHE effect

Answer 33

“Bethany, call me to activate bowels and bladder”

1. Post-op ileum
2. neurogenic ileus (common in DM)
3. urinary retention
   - resistant to AchE

Question 34

Carbachol:
Description
Use (1)

Answer 34

CARBon copy of AcetylCHOLine

1. open-angle glaucoma (constricts pupil and relieves IOP)

Question 35

Methacholine:
MOA
Use (1)

Answer 35

Stimulates mAchR in airways when inhaled

1. Asthma challenge test (measure FEV1 and FVC)

Question 36

Pilocarpine:
MOA
ACHE effect
Use(4)

Answer 36

• Contract CiliaryM. and pupillary Sphincter
• resistant to AchE
  1. stim Sweat, tears, & saliva
  2. Open angle glaucoma (ciliary m.)
  3. Closed angle glaucoma (sphincter m.)
  4. Sjogrens (xerostomia)

“you cry, drool, and sweat on your PILOw”

Question 37

another term for anti cholinesterase

overall effect

Answer 37

• indirect agonists

- increase Ach

Question 38

3 anticholinesterases used to treat Alzheimers

Answer 38

1. Donepezil
2. Galantamine
3. Rivastigmine

Question 39

Edrophonium:
Use
Half-life

Answer 39

Diagnosis Myesthenia Gravis historically
(now diagnosed by anti-ache Ab test)
very short acting

Question 40

Neostigmine:
Use(3)
CNS penetration

Answer 40

1. post-op/neurogenic ileum & urinary retention (like bethanachol
2. Myasthenia gravis
3. Reversal of NMJ blockade (post-op)

No CNS penetration (quaternary amine) “Neo CNS”

Question 41

Physostigmine:
Use
CNS penetration

Answer 41

“PHYsostigmine ‘PHYxes’ atropine overdose
1. Anticholinergic toxicity

CNS penetration (tertiary amine)

Question 42

Pyridostigmine:
Use
CNS penetration
Half-life

Answer 42

“PyRIDostiGMine gets RID of Myasthenia Gravis”
1. Myasthenia gravis (increase muscle strength)

No CNS penetration (quaternary amine)
Long-acting

Question 43

2 drugs used to treat Myasthenia Gravis

Answer 43

1. NEOstiGMine
2. PyRIDostiGMine
   (neither cross BBB)

Question 44

2 Contra/Caution for all cholinomimetic agents (both direct and indirect agonists)

Answer 44

1. COPD/Asthma exacerbation

2. Peptic Ulcers (in susceptible patients)

Question 45

Symptoms of Cholinesterase inhibitor poisoning

Who is the typical patient on Boards? Typical cause?

Answer 45

Farmer with organophosphate poisoning like parathion
"DUMBBELSS"
Diarrhea/N
Urination
Miosis
Bronchospasm
Bradycardia
Excitation of Sk.Muscle/CNS
Lacrimation
Sweat
Salivation
-->Respiratory failure if untreated

Question 46

Antidote for cholinesterase inhibitor poisioning (2)

Answer 46

1. atropine (competitive inhib)

2. pralidoxime (regenerates AchE if given early)

Question 47

3 drugs which produce Mydriasis and Cycloplegia

Answer 47

1. atropine
2. homatropine
3. tropicamide

Question 48

Muscarinic antagonist to treat

Parkinson’s/ Acute dystonia

Answer 48

Benztropine

“park my Benz”

Question 49

2 uses for Glycopyrrolate

Answer 49

“‘GI’copyR(resp)rolate”

parenteral: pre-op reduction of airway secretions
oral: drooling and peptic ulcers

No cross BBB

Question 50

2 muscarinic antagonists to treat Irritable bowel Synd

Answer 50

1. Hyoscyamine

2. Dicyclomine

Question 51

2 muscarinic antagonists to treat COPD/Asthma

Answer 51

1. Ipratropium
2. tiotropium

“TIO PRAys to breath”

Question 52

4 drugs to treat Overactive bladder/urge incontinence

Answer 52

” On the Darn Toilet, Sorry”

1. Oxybutynin
2. Trospium
3. Darifenacin
4. Tolterodine
5. Solifenacin

Question 53

Drug to treat motion sickness

Answer 53

Scopolamine

Question 54

Atropine Effects:
Eye
Airway
Stomach
Gut
Bladder

Answer 54

dilate/cycloplegia
decrease secretions in airway
decrease stomach acid secretions
decrease GI motility
decrease urgency in cystitis

Question 55

Atropine:
Use
Adverse

Answer 55

Blocks DUMBBeLSS in cholinesterase inhib poisoning. DOES NOT BLOCK ‘E-EXCITATION OF SK.MUSCLE/CNS WHICH AR MEDIATED BY nACH-R

1. Hot as a hare (M3)
2. Dry as a bone (M3)
3. Red as a beet (M3)
4. Blind as a bat (M3)
5. Mad as a hatter (M1 in CNS

Question 56

Atropine:

CONTRA (3)

Answer 56

1. Elderly (can cause Closed angle glaucoma via mydriasis)
2. Men with BPH (urinary retention)
3. infants (hyperthermia)

Question 57

Effect of Jimson weed (Datura)

Chemicals causing effect (2)

Answer 57

Gardener’s pupil
MYDRIASIS due to plant alkaloids (ENLARGED FROM SPHINCTER PARALYSIS)

1. scopolamine
2. atropine

Question 58

Albuterol/ Salmeterol:
Receptor target
Use

Answer 58

B2>B1 (COPD/Asthma)
Albuterol (SABA)
Slmeterol (LABA)

Question 59

Dobutamine:
Receptor target
Use (2)

Answer 59

B1>B2, a

1. HF (inotropic>chronotropic)
2. cardiac stress testing

Question 60

Dopamine:
Receptor target
Use (3)
Dose dependent actions

Answer 60

D1=D2>B>a

1. unstable bradycardia
2. HF
3. shock

Low dose (Beta)-->inotropic and chronotropic effects
High dose (alpha)-->vasoconstriction

Question 61

Epinephrine:
Receptor target
Use(3)
Dose dependent actions

Answer 61

B2/B1>a (methyl group addition from Ne–>Epi)

1. Anaphylaxis
2. Asthma
3. Open-angle glaucoma

High dose–>alpha effect predominate

Question 62

Fenoldopam:
Receptor target
Use(4)
Potential adverse(2)

Answer 62

D1 (“FenolDOPAM”)

1. post-op hypertension
2. hyeprtensive crisis
3. vasodiltor (coronary, peripheral, renal, and splanchnic)
4. promote naturesis

Potentially cause hypotension and tachycardia

Question 63

Isoproterenol:
Receptor target
Use
potential adverse

Answer 63

B1=B2
1. electrophysiologic eval of tachyarrhythmias

potentially can worsen ischemia

Question 64

Midodrine:
Receptor target
Use(2)
potential adverse

Answer 64

a1

1. autonomic insuff.
2. postural hypotension

potentially exacerbate spine hypertension

Question 65

Norepinephrine:
Receptor target
Use(2)

Answer 65

a1»a2>B1

1. hypotension
2. septic shock

Question 66

Phenylephrine:
Receptor target
Use(3)

Answer 66

a1>a2

1. hypotension (vasoconstriction)
2. ocular procedures (mydriatic)
3. rhinitis (decongestant)

Question 67

Amphetamine:
MOA(3)
Use (3)

Answer 67

Indirect general agonist, reuptake inhib, release stored catecholamines

1. Narcolepsy
2. obesity
3. ADHD

Question 68

Cocaine:
MOA (2)
Use(1)

Answer 68

Indirect general agonist, reuptake inhib

1. vasoconstrictor/ local anesthetic for Rhinoplasty

Question 69

Cocaine:
What should never be given if cocaine intoxication is suspected?
Why?

Answer 69

BB

–>can lead to unopposed a1 activation–>extreme HTN

Question 70

Ephedrine:
MOA(2)
Use (3)

Answer 70

indirect general agonist, releases stored catecholamines

1. Nasal decongestion
2. Urinary incontinence
3. Hypotension

Question 71

Which dopamine receptor is generally in PNS?
CNS?

**exceptions to this rule do exist

Answer 71

PNS–> D1 (perpheral, coronary, renal, splanchnic circulations for widespread vasodilation)

CNS–>D2

Question 72

Low dose DA stimulates?

High dose DA stimulates?

Answer 72

low= D1 (vasodilation)
high= a1(vasoconstriction)

Question 73

Clonidine/ Guanfacine:
MOA
Use(3)
Adverse (5)

Answer 73

a2-agonist (Gi)
Use: 1. hypertensive urgency 2. ADHD 3. Tourette

Adverse:

1. CNS depression
2. Bradycardia
3. Hypotension
4. Resp depression
5. Miosis

Question 74

alpha-methyldopa:
MOA
Use (1)
Adverse (2)

Answer 74

a2-agonist (Gi)
Use: HTN in pregnancy

Adverse:

1. Direct Coombs (autoimmune hemolytic anemia)
2. SLE-like syndrome (check anti-histone) (“Lupus is SHIPP-E, but not included)

Question 75

Effects of a2 stimulation

Answer 75

Sympatholytic:

1. decrease SNS
2. decrease insulin release
3. decrease lipolysis
4. decrease aqueous humor prod. in eye
5. increase platelet aggregation

Question 76

Nonselective a-blockers:
Name (2)
which is reversible vs. irreversible?
Shared adverse (2)

Answer 76

1. Phenoxybenzamine- irreversible
2. Phentolamine- reversible
   “PhenTOLamine is TOLtally reversible”
3. Orthostatic Hypotension
4. Reflex tachycardia (via baroreceptors)

Question 77

Phenozybenzamine:
MOA
Use(1)

Answer 77

nonselective, irreversible a-blocker

1. Pheochromocytoma (pre-op) to prevent Hypertensive crisis
   * classic question on boards!!!

Question 78

Phentolamine:
MOA
Use(1)

Answer 78

nonselective, reversible a-blocker
“PhenTOLamine is TOLtally reversible”

1. Give to patient on MAOi’s who eats tyramine containing foods (prevent hypertensive crisis)
   * classic question on boards!!!

Question 79

Prazosin
Terazosin
Doxazosin
Tamsulosin:
MOA
Use (3)
Adverse(3)

Answer 79

a1 selective blockers (all end in ‘-osin’)

1. BPH urinary symptoms
2. PTSD (‘P’razosin)
3. HTN (except tamsulosin

Adverse: 1. 1st dose orthostatic hypotension 2. Dizzy/HA

Question 80

Mirtazapine:
MOA
Use (1) & How
Adverse (3)

Answer 80

a2 selective blocker

Treat Depression
(no (-)feedback–> increase 5-HT/NE/DA release)

1. sedation
2. increase cholesterol
3. increase appetite

Question 81

BBs:

Name (12)–>”-olol”

Answer 81

1. Acebutolol (partial agonist)
2. Atenolol
3. Betaxolol
4. Carvedilol
5. Esmolol
6. Labetalol
7. Metoprolol
8. Nadolol
9. Nebivolol
10. Pindolol (partial agonist)
11. Propranolol
12. Timolol

• A-M= B1 selective
• N-Z= B2 selective
• Nonselective a and B antagonists have modified suffixes: CarvedILOL & LabetALOL

Question 82

BB effects on:
Angina Pectoralis
MI
HTN

Answer 82

Angina: decrease HR–>decrease O2 consumption
MI: decrease mortality
HTN: decrease CO & decrease Renin secretion via block of JGA cells (B1-R)

Question 83

BB:
2 drugs to treat SVT:
MOA

(supraventricular tachycardia)

Answer 83

Class II antiarrhythmics:

1. metoprolol
2. Esmolol

decrease AV conduction velocity

Question 84

BB:

3 drugs to treat Heart Failure

Answer 84

1. Bisoprolol
2. Carvediol
3. Metoprolol

decrease mortalilty

Question 85

BB:
1 drug to treat glaucoma
MOA

Answer 85

Timolol (‘Timmy can BBarely see’)

decrease secretion of aqueous humor (B2=ciliary process)

Question 86

BB:
2 drugs for variceal bleeding
MOA(2)

Answer 86

1. Nadolol
2. Propranolol

decrease hepatic venous pressure gradient
decrease portal hypertension

Question 87

BB:

Adverse(4)

Answer 87

1. Erectile dysfunction (not really true though)
2. CV- bradycardia, AV block, HF
3. CNS- seizures, sedation, sleep alterations
4. dyslipidemia (metoprolol
5. asthma/COPD exacerbations (Never use nonselective BB in these pts)

Question 88

BB:
2 Contraindications
Can diabetics use BB

Answer 88

1. Cocaine use: risk of unopposed a-adrenergic agonist activity
2. COPD/Asthma (nonselective BBs contra)

Despite theoretical concern of masking hypoglycemia in DM, benefits likely outweigh risks (NOT A CONTRA)

Question 89

BB:

2 drugs which are partial agonists

Answer 89

1. acebutolol(B1 selective antagonist) (partial agonist)

2. pindolol (B2 selective antagonist) (partial agonist)

Question 90

BB–>Nebivolol:

MOA/Receptors involved

Answer 90

combines B1-block with B3-R stim –>increase NO release–>Sm. Muscle relaxes–> decrease TPR/Afterload

Question 91

Importance of B1 selective blocking?

Answer 91

cardio selective

decrease HR/contractility/CO/MVO2

Question 92

3 important varicies

2 BB drugs to treat vatical bleeding

Answer 92

1. esophageal–> 30% chance of killing patient
2. umbilical
3. rectal

Tx: Propranolol, Nadolol

Question 93

3 Ingested Seafood toxins

Answer 93

1. tetrodotoxin
2. ciguatoxin
3. Histamine from scombroid poisoning

Question 94

Tetrodotoxin:
geographic / source
Action
Symp (4)
Treatment

Answer 94

• Japan/ pufferfish
• highly potent, binds fast VGNa Channels in Cardiac/Nerve–>prevent depolarization
• 1. N/D 2. Paresthesias 3 Dizzy 4. Weakness/Loss of Reflexes

Treat: supportive

Question 95

Ciguatoxin:
geographic
source(3)
Action
Symp 
Treatment

Answer 95

• 20% foodborne toxin in USA
• barracuda, snapper, moray eel
• Opens Na+ channels–>depol in all memb
• Symp: mimic Cholinergic poisoning (N/V/D/abd. pain after fish)

Treat: supportive

Question 96

Scamboid Poisoning: 
Source(4)
Action
Symp/ Misdiagnosis
Treatment

Answer 96

• Spoiled dark-meat fish (tuna, mahi-mahi, mackerel, bonito)
• histadine–>histamine via Bacterial histidine decarboxylase
  -symp mimic Anaphylaxis (misdiagnosed as fish allergy)
  (burning of mouth, flushing, erythema, urticaria, itching–>broncospasms/angioedema/hypotension

Treat: 1. Anti-histamines 2. Albuterol/Epi if needed