Pharm - Kaplan

Question 1

Anti-GAD (glutamic acid decarboxylase deficiency)

Treatment?

Answer 1

DM type 1

Insulin

Question 2

Enoxaparin…MoA?

Use?

Answer 2

Binds AT3, inhibits thrombin and factor Xa

DVT (treatment and prophylaxis)

Question 3

HLA-DR3, DR4, DR3/4

Answer 3

Type 1 DM (anti-GAD antibodies)

Question 4

HLA-DR5

Treatment?

Answer 4

Hashimoto’s thyroiditis

Levothyroxine

Question 5

Functions of angiotensin 2

Thus, functions of ACEIs/ARBs

Answer 5

• Stimulate aldosterone (increase Na/H2O retention)
• Vasoconstrict (increase TPR)

Diuresis, vasodilation

Question 6

Drugs causing oxidative stress, thus affecting G6PD

What does this mean?

Answer 6

TMP-SMX
Nitrofurantoin
Fluoroquinolones
Isoniazid
Dapsone
Primaquine
Quinine

Meaning = buildup of H2O2

Question 7

Inhibitor of ergosterol synthesis via squalene epoxidase

Use?

Answer 7

Terbinafine

Dermatophytes – esp. tinea corporis

Question 8

Inhibitor of beta glucan synthesis

Use?

Answer 8

Echinocandins (Caspofungin)

Invasive or resistant oral candidiasis

Question 9

Anti-fungal w/ mitotic spindle function inhibition

Use?

Answer 9

Griseofulvin

Dermatophytes (oral)

Question 10

How to remember which organs have which muscarinic receptors?

Answer 10

Most important organ (M1) = Brain
2nd most important (M2) = Heart
EVERYTHING ELSE = M3 (except glands - M1)

Question 11

Anti-fungal that inhibits thymidylate synthetase

Use?

Answer 11

Flucytosine

Cryptococcus (but NOT in HIV – BM suppression)

Question 12

Inhibitor of egosterol synthesis via lanosterol 14-alpha-demethylase

Use?

Answer 12

-azoles (antifungal)

Question 13

Anti-fungal that binds to egosterol

Answer 13

Amphotericin B

Question 14

A patient is treated for a UTI while taking an antacid. The UTI continues to get worse. What drug class was given?

Why did it get worse?

Answer 14

Fluoroquinolones

Iron and calcium inhibit the absorption of fluoroquinolones

Question 15

Drugs for heart failure that improve mortality

Why?

Answer 15

ACEI’s, ARBs, Aldosterone antagonists, Beta blockers

Ang 2 is involved in heart remodeling during CHF

Question 16

Prevention of uric acid crystals in tumor lysis syndrome

Answer 16

Allopurinol

Question 17

A man taking a drug for depression starts having sweating, tachycardia, and headache after eating pizza. Explain.

Answer 17

Taking a MAO + eating tyramine foods (cheese, beer, wine) –> tyramine displaces NE from nerves and blocks its metabolism –> SYMPATHETIC CRISIS

Question 18

Side effects of TCAs

Answer 18

3 C’s: Coma, Cardiotoxicity, Convulsions

Question 19

Activation of PPAR-alpha

Side effect?

Answer 19

Fibrates (Gemfibrozil, Fenofibrate, Clofibrate)

Gallstones (increases cholesterol in bile)

Question 20

Bile acid sequestrants

Side effect?

Answer 20

Cholestyramine, Colestipol

Constipation

Question 21

Flushing, hyperglycemia, hyperuricemia…drug?

Answer 21

Niacin

Question 22

Rhabdomyolysis…drug?

Answer 22

Statin

Question 23

PPAR-gamma activators

Functions?

Side effects?

Contraindication?

Answer 23

Thiazolidinediones (-glitazone)

Increase insulin sensitivity, decrease gluconeogenesis
Decrease TGs, increase HDL, decrease CRP, decrease Glc

Hepatotoxicity, heart failure

Class 3-4 Heart Failure

Question 24

A patient is given fentayl and midazolam for anesthesia. What is the best combo of drugs to fight the respiratory depression in this patient?

Answer 24

Naloxone (for the fentanyl) + Flumazenil (for the benzo)

Question 25

Alkylating agent that attacks guanine N7

Side effect to note

Treatment? MoA?

Answer 25

Cyclophosphamide

Hemorrhagic cystitis

Mesna (traps acrolein in bladder)

Question 26

Alkylating agent that cross-links DNA strands

Side effects

Treatment for the one?

Answer 26

Cisplatin

Nephrotoxic, Neurotoxic (deafness)

Amifostene (for nephrotoxicity)

Question 27

Alkylating agent used in Hodgkin’s lymphoma

Answer 27

Procarbazine

Question 28

Intercalating agent that causes DNA strand breakage

Side effect?

Treatment? MoA?

Answer 28

Anthracyclines (Doxorubicin)

Delayed CHF

Dexrazoxane - Prevents formation of free radicals

Question 29

Treatment of methotrexate BMS? MoA?

Answer 29

Leukovorin - Folinic acid rescue

Question 30

Pyrimidine antimetabolite that inhibits thymidylate synthetase (2)

Answer 30

5-FU, Capecitabine

Question 31

Purine antimetabolite activated by HGPR transferase

Answer 31

6-mercaptopurine

Question 32

Complexes with Fe and O2 to cause DNA strand scission

What cell cycle phase?

Side effects?

Answer 32

Bleomycin

G2

Pulmonary fibrosis, pneumonitis

Question 33

Inhibitor of microtubule polymerization (2)

Side effect to note?

Answer 33

Vincristine, Vinblastine

Neurotoxicity

Question 34

How to remember how beta blockers work?

Answer 34

A-M = beta-1 selective (EXCEPT C and L)
N-Z = beta non-selective

**Carvedilol and Labetolol = beta-1, beta-2, and alpha-1

Question 35

What do beta blockers do to blood pressure?

Answer 35

DECREASE it (prevents glycogenolysis by skeletal muscle and liver)

Question 36

Dopamine…

• Low dose?
• Medium dose?
• High dose?

Answer 36

Low = D1 (renal artery dilation)
Medium = Beta-1 (heart)
High = alpha-1 (vessels, etc.)

Question 37

Which are more sensitive to stimulation: alpha or beta?

Answer 37

BETA (beta response predominant at low dose, alpha response predominant at high dose)

Question 38

Phenylephrine…MoA

Answer 38

Alpha-1 agonist

Question 39

How to remember the alpha-2 agonist drugs?

Answer 39

A = MC^2

A = alpha
^2 = alpha-2
M = methyldopa
C = clonidine

Question 40

Beta-1 selective agonist

Beta-2 selective agonists (3)

Answer 40

Dobutamine

Salmeterol, albuterol, terbutaline

Question 41

In a sympathetic BP/HR tracing, an increase in BP = ?

An increase in pulse pressure = ?

Bradycardia?

Answer 41

Alpha-1

Beta-1

Reflex

Question 42

Epinephrine…

• Low dose
• Medium dose
• High dose

Answer 42

Low = beta-1 and beta-2 (like isoproterenol)
Medium = beta-1 only (alpha-1 and beta-2 cancel out)
High = alpha-1, beta-1, beta-2 (looks like norepinephrine)

Question 43

Differentiating NE vs. High Dose Epinephrine

Answer 43

Give alpha-1 blocker…

• NE – BP goes back to normal
• Epi – BP drops below normal (beta-2 effect)

Question 44

Selegiline…MoA

Use?

Can you get tyramine hypertension w/ this?

Answer 44

Inhibition of MAO type B (brain – blocks dopamine metab.)

Parkinson’s

NO – tyramine is metabolized by MAO-A only

Question 45

A patient has Horner’s syndrome. What is the difference between putting cocaine in the eye, vs. putting amphetamine in the eye?

Answer 45

Cocaine – prevents re-uptake – will work if NE is already being released

Amphetamine – promotes release – will work as long as that last nerve in the pathway is in tact

Question 46

Phenoxybenzamine vs. Phentolamine

Answer 46

Phentolamine = competitive alpha antagonist
Phenoxybenzamine = non-competitive alpha antagonist

Question 47

Alpha-1 selective antagonists

Use?

How is tamsulosin different than the rest?
Benefit of it?

Answer 47

Prazosin, Terazosin, Tamsulosin, etc.

BPH, other things

No Z in the name = alpha-1A selective = prostate (BPH)
Does NOT affect the BP like the others do

Question 48

Alpha-2 selective antagonist

Use?

Answer 48

Mirtazepine

Antidepression

Question 49

Treatment for pheochromocytoma

Answer 49

Phenoxybenzamine (BOTH HAVE 16 LETTERS)

Question 50

When is blocking beta-2 beneficial?

Answer 50

Glaucoma (reduced aqueous humor production)

Question 51

Side effect of beta blockers

Answer 51

Dyslipidemias

Question 52

Beta blockers with partial agonist activity (ISA)

Answer 52

Acebutolol, Pindolol

Question 53

Most and least sedating beta blockers

Answer 53

Most = propranolol
Least = atenolol

Question 54

Sotalol…MoA

Answer 54

Beta-blocker + K+ channel blocker

Question 55

Being treated for asthma, develops tremor, tachycardia, and seizure…possible cause?

MoA?

Answer 55

Theophylline toxicity

Phosphodiesterase inhibitor

Question 56

Alpha-1 agonist vs. muscarinic antagonist…which one can cause cycloplegia?

Why?

Answer 56

Muscarinic antagonist

Accommodation = M3 on ciliary muscle = PARASYMP ONLY

Question 57

Open-angle glaucoma…treatments of choice?

Is this a slow or fast onset of disease?

Answer 57

• *Latanoprost (PG analog – increases outflow)
• *Beta-blockers (Timolol) (inhibit production)

Slow

Question 58

Closed-angle glaucoma…treatments of choice?

Is this a slow or fast onset of disease?

Answer 58

**Acetazolamide (decreases production)
Mannitol (increases drainage)
Pilocarpine (increases drainage)

Fast

Question 59

Pupil constriction
Airway constriction
BV dilation

Answer 59

Muscarinic agonism (ex. Pilocarpine)

Question 60

Mecamylamine

Answer 60

Ganglion blocker

Question 61

Major drugs with a side effect of hyperuricemia (3)

Why?

Answer 61

Aspirin, loop diuretics, thiazide diuretics

Compete for weak acid secretion at the PCT w/ urate

Question 62

Potassium sparing diuretics

Answer 62

Amiloride, Triamterene

Question 63

Aldosterone receptor antagonists

Answer 63

Spironolactone, eplerenone

Question 64

Renal side effect of Lithium

How?

Treatment? Why?

Answer 64

Nephrogenic diabetes insipidus

Enters principal cells via NAC, then block V2 receptors

Amiloride - blocks uptake through NAC

Question 65

Spironolactone vs. Eplerenone - side effects

Answer 65

Spironolactone - hirsutism/gynecomastia (AR agonist)

Eplerenone - no androgen side effects

Question 66

Patient with tinnitus or fullness sensation in ear. Recently started being treated for heart failure. Drug class?

Drugs that increase this risk?

Answer 66

Loop diuretics

Aminoglycosides

Question 67

Calcineurin inhibitor

How does it work?

Side effects?

Answer 67

Cyclosporin

Binds cyclophilin and inhibits IL-1 and IL-2 production and T-cell activation

Nephrotoxicity, severe hypertension, gingival hyperplasia, hyperlipidemia, hyperglycemia

Question 68

Ulcerative stomatitis side effect…cancer drug?

Answer 68

Methotrexate

Question 69

Nephrogenic DI…drug of choice?

Explain

Answer 69

Thiazides

Decrease Na+ levels in the blood –> compensatory increase in reabsorption in the proximal tubular –> water follows

Question 70

Function of thiazides on vessels and insulin

Answer 70

**Hyperpolarize SM –> vasodilation (long term)

Hyperpolarize beta cells –> decreased insulin

Question 71

MoA…

• Flutamide
• Leuprolide
• Octreotide
• Finasteride

Answer 71

Flutamide = androgen receptor competitive antagonist

Leuprolide = GnRH analog

Octreotide = somatostatin analog

Finasteride = 5-alpha reductase inhibitor (BPH)

Question 72

Why do thiazides cause hyperglycemia (part of hyperGLUC)?

Can loop diuretics do this?

Answer 72

Hypokalemia –> decreased insulin secretion –> increased blood glucose

Yes, but not as much

Question 73

Aliskiren..MoA

Answer 73

Renin antagonist

Question 74

6-mercaptopurine…activated into what?

2 enzymes needed for metabolism of these drugs?

So?

What is contraindicated in these patients?

Answer 74

Azathioprine

HGPRT, X.O.

Must reduce dose if taking allopurinol or febuxostat

Live virus vaccines (b/c decreased T-cell immunity)

Question 75

Binds to 30S ribosome and inhibits binding of aminoacyl-tRNA

Uses?

Answer 75

Tetracyclines

Cholera, lyme disease, acne, Rickettsia, others…

Question 76

Prevention of initiation complex, causing mRNA misreading and inhibiting protein synthesis

Side effects?

Answer 76

Aminoglycosides

Nephrotoxic, ototoxic, teratogen

Question 77

Inhibition of DNA gyrase (topoisomerase 2), preventing negative supercoils

Side effects?

Answer 77

Fluoroquinolones

Tendon rupture, arthropathy, phototoxic, CNS stimulation

Question 78

When are ACEI’s and ARB’s BAD for the kidney?

Answer 78

Renal artery stenosis –> decreased GFR –> renal failure

Question 79

Calcium channel blockers…how to remember?

How to remember where these work?

Answer 79

“VD Dipines” – Verapamil, Diltiazem, Amlodipine

In order of HEART –> VESSELS

• Verapamil = most cardiac
• Dipines = most vascular

Question 80

Gingival hyperplasia…drugs?

Answer 80

• Cyclosporin
• Phenytoin
• Dipines (CCBs)

Question 81

Functions of alpha-1 antagonists (-zosin)

Answer 81

• Arteriolar dilation

- VENOUS dilation

Question 82

Side effects of alpha-1 blockers (3)

Answer 82

• First dose syncope
• Orthostatic hypotension (bc of VENOUS dilation)
• Urinary incontinence

Question 83

Function of alpha-2 agonists

Uses? (3)

Answer 83

DECREASE sympathetic outflow (POWERFUL)

• HTN
• Opiate withdrawal (clonidine)
• HTN management in pregnancy (methyldopa)

Question 84

Side effect of methyldopa

Answer 84

Hemolytic anemia (positive Coombs test)

Question 85

Function of Hydralazine

MoA?

Side effect?

Answer 85

ARTERIOLAR dilation ONLY

Via N.O.

Drug-induced SLE

Question 86

Functions of Nitroprusside

MoA?

Use?

Side effect?

Answer 86

Arteriolar AND venule dilation

Via N.O.

HTN emergencies

Cyanide poisoning

Question 87

Minoxidil, Diazoxide

Answer 87

K+ Channel agonists –> ARTERIAL dilation ONLY

Question 88

Side effects of minoxidil and diazoxide (useful ones)

Answer 88

• Hypertrichosis (minoxidil – used for baldness)

- Hyperglycemia (diazoxide – used for insulinoma)

Question 89

Angina + HTN…drugs to use?

Answer 89

Beta blockers, CCBs

Question 90

Diabetes + HTN…drugs to use?

Answer 90

ACEIs, ARBs

Question 91

HF + HTN…drugs to use?

Answer 91

ACEIs, ARBs, Beta blockers

Question 92

Post-MI + HTN…drugs to use?

Answer 92

Beta blockers

Question 93

BPH + HTN…drugs to use?

Answer 93

Alpha blockers

Question 94

**HTN drugs contraindicated in dyslipidemias

Answer 94

Beta blockers, thiazides (both raise lipid levels)

Question 95

Treatment mechanism for pulmonary hypertension

Drugs and mechanisms? (3)

Answer 95

Vasodilation

• Bosentan (endothelin blocker)
• Epoprostenol (PGI2)
• **Sildenafil (PDE-5 inhibitor)

Question 96

5 strategies to treating heart failure

Answer 96

• Decrease sympathetics (control it)
• Decrease afterload (ACEIs, ARBs, arterial dilators)
• Decrease preload (diuretics, ACEIs, ARBs, venodilators)
• Increase contractility (Digoxin, beta agonists)
• **Stopping cardiac remodeling (ACEI’s, ARBs, Spironolactone, beta blockers)

Question 97

How to substitute if you can’t take ACEIs/ARBs?

Answer 97

Hydralazine (arteriolar dilation) + Nitrate (venous dilation)

Question 98

MoAs of Metoclopramide

Contraindicated in who?
What else is contraindicated in these people? (3)

Answer 98

• Sensitizes tissues to acetylcholine (ex. GI smooth muscle)
• Blocks dopamine receptors (anti-emesis)

Mechanical GI obstruction
Senna (GI stimulants), CCBs (Verapamil), anticholinergics

Question 99

Function of dopamine and dobutamine on the heart?

Use?

Side effect?

Answer 99

Activates beta-1 receptors –> opening of Ca++ channel –> increase contractility

ACUTE heart failure ONLY

Tachyphylaxis (quick loss of response)

Question 100

What type of PDE functions in the heart?

Drugs that block that?

Answer 100

PDE type 3

Inamrinone, Milrinone

Question 101

2 functions of Digoxin
Benefits of each?

Side effects to note?

Answer 101

• DIRECT = increase heart contractility (CHF)
• INDIRECT = increase vagal output (SVTs)

Blurry yellow vision, halos around lights, bad arrhythmias

Question 102

Intermittent claudication…drug to use?

MoA?

Contraindication?

Answer 102

Cilostazol

PDE3 inhibitor

CHF – increased mortality

Question 103

Drugs that work on the ventricular action potential (MoAs)

Which parts of the EKG do they control?

Used for what types of arrhythmias?

Answer 103

Na+ channel blockers – prolong phase 0 – prolong QRS
K+ channel blockers – prolong phase 3 – prolong QT

For VENTRICULAR arrhythmias

Question 104

See “rhythm control” drugs…think what?

Answer 104

Ventricular control (Na+ or K+ channel blockers)

Question 105

Drugs that work on the SA/AV node action potential (MoAs)

Which part of the EKG do they control?

Used for what type of arrhythmias?

Answer 105

Calcium channel blockers – prolong phase 4
Beta blockers – prolong phase 4

PR interval

SVTs

Question 106

Function of carotid massage and valsalva on the heart

Answer 106

Increase vagal firing –> PSNS on the heart –> slow SVTs

Question 107

Polymorphic ventricular tachycardia…other name?

Caused by what?

Drugs that do this?

Answer 107

Torsades de pointes

Prolonging the QT

K+ channel blockers

Question 108

Quinidine…

• Class?
• Additional bad effects?

Side effects?

Answer 108

Class 1A – Na+ and K+ channel blockers

• Muscarinic block –> increased HR
• Alpha-1 block –> reflex tachycardia
• Displaces digoxin, increasing its toxicity
• Cinchonism (GI, **tinnitus, ocular issues, CNS excitation)
• Hypotension (alpha-1 block)
• Torsades (increased QT)

Question 109

MoAs of Class 1B antiarrhythmics

Do NOT cause what?

Classic drug?

Answer 109

• Block inactivated Na+ channels in hypoxic/ischemic tissue
• Block slow Na+ channels in phase 4, increasing recovery

NO TORSADES (unlike Class 1A)

Lidocaine

Question 110

Use for Lidocaine

Oral version?

Answer 110

V tach

Mexiletine

Question 111

MoA of Class 1C antiarrhythmics

Drug?

Use?

Contraindication?

Answer 111

Block fast Na+ channels in His-Purkinje tissues

Flecainide

A-fib – RHYTHM control (not rate)

Ventricular tachycardia

Question 112

Class 2 antiarrhythmics

Use?

Unique one?

Answer 112

Beta blockers

SVTs (prolong PR interval)

Esmolol - super short - used for ACUTE treatment only

Question 113

Class 3 antiarrhythmics

MoA?

Why do they prolong the effective refractory period?

Answer 113

K+ channel blockers

Prolong phase 3 repolarization –> prolong QT interval

Prevent voltage-gated Na+ channel re-opening b/c preventing repolarization

Question 114

Amiodarone - class?

MoA?

Use?

Side effects? (5)

Answer 114

Class 3 (K+ channel blockers)

Mimics ALL classes (Na, Ca, K, and beta blocker)

ALL ARRHYTHMIAS

Pulmonary fibrosis, hepatic necrosis, thyroid dysfunction, blue skin, corneal deposits

Question 115

Benefits of Dronedarone over Amiodarone

Answer 115

No iodine = no blue skin or thyroid problems

Question 116

Sotalol - class?

MoAs?

Side effect?

Answer 116

Class 3 (K+ channel blockers)

Beta blocker w/ K+ channel blocker too – slows phase 3 and HR and AV conduction

TORSADES (MOST likely)

Question 117

Class 4 – MoA

Results?

Drugs?

Use?

Answer 117

Ca++ channel blockers

Slow phase 0, phase 4, SA and AV nodal conduction

Verapamil, Diltiazem

SVTs

Question 118

Adenosine - MoA

Half life?

Use? What else can be tried first?

Answer 118

Activates adenosine receptors in SA/AV NODES – Gi causes K+ efflux and hyperpolarization

10 seconds

Paroxysmal SVTs – carotid sinus and valsalva first

Question 119

SVTs - drugs?

VTs - drugs?

Answer 119

Class 2, Class 4, Adenosine, Digoxin

Class 1, Class 3

Question 120

A. fib - treatments

Rhythm control?

Answer 120

• Rate control
• Anticoagulation

Flecainide (1C)

Question 121

Wolff-Parkinson-White…treatment idea?

Answer 121

Slow the fast muscle action potential (class 1)

Question 122

Treatments for stable angina

Answer 122

Nitrates - vasodilation (BUT reflex tachycardia)
**Beta blockers – slow heart, reduce oxygen demand rise
CCBs (VD) – slow heart, reduce oxygen demand rise

Question 123

Treatments for vasospastic angina

Answer 123

Nitrates - vasodilation

CCBs (DIPINES) - vasodilation

Question 124

Drugs used in stable angina NOT used in vasospastic

Answer 124

Beta blockers (don’t vasodilate, might vasoconstrict)

Question 125

Why do M3 receptors cause RELAXATION of vessels?

Answer 125

Coupled to N.O. synthase, which causes NO to go into the muscle, cause cGMP rise, causing muscle relaxation

Question 126

How to prophylax for attacks of stable angina?

MoA?

Answer 126

• Transdermal nitroglycerine
• Isosorbide nitrates

NO –> cGMP –> dephosphorylation of MLC (inactivation)

Question 127

How do PDE5 inhibitors work?

Why not take with nitrates?

Answer 127

Decrease inactivation of cGMP –> more dephosphorylation of MLCK –> more vascular relaxation

Nitrates work the SAME way

Question 128

Angina drug that is contraindicated in long QT

Answer 128

Ranolazine

Question 129

Why does cAMP cause SM relaxation?

Why does cGMP cause SM relaxation?

Why do CCBs cause SM relaxation?

Answer 129

PKA –> phosphorylated MLCK –> can’t activate MLC

PKG –> phosphatase –> dephosphorylate MLC –> inactive

No Ca+ –> no Ca-Calmodulin –> no MLCK activation