Exam 2

Question 1

Penicillin’s

• MOA
• SE
• Coverage

Answer 1

Bactericidal–interfere with cell wall synthesis
SE: hypersensitivity, GI distress, seizures, encephalopathy
Mostly G+ coverage
Some G- coverage

Question 2

Cephalosporins

• Method of action
• SE
• Coverage

Answer 2

Bactericidal–interfere with cell wall synthesis
SE: hypersensitivity, GI distress
As you progress from 1st to 4th generation, has more G- and less G+ coverage

Question 3

Aminopenicillins

• Method of action
• SE
• Coverage

Answer 3

Amoxicillin (oral) and ampicillin (IV)
Bactericidal-interfere with cell wall synthesis
Good for G+ but also can treat some G-
Good for sinusitis, OM, lyme disease, H. Pylori, listeria meningitis

Question 4

Monobactams

• Method of action
• SE
• Coverage

Answer 4

Aztreonam
Bactericidal–interfere with cell wall synthesis
SE: GI distress, usually no cross-sensitivity with penicillin or cephalosporin
Primarily against G-

Question 5

Carbapenems

• Method of action
• SE
• Coverage

Answer 5

Imipenem, meropenum, doripenum
most broad spectrum agents available
Bactericidal--interfere with cell wall synthesis 
SE: neurotoxicity, GI distress
G+ , G-,

Question 6

Fluoroquinolones

• Method of action
• SE
• Coverage

Answer 6

-Floxacin
Bactericidal–Inhibit DNA gyrase and topoisomerase IV
SE: GI distress, dizziness, confusion, tendon rupture, QT prolongation
G+ and G-

Question 7

Macrolides

• Method of action
• SE
• Coverage

Answer 7

Erythromycin, azithromycin, clarithromycin
Bacteriostatic–binds to 50S
SE: GI distress, hepatotoxicity, ototoxicity
May cause QT prolongation
DOC for atypical pneumonia/CAP and chlamydia
Broad spectrum: G+, G-, Atypical

Question 8

Aminoglycosides

• Method of action
• SE
• Coverage

Answer 8

entamicin, Neomycin, Streptomycin, Tobramycin
Bacteriostatic–binds to 30S
SE: Nephrotoxicity and ototoxicity
Mainly active against G-
Can combine with beta lactams for G+ coverage
Monitor renal function and levels

Question 9

Tetracyclines

• Method of action
• SE
• Coverage

Answer 9

Bacteriostatic–binds to 50S
SE: GI distress, gray-brown discoloration of the teeth, photosensitivity
Broad spectrum–G+, G-, atypical
Can be used for acne, walking pneumonia, chlamydial infections and PID, tick infections

Question 10

Sulfonamides

• Method of action
• SE
• Coverage

Answer 10

Bacteriostatic–inhibits folic acid
SE: GI distress, rash, fever, steven johnson syndrome and vasculitis
G+ and G- (except pseudomonas and GAS)

Question 11

Vancomycin

• Method of action
• SE
• Coverage

Answer 11

Bactericidal–inhibits d-alanyl-d-alanine portion of cell wall
SE: fever, chills, phlebitis, red man syndrome, nephrotoxicity
Active mostly against MRSA

Question 12

Oxazolidinones

• Method of action
• SE
• Coverage

Answer 12

Linezolid + Tedizolid
Oral tx for MRSA 
Bacteriostatic--bind to 50S 
se: GI distress, thrombocytopenia, leukopenia 
G+ only--MRSA, VRE

Question 13

Clindamycin

• Method of action
• SE
• Coverage

Answer 13

Bacteriostatic–binds to 50S
SE: diarrhea and C. DIff colitis
Active against G+ and G- anaerobic
Used for anaerobic respiratory infections, skin infections, PID

Question 14

Metronidazole

• Method of action
• SE
• Coverage

Answer 14

Bactericidal–inhibition of DNA protein synthesis
SE: GI distress, seizures, peripheral neuropathy
G- coverage only
DOC for abdomen and GU system (H Pylori, C. Diff, bacterial vaginosis, trich)

Question 15

Chloramphenicol

• Method of action
• SE
• Coverage

Answer 15

Variably bactericidal–binds to 50S
SE: Gray baby syndrome, optic neuritis, fatal aplastic anemia
Broad spectrum: G+, G-, anaerobic

Question 16

Rifampin

• Method of action
• SE
• Coverage

Answer 16

Variably bactericidal–inhibits DNA
SE: GI distress, headache, fever, discolors body fluids to orange
Mostly against G+ with some G- coverage
DOC for TB

Question 17

Nitrofurantoin

Answer 17

Variably bactericidal–interferes with cell wall synthesis
SE: N/V and pulmonary reactions, hepatotoxicity, peripheral neuropathy
Only used for uncomplicated UTI

Question 18

First line treatment for HSV-1

Answer 18

Topical acyclovir or penciclovir

Question 19

Second line treatment for HSV-1

Answer 19

Systemic acyclovir, famciclovir, valacyclovir

Question 20

First line treatment for VZV

Answer 20

Systemic antiviral if <72 hours from outbreak or patient is immunocompromised

Question 21

Treatment of warts

Answer 21

Salicyclic acid
Keratolytic peeling agent
CI in diabetes or impaired circulation

Question 22

Medications that may cause an increase in blood pressure

Answer 22

Oral contraceptives, nicotine, steroids, appetite suppressants, TCA’s, cyclosporine, NSAID’s, some nasal decongestants

Question 23

Diagnostic criteria for hypertension

Answer 23

> 150/90 in adults >60
140/90 in adults <60
Must have 3 readings at least 1 week apart

Question 24

When to initiate emergency BP treatment

Answer 24

If above 180 systolic

Question 25

3 factors associated with resistant hypertension

Answer 25

Obesity, impaired renal function, diabetes

Question 26

Hypertension in blacks

Answer 26

Occurs at an earlier age, more severe, results in organ damage more often

Question 27

Isolated or predominant systolic hypertension is secondary to

Answer 27

Aorta artery stiffening secondary to advancing age

Question 28

Main causes of secondary hypertension

Answer 28

CKD, renovascular hypertension, hypothyroidism, hyperparathyroidism, pheochromocytoma, sleep apnea, primary aldosteronism

Question 29

Stimulation of alpha 1

Answer 29

Vasoconstriction of arterioles and veins

Question 30

Stimulation of beta 2

Answer 30

Vaso dilation

Question 31

Stimulation of beta 1

Answer 31

Increase in HR and contractility

Question 32

What to avoid before BP readings

Answer 32

Smoking 30 minutes before and caffeine 1 hour before

Question 33

Goals of BP treatment

Answer 33

<140/90 for general population
<130/80 for people with co-morbidities
Follow up every month until BP is at goal and then every 3-6 months

Question 34

Tx for hypertension without compelling indications

Answer 34

Stage 1: thiazide diuretics for most; can consider ACEI, ARB, Beta blocker, calcium channel blocker
Stage 2: combination of drugs including a thiazide diuretic

Question 35

Tx for hypertension for diabetics

Answer 35

ACEI or ARB

Can combine with calcium channel blocker, thiazide diuretic or beta blocker

Question 36

Tx for hypertension for CKD

Answer 36

ACEI or ARB

Question 37

Tx for hypertension for CAD

Answer 37

ACEI or ARB

+ Beta blocker if recent MI or angina

Question 38

Tx for hypertension for heart failure

Answer 38

ACEI + beta blocker + loop diuretic

Question 39

Tx for hypertension for African American

Answer 39

Thiazide diuretic or calcium channel blocker or combination

Question 40

What to monitor with thiazide diuretics

Answer 40

Serum electrolytes, glucose, uric acid
Excessive fluid loss
Sexual dysfunction

Question 41

What to monitor with calcium channel blockers

Answer 41

Headache, dizziness, peripheral edema, drug interactions (grapefruit juice, clarithromycin, erythromycin)

Question 42

What to monitor with ACEI and ARBs

Answer 42

BUN, Cr, potassium

Question 43

Thiazide diuretics

• MOA
• SE
• CI

Answer 43

Hydrochlorothiazide
inhibit reabsorption of Na + Cl in distal tubules
Takes several days for effect
Causes potassium and bicarb excretion but decreased Ca excretion
Causes uric acid retention
CI: Allergy to sulfa, anuria
Preg Cat B
SE: hypokalemia, hypomagnesia, hypercalcemia, hyperuricemia, hyperglycemia, tinnitus, paresthesia, N/V, diarrhea, impotence, hyperlipidemia, anorexia

Question 44

Loop diuretics

• MOA
• SE
• CI

Answer 44

Bumetanide, furosemide, torsemide
Inhibits reabsorption of Na + Cl at proximal and distal tubules and loop of Henle
Indicated for edema d/t CHF, hepatic cirrhosis, renal disease
CI: anuric or severe electrolyte depletion and allergy to sulfa
Preg Cat C
SE: Hypocalcemia, hypokalemia, hypomagnesia
Reserved for patients with renal dysfunction over thiazide diuretics

Question 45

Potassium sparing diuretics

• MOA
• SE
• CI

Answer 45

Amiloride, Spirinolactone
Interfere with sodium reabsorption at distal tubule, decreasing K+ secretion
True benefit for HF patients
CI: severe renal impairment, K+>5, acute renal insufficiency, anuria, Addison’s disease
SE: gynecomastia, hyperkalemia, hyponatremia, hirsutism, menstrual irregularities, drowsiness, confusion, headache, rash

Question 46

First line diuretic for uncomplicated hypertension

Answer 46

Thiazide

Loop is second (especially if renal dysfunction)

Question 47

Treatment considerations of potassium sparing diuretics

Answer 47

Use in combination with thiazides to augment diuresis and blunt hypokalemic effects

Question 48

Beta Blockers MOA

Answer 48

Block central and peripheral beta receptors–results in decreased cardiac output and sympathetic outflow

Question 49

Selective beta blockers

Answer 49

A-M
Better for patients with asthma, COPD, and peripheral vascular disease
At higher doses, lose cardioselectivity and may aggravate bronchospasm

Question 50

Beta blockers with intrinsic sympathomimetic activity

Answer 50

Pindolol and Acebutolol
Reduce HR and contractility during excessive sympathetic outflow, but in resting states HR and contractility are maintained

Question 51

Beta blockers in CHF

Answer 51

Decreases mortality and decreases vascular remodeling

Discontinue if patient has acute decompensation

Question 52

Tapering of beta blockers

Answer 52

Taper gradually over 14 days when discontinuing to prevent withdrawal symptoms–unstable angina, MI, death

Question 53

Beta blockers are CI in

Answer 53

Sinus bradycardia, asthma, COPD, AV block, cardiac failure, Severe PVD

Question 54

Pregnancy category for beta blockers

Answer 54

Cat C

But best for lactation

Question 55

In diabetic patients, beta blockers

Answer 55

Can mask all symptoms of hypoglycemia with the exception of sweating

Question 56

ACE Inhibitors MOA

Answer 56

-pril
Inhibits ACE enzyme, which decreases production of angiotensin II (decreases vasoconstriction and decreases aldosterone effects of water retention)
Also inhibits degradation of bradykinin and increases synthesis of vasodilating prostaglandins

Question 57

ACEI CI in

Answer 57

Bilateral renal artery stenosis + pregnancy (cat d)

Question 58

SE ACEI

Answer 58

Chronic dry cough, rashes, dizziness, angioedema

Question 59

ACEI decreases mortality in patients with

Answer 59

CHF, post MI, and systolic dysfunction

Question 60

ARB’s MOA

Answer 60

-sartan

Block vasoconstriction and aldosterone secreting effects of angiotensin II by blocking angiotensin receptor

Question 61

ARBs indicated for

Answer 61

Hypertension, nephropathy in type 2 DM, heart failure, those who can not tolerate ACEI

Question 62

SE ARBs

Answer 62

Dizziness, upper respiratory tract infections, cough, viral infection, fatigue, pharyngitis, rhinitis

Question 63

Red flags with ACEI or ARB’s

Answer 63

Swelling, SOB, difficulty swallowing, hives, uritcaria, fainting, cloudy urine ,sore throat, abdominal pain, irregular HR, leg weakness, numbness and tingling, extreme nervousness

Question 64

Renin Inhibitors

Answer 64

Aliskiren
Blocks conversion of angiotensinogen to angiotensin I
CI in pregnancy (Cat X)
SE: diarrhea and rare angioedema

Question 65

Ca channel blockers MOA

Answer 65

Inhibits movement of Ca ions across the cell membrane, which causes cardiovascular relaxation and vasodilation
CI in pregnancy Cat C

Question 66

Non-dihydropyridine Ca Channel blockers

Answer 66

Verapamil + Diltiazem
Decrease HR + slow conduction at AV node
Avoid in patients with AV block and caution with heart failure
SE: GI upset, peripheral edema, hypotension

Question 67

Dihydropyridine Ca channel blockers

Answer 67

-dipine
Potent vasodilators
SE: headache, flushing, palpitations, peripheral edema, gingival hyperplasia (nifedipine)

Question 68

Recommended for use of ca channel blockers

Answer 68

Blacks, hypertension associated with ischemic heart disease, prinzmetal angina

Question 69

Special factors of nifedipine

Answer 69

Cause potent peripheral vasodilation–most likely to cause peripheral edema

Question 70

Special factors of amlodipine

Answer 70

Best for blacks, elderly, people with high cholesterol

Not likely to cause peripheral edema

Question 71

Peripheral alpha 1 blockers

Answer 71

-zosin
Effective in BPH and not usually prescribed for htn
Dilates arterioles and veins
CI in presence of cardiovascular disease
Relaxes smooth muscle in bladder neck + prostate
SE: first dose phenomenon, vivid dreams and depression

Question 72

Central alpha 2 agonists

Answer 72

Clonidine, methyldopa, guanabenz, guanfacine
Decreases release of NE
May cause fluid retention (can combine with diuretic)
Usually used in STAT management of htn
Do not abruptly stop
SE: fluid retention, sedation, dry mouth, dizziness, syncope

Question 73

Direct vasodilators

Answer 73

Hydralazine + Minoxidil
Arteriolar smooth muscle relaxation
Reserved for essential or severe hypertension
May cause fluid retention and reflex tachycardia (combine with beta blocker and diuretic)
SE: dermatitis, drug fever, peripheral neuropathy

Question 74

Direct vasodilators CI in

Answer 74

CAD, acute MI, aortic aneurysm

Question 75

Adrenergic antagonists

Answer 75

Resperine, guanethidine, guanadrel
Inhibits SANS by decreasing NE stores
May cause depression

Question 76

DOC for htn in pregnancy

Answer 76

Methyldopa

Question 77

Medications used in hypertensive emergency

Answer 77

Hydralazine
Nitrates 
Nicardipine + Clevidipine
Labetalol + Esmolol
Phentolamine
Enalapril

Question 78

Contributing factors to hyperlipidemia

Answer 78

Beta blockers, oral contraceptives, diabetes, pregnancy, diets high in fat and cholesterol, lack of exercise, obesity, smoking, hypertension, age

Question 79

Chylomicrons

Answer 79

largest lipoproteins, composed mainly of triglycerides

Produced in the guy from dietary fat and cholesterol

Question 80

VLDL

Answer 80

Composed of cholesterol and triglycerides

Converted to LDL when triglyceride content decreases

Question 81

LDL

Answer 81

Contains mostly cholesterol

50% taken up by the liver and 50% taken up by the peripheral cells

Question 82

Primary symptom of atherosclerosis

Answer 82

Angina–due to compromised blood flow

Question 83

4 major statin benefit groups

Answer 83

1. Have clinical atherosclerotic cardiovascular disease
2. No disease but LDL >190
3. No disease, 40-75 yo, DM, LDL 70-189
4. No disease, 40-75 yo, LDL 70-189, 10 year risk of disease >7.5%

Question 84

If patient is not having an expected response to statins…

Answer 84

Monitor every 3-12 months for continued assessment

Question 85

Most common complaint with statins

Answer 85

Muscle related–increases risk of myopathy
If symptoms resolve after discontinuation and patient has no other CI, Restart the same statin at a lower dose or different statin at a low dose

Question 86

Statin MOA

Answer 86

Block conversion of HMG-CoA to mevalonate–rate limiting step in production of cholesterol by the liver
Increases number of LDL receptors on liver
Decreases triglyceride levels and moderately increases HDL
Maximum effect after 4-6 weeks
Best to take at night time

Question 87

Statin CI

Answer 87

Pregnancy, breastfeeding, active liver disease

Question 88

Ezteimibe

Answer 88

Cholesterol absorption inhibitor at the brush border of small intestine; decreases delivery of cholesterol to liver and increases clearance of cholesterol from blood
Complements statins

Question 89

Cholestytramine

Answer 89

Bile acid resins
Bind bile acids in the intestines to be excreted in feces–decreases return of cholesterol to the liver and increases LDL receptors
Increases triglyceride levels
Max effect seen in 3 weeks
Adjunct therapy to diet therapy
Not absorbed systemically–do not need to monitor liver levels
SE: bloating, abdominal pain, heartpain, constipation

Question 90

Bile acid resins CI in

Answer 90

biliary obstruction, chronic constipation, triglycerides >300

Question 91

Niacin

Answer 91

B vitamin–take in higher doses
Decreases VLDL synthesis, inhibits lipolysis in adipose tissue, increases lipoprotein lipase activity
Decreases triglycerides and LDL and increases HDL
Most people can not tolerate adverse effects–pruritus and flushing

Question 92

Niacin CI

Answer 92

Hepatic dysfunction, severe hypotension, hyperglycemia, gout, A Fib, peptic ulcers

Question 93

Baseline monitoring for niacin

Answer 93

Glucose and uric acid levels

Question 94

Fibric acid derivatives

Answer 94

Gemfibrozil + Fenofibraic
Mainly affects triglycerides and HDL
CI in history of gallstones + severe hepatic/renal dysfunction
SE: Myopathy when combined with statins, hepatotoxicity, cholestatic jaundice, leukopenia, anemia, thrombocytopenia

Question 95

First, second, third line for hyperlipidemia

Answer 95

First: statins
Second: cholesterol absorption inhibitors, niacin, bile acid resins
Third: fibric acid derivatives

Question 96

S/S angina

Answer 96

Left sided chest pain, discomfort, heaviness or pressure, sensation radiating to back, jaw, neck, throat or arms lasting 1-15 minutes, SOB, fatigue

Question 97

Modifiable risk factors for angina

Answer 97

Cigarette smoking, hypertension, dyslipidemia, diabetes, obesity, physical inactivity

Question 98

Non-modifiable risk factors for angina

Answer 98

Age, heredity, men

Question 99

Atherosclerosis pathophys

Answer 99

Fatty streak –> fibrous plaque –> complicated lesion

Question 100

Nonpharmacologic therapy for angina

Answer 100

Decrease weight, smoking cessation, exercise

Question 101

Drug choices for angina

Answer 101

ACEI/ARBs, nitrates, beta blockers, calcium channel blockers, antiplatelet therapy

Question 102

What should you assess when starting someone on an ACEI or ARB

Answer 102

Renal function and serum potassium within 1-2 weeks of starting

Question 103

ACEI + Lithium

Answer 103

Patients taking lithium and ACEI are at increased risk of toxicity due to decreased renal excretion

Question 104

Nitrates MOA

Answer 104

Decreases preload through dilation of veins and decreases afterload by causing dilation of arteries
Increases blood flow and O2 supply to myocardium through artery dilation
SE: headache, flushing, dizziness, weakness, orthostatic hypotension, reflex tachycardia
Do not stop abruptly–can cause rebound hypertension

Question 105

Sublingual nitroglycerine

Answer 105

Nitrol + Isordil
First line therapy for managing angina acutely
Relieves in 1-5 minutes

Question 106

Long acting nitrates

Answer 106

Isosorbide Dinitrate, isosorbide mononitrate, nitroglycerine (transdermal)
Used for chronic prophylaxis of angina

Question 107

Nitrate tolerance

Answer 107

Can occur in 7-10 days

Have one 10-12 hour nitrate free interval per day

Question 108

CI combo of nitrate +

Answer 108

Phosphodiesterase-5 inhibitors (viagra)

Question 109

Beta blockers particularly helpful for what type of angina

Answer 109

Exertional angina

Decreases HR + contractility which decreases the workload of the heart and decreases O2 demand

Question 110

Aspirin

Answer 110

Irreversible enzyme antagonism to block prostaglandin synthesis–blocks formation of TAX-2
Recommended to take 75-162mg daily for patients with acute/chronic ischemic heart disease
SE: dyspepsia, bruising, bleeding

Question 111

Clopidogrel

Answer 111

Decreases ADP induced platelet activation

Question 112

First line, second line, third line for chronic prophylaxis angina

Answer 112

All patients should receive daily aspirin and short acting nitrate for acute attacks
First: beta blockers
Second: beta blocker + calcium channel blocker or long acting nitrate
Third: 3 drug combination

Question 113

Highest risk factors for heart failure

Answer 113

CAD, hypertension, cardiomyopathy

Other risk factors: acute MI, arrhythmias, pulmonary embolism, sepsis

Question 114

Drugs that may worsen heart failure

Answer 114

NSAIDs, steroids, hormones, antihypertensives, sodium containing drugs, lithium, amphetamines, cocaine, alcohol

Question 115

S/S left sided heart failure

Answer 115

Cough, dyspnea, orthopnea, paroxysmal nocturnal dyspnea, nocturia
Cardiomegaly, S3 heart sound, signs of pulmonary edema, tachycardia, increased RR

Question 116

S/S right sided heart failure

Answer 116

Peripheral pitting edema, abdominal pain, anorexia, bloating, constipation, nausea, vomiting
Hepatomegaly, distention of jugular veins, hepatojugular reflex, signs of portal htn, ascites, splenomegaly

Question 117

4 levels of heart failure

Answer 117

1. No limitation of physical activity
2. Slight limitation; comfortable at rest
3. Marked limitation; less than ordinary activity causes dyspnea
4. Unable to carry out physical activity without symptoms; symptoms present at rest

Question 118

In patients with a history of reduced ejection fraction, what can be used to prevent HF

Answer 118

ACEI or ARBs

Question 119

In patients with an MI and reduced ejection fraction, what should be given to prevent HF

Answer 119

Beta blockers

Question 120

Which ACEI have been shown to prolong survival for patients with LV dysfunction

Answer 120

Enalapril, Captopril, Lisinopril

Question 121

ACEI for heart failure

Answer 121

indicated for patients who present with fatigue or mild dyspnea on exertion and who do not have any other signs of symptoms of volume overload
Decreases preload and afterload, increases cardiac index and increases ejection fraction

Question 122

Diuretics for heart failure

Answer 122

Loop diuretics are more potent
Combine with ACEI and beta blocker
Decreases preload by reducing volume overload
Dose is increased until urine output increases and weight decreases
NSAIDs may decrease effects
May decrease lithium clearance

Question 123

ARBs for heart failure

Answer 123

Decreases blood pressure, decreases vascular resistance, decreases pulmonary capillary wedge pressure, decreases HR, and increases cardiac index
Decreases HF exacerbation

Question 124

Beta blockers for heart failure

Answer 124

Metoprolol, Bisoprolol, Carvedilol
All patients with stage 2-4 HF should receive
Should not be used in unstable patients or acutely ill patients
Symptomatic improvement may not be seen for 2-3 months

Question 125

Digoxin

Answer 125

Can prevent clinical deterioration in patients with heart failure but does not decrease mortality
Mild inotropic effect by inhibiting cell membrane Na/K ATPase, increases Ca entry into the cell, and increases force and velocity of contraction
Must monitor renal function

Question 126

Signs of digoxin toxicity

Answer 126

N/V, anorexia, headache, fatigue, disorientation, confusion, seizures, arrhythmias

Question 127

Digoxin should be discontinued if the following occur

Answer 127

Elevated digoxin level, substantial reduction in renal function, toxicity symptoms, conduction abnormality, increase in arrhythmias

Question 128

Drugs that will increase digoxin levels

Answer 128

Quinidine, amiodarone, flexainide, propafenone, spironolactone, verapamil, antibiotics, anticholinergics

Question 129

Drugs that decrease digoxin levels

Answer 129

Antacids, cholestyramine, neomycin, kaolin-pectin

Question 130

First, second, third line for HF

Answer 130

First: ACEI with or without a diuretic depending on fluid retention
Second: ACEI + beta blocker + diuretic (loop preferred)
Third: ARB + beta blocker + aldosterone antagonist + diuretic + digoxin

Question 131

Pediatrics tx of HF

Answer 131

Class I: IV inotropes (not digoxin) + IV diuretics
Class II: + Digoxin
Class III: + O2

Question 132

Monitoring for heart failure

Answer 132

Serum electrolyte levels, renal function, blood pressure, weights

Question 133

Conditions that may cause arrhythmias

Answer 133

myocardial ischemia, chronic HF, hypertension, valvular heart disease, hypoxemia, thyroid abnormalities, electrolyte disturbances, drug toxicity, increased caffeine, increased alcohol, anxiety, exercise

Question 134

Phases of cardiac AP

Answer 134

Phase 0: Rapid depolarization due to influx of Na
Phase 1: brief initial repolarization due to inactivation of inward Na and activation of outward K
Phase 2: plateau period no change in potential
Phase 3: repolarization due to K efflux
Phase 4: depolarization of cell with Na leaking into cell as K leaves

Question 135

Catecholamine stimulation leads to

Answer 135

Shorter AP duration

Question 136

Vagal stimulus and endogenous purines leads to

Answer 136

Inhibition of depolarization

Question 137

After-depolarization

Answer 137

Abnormal impulse formation due to intracellular calcium overload
May occur in response to hypothermia, electrolyte imbalance, catecholamine excess, or stress

Question 138

Supraventricular arrhythmias

Answer 138

Atria, SA and AV nodes
Not usually life threatening but can lead to decreased ventricular filling and decreased CO
Ex: sinus tachy, PSVT, sinus brady, A fib, A tach

Question 139

Ventricular arrhythmias

Answer 139

Originate in ventricles or bundle of His
Usually symptomatic and require immediate intervention
Ex: Premature ventricular contractions, v tach, v fib, tdp

Question 140

Risk factors for arrhythmias

Answer 140

Previous CAD, MI, cardiomyopathy, hypertension, valvular heart disease, alcohol or drug use

Question 141

Class 1 AAD’s

Answer 141

Na channel blockers

Question 142

Class 1A

Answer 142

Procainamide, quinidine, disopyramide
Intermediate onset/offset
Treatment of supraventricualr and ventricular arrhythmias
Widens QRS complex, prolongs QT and PR
Potent anticholinergic effects
Blocks alpha 1- can cause vasodilation and hypotension
SE: GI distress, tdp, hemolytic anemia, AV block, hypotension

Question 143

Class 1B

Answer 143

Lidocaine + Mexiletine
Fast onset/offset
Decreases automaticity + conduction velocity + shortens refractoriness
Primarily effects ventricular myocardium–selective to ischemic tissue
Eliminated via liver
SE: CNS dizziness, paresthesia, disorientation, tremor, agitation

Question 144

Class 1c

Answer 144

Flecainide + Propafenone
Slow onset and offset
Most used for supraventricular arrhythmias
Potent negative inotropic effects
SE: blurred vision, dizziness, headache, tremor, nausea, vomiting, bronchospasm, heart block, ventricular arrhythmias

Question 145

Class 2 AAD

Answer 145

Beta blockers
Useful for ventricular and supraventricular arrhythmias
Helpful when combined with other AAD’s
Decreases O2 consumption, decreases HR, decreases BP, decreases contractility and CO

Question 146

Class 3 AAD

Answer 146

Amiodarone, dronedarone, sotalol, dofetilide, ibutilide
K+ channel blockers
Used to treat a Fib primarily
Prolong QT interval

Question 147

Amiodarone

Answer 147

Has characteristics of all 4 AAD classes
no negative inotropic effects
Approved for life threatening recurrent ventricular arrhythmias
Requires loading dose, large Vd and high lipophilicity–potential to accumulate and cause adverse effects in numerous organs
Perform thyroid function tests every 6 monyhs and assess pulmonary function annually
SE: optic neuritis, GI distress, tdp

Question 148

Dronedarone

Answer 148

Shorter half life than amiodraone
CI in HF
No loading dose needed

Question 149

Sotalol

Answer 149

Reverse use dependence effects
Can maintain SR in patients with A Fib
Eliminated by kidneys–assess renal function routinely
Most SE due to beta blocking ability

Question 150

Class 4 AAD

Answer 150

Non-dihydropyridine calcium channel blockers
Verapamil + Diltiazem
Used for supraventricular arrhythmias
Slows conduction and prolongs refractoriness
Negative inotropic and chronotropic effect
CI in HF

Question 151

Digoxin as AAD

Answer 151

Stimulates PANS–Increases vagal tone and slows conduction

Used primarily to slow ventricualr rate in supraventricular arrhythmias

Question 152

Electrolyte imbalances that can precipitate digoxin toxicity

Answer 152

Hypokalemia, hypomagnesia, hypercalcemia

Question 153

Adenosine

Answer 153

Converts PSVT to SR

Activates potassium channels – hyperpolarizes membrane, which decreases spontaneous nodal depolarization

Question 154

Atropine

Answer 154

Enhances both sinus nodal automaticity and AV nodal conduction for use in symptomatic bradycardia

Question 155

First line treatment for A Fib

Answer 155

Goal: control ventricular rate
If hemodynamically unstable, immediate DCC
If hemodynamically stable:
-Normal LV systolic function: IV diltiazem, verapamil or beta blocker
-EF<40%: IV beta blocker or digoxin
-IV amiodarone for ventricular rate control

Question 156

Second line treatment for A Fib

Answer 156

If it persists, DCC or give warfarin as anticoagulant for 2-3 weeks and then cardioversion
PO diltiazem or verapamil or beta blocker or digoxin

Question 157

Treatment of paroxysmal supraventricular tachycardia

Answer 157

If hemodynamically unstable: DCC or vagal maneuvers
DOC is adenosine
If persistent, try IV diltiazem, verapamil or beta blocker

Question 158

Treatment of non-sustained ventricualr tachycardia

Answer 158

Terminates within 30 seconds; drugs not necessary if asymptomatic 
If symptomatic: beta blockers, non-dihydropyridine calcium channel blockers, class 1C AAD

Question 159

Treatment for ventricular tachycardia

Answer 159

If unstable DCC
If stable: IV amiodarone, procainamide, or sotalol
After acute episode is terminated, ICD is indicated

Question 160

Treatment for pulseless VT/VF

Answer 160

CPR + AED
If persists, vasopressor therapy with epinephrine
If persists, DOC is IV amiodarone

Question 161

Treatment of bradycardia

Answer 161

IV atropine if s/s poor perfusion

If not effective, give dopamine or epinephrine through continuous infusion

Question 162

Pediatrics and arrhythmias

Answer 162

Usually due to respiratory origin
PSVT is most common–occurs in children with congenital heart disease
Bradycardia is ominous sign in seriously ill children

Question 163

What should you avoid when being treated with AAD

Answer 163

Licorice (Can cause hypokalemia), alcohol, excessive salt intake, caffeine

Question 164

Venous thromboembolism

Answer 164

Venous thrombi form due to venous stasis, vascular endothelial wall injury, and hypercoagulability (virchow triad)

Question 165

Risk factors for venous thromboembolism

Answer 165

Prolonged immobility, varicose veins, obesity, pregnancy, recent surgery, thrombophilia, central venous catheters, oral contraceptives, age >40

Question 166

Source of 90% of pulmonary embolisms

Answer 166

Lower extremity DVT

Question 167

Where do proximal DVT’s develop

Answer 167

in the popliteal, femoral or iliac veins above the knee

Question 168

Atrial fibrillation

Answer 168

Loss of coordination of electrical and mechanical activity in the atria
Thrombi can form in the left atrial appendage due to impaired ventricle filling and incomplete emptying of the atria
Clot may travel to brain–stroke

Question 169

Goals of tx of A Fib

Answer 169

Prevent TIA with anticoagulants, restore SR, control ventricular HR

Question 170

Risk factors for developing stroke with A Fib

Answer 170

History of stroke, increased age, hypertension, HF with impaired systolic function, DM

Question 171

Indications for prosthetic valve

Answer 171

Mitral stenosis, mitral regurgitation, aortic stenosis, aortic regurgitation
Valves in the mitral position are more thrombogenic than aortic
Mechanical prosthetics require lifelong anticoagulation

Question 172

Final step in clotting cascade

Answer 172

Formation of thrombin (IIa), which converts fibrinogen to fibrin to form a clot

Question 173

Platelets in clotting

Answer 173

Adhere to the site of injured blood vessels, attracting other platelets and forming large platelet aggregates that help stabilize the platelet-fibrin clot
When platelets are activated, receptors for clotting factors are exposed; this provides a stable environment for the initiation of the clotting cascade

Question 174

Extrinsic pathway

Answer 174

Initiated by components from blood

Factor 7 is initiating factor

Question 175

Intrinsic pathway

Answer 175

When blood comes into contact with a foreign surface, such as a prosthetic device
Factor 11 is initiating factor

Question 176

Both clotting pathways converge at

Answer 176

Factor 10

Converts prothrombin to thrombin

Question 177

Antithrombin III

Answer 177

Inhibits active clotting factors 2a, 7a, 9a, 10a, 11a, 12a

Question 178

Protein C, S, Z

Answer 178

Prevent excess clot formation by inactivating 5a and 8a

Deficiency in these proteins creates a predisposition to pathologic thrombosis

Question 179

Venous thrombi

Answer 179

Form in areas of sluggish blood flow and contain primarily red cells held together with fibrin

Question 180

Arterial thrombi

Answer 180

Form in areas of high blood flow and are composed primarily of platelets bound with fibrin strands

Question 181

S/S venous thromboembolism

Answer 181

Erythema, pain, swelling, venous distention, warmth
50% have no symptoms
Increased D-dimer >500

Question 182

Diagnostic method of choice for DVT

Answer 182

Compression ultrasonography

Question 183

S/S A fib

Answer 183

Palpitations, chest pain, SOB, weakness, decreased BP, dizziness, syncope, irregular pulse, irregular jugular venous pulsations
Absence of P waves

Question 184

Diagnostic tests for ischemic stroke

Answer 184

Blood glucose, electrolytes, CBC with platelets, ECG, cardiac enzymes, prothrombin time, INR, aPTT, O2 saturation
Non contrast CT or MRI to diagnose

Question 185

CI to anticoagulation

Answer 185

Recent hemorrhagic stroke, active major bleeding, recent trauma or surgery, immediate postop after CNS/ocular surgery, spinal catheters, aneurysms
Warfarin CI in pregnancy

Question 186

Heparin indications

Answer 186

Treatment of acute venous or arterial thrombosis and prophylaxis of VTE

Question 187

Un-fractionated Heparin MOA

Answer 187

Inhibits reactions that lead to clotting but does not alter concentration of normal clotting factors
Binds to antithrombin III and increases inactivation rate of intrinsic clotting cascade pathway (12, 11, 10, 9) and thrombin (2)
Prevents conversion of fibrinogen to fibrin
Can not inactivate clot-bound thrombin or activated factor X
Immediate onset
Must be given IV or SC

Question 188

Limitations of un-fractionated heparin

Answer 188

Variability in size, highly bound to plasma proteins, some people have heparin resistance, can cause heparin induced thrombocytopenia

Question 189

Lab monitoring for un-fractionated heparin

Answer 189

aPTT

Question 190

Low molecular weight heparin

Answer 190

Dalteparin, enoxaparin, tinzaparin
Produce major effect via thrombin and factor X
Long half life than un-fractionated
SC administration
Less binding to proteins
Less intense lab monitoring and more predictable effect than un-fractionated

Question 191

Lab monitoring for LMWH

Answer 191

Anti-Xa activity

Question 192

Warfarin MOA

Answer 192

Inhibits activation of clotting factors in liver than depend on vitamin K: 2, 7, 9, 10 and protein C, Z, S
Does not affect function of existing clotting factors or thrombus
Long offset of effect–8-14 days for full effect (must heparinize initially)
Causes a quick fall in protein C–temporary hypercoagulable state
Long half life

Question 193

Lab monitoring for warfarin

Answer 193

INR every 4-6 weeks
Narrow therapeutic index
Multiple drug-drug interactions

Question 194

Direct acting oral anticoagulants

Answer 194

Dabigatran, rivaroxaban, apixaban, edoxaban
Faster onset than warfarin
Adv: Fixed dosing, no dietary interaction, no intense monitoring
Disadv: No antidote, more expensive, faster offset

Question 195

Antidote of warfarin

Answer 195

Oral vitamin K, fresh frozen plasma, four factor prothrombin complex concentrates

Question 196

Antidote of heparin

Answer 196

Protamine sulfate

Question 197

Heparin induced thrombocytopenia

Answer 197

Anti-body mediated prothrombotic reaction
Diagnosed by ELISA antibody test
Discontinue heparin and give alternative anticoagulant

Question 198

Anti-platelet agents indications

Answer 198

Prevention and treatment of stroke, add on therapy to anticoagulants, prevent CV death, MI, or stroke following acute coronary syndrome

Question 199

Asprin MOA

Answer 199

Prevents prostaglandin synthesis in platelets by irreversibly inhibiting COX, which usually catalyzes conversion of arachidonic acid to TXA2)
Onset of effect is within 5 minutes
Effect lasts 7-10 days after discontinuing

Question 200

Clopidogrel

Answer 200

Inhibits ADP, which is a promoter of platelet receptor binding
Extensively metabolized by liver from prodrug
Common SE is diarrhea

Question 201

First line therapy for DVT or PE

Answer 201

Bolus IV of unfractionated heparin followed by continuous IV infusion
Injectable UFH/LMWH followed by warfarin or direct thrombin inhibitor for at least 3 months

Question 202

First line therapy for prophylaxis of DVT or PE

Answer 202

For patients undergoing orthopedic surgery

LMWH, Warfain, direct oral anticoagulants, aspirin

Question 203

First line for prevention of non-cardioembolic ischemic stroke and transient ischemic attack

Answer 203

First: aspirin
Second: Clopidogrel

Question 204

First line therapy for stroke prevention in nonvalvular atrial fibrillation

Answer 204

Warfarin or direct acting oral anticoagulant

Question 205

First line therapy for prophylaxis against systemic embolism in patients with prosthetic heart valves

Answer 205

Long term anticoagulation with warfarin alone or in combination with aspirin

Question 206

Potential causes of anemia

Answer 206

Blood loss, nutritional deficiency, malabsorption syndromes, sickle cell disease, thalassemia, hemoglobinopathy, treatment of cancer, HIV, hepatitis C

Question 207

Normal Hgb and MCV values

Answer 207

MCV: 80-96
Men Hgb: 13
Women Hgb: 12

Question 208

S/S of rapid onset of anemia

Answer 208

Tachycardia, light headedness, breathlessness

Question 209

S/S of chronic anemia

Answer 209

Fatigue, weakness, headache, vertigo, faintness, sensitivity to cold, pallor, loss of skin tone

Question 210

Smokers normal RBC values

Answer 210

Higher than normal levels of RBC’s

Question 211

Microcytic anemias

Answer 211

Thalassemia, iron deficiency, chronic disease, sideroblastic

Question 212

Normocytic anemias

Answer 212

Acute blood loss

Question 213

Macrocytic anemias

Answer 213

Folate or vitamin B12 deficiency

Question 214

Immediate therapy for acute post-hemorrhagic anemia/chronic blood loss

Answer 214

Hemostasis, restoration of blood volume, treatment of shock with blood transfusion

Question 215

Patients with sickle cell anemia are susceptible to

Answer 215

Infection, particularly strep pneumoniae and haemophilus influenzae

Question 216

Important education for patients with sickle cell anemia

Answer 216

Folic acid supplementation and vaccinations

Question 217

Hydroxyurea

Answer 217

Can be used for prophylaxis of sickle cell crises
Increases Hgb F, Increases water content of RBC, increases deformability of sickled cells and alters RBC adhesions
Do not use if pregnant

Question 218

SE of hydroxyurea

Answer 218

Myelosuppression, risk of cancer, cutaneous hyperpigmentation, alopecia, xerosis, nail pigmentation, leg ulcers

Question 219

Pain management for sickle cell crises

Answer 219

Hydration, aggressive pain relief with analgesics and opiates–NSAIDs, acetaminophen, morphine, hydromorphone

Question 220

Causes of iron deficiency anemia

Answer 220

Deficient diet, decreased absorption, pregnancy and lactation, blood loss, chronic alcoholism
Can be exacerbated by chronic intestinal blood loss due to parasitic and malarial infections

Question 221

Drugs that may cause iron deficiency

Answer 221

Fluoroquinolones, tetracyclines, H2 blockers, proton pump inhibitors, calcium supplements

Question 222

Diagnostic lab findings in iron deficiency anemia

Answer 222

Decreased serum iron, decreased ferritin, increased TIBC, decreased Hgb, decreased Htc
Low ferritin is earliest and most sensitive indication

Question 223

Treatment of iron deficiency anemia

Answer 223

Dietary supplementation and iron preparation

May take 6-8 weeks for hemaglobin to improve and 6 months to completely restore iron stores

Question 224

SE iron supplements

Answer 224

Discolored feces, anorexia, constipation or diarrhea, N/V

Question 225

What affects absorption of iron supplements

Answer 225

Vitamin C will increase
Milk and tea will decrease
Antacids, proton pump inhibitors and H2 antagonists will also decrease

Question 226

Indications for use of IV iron

Answer 226

Chronic bleeding, intestinal malabsorption, intolerance to oral iron, nonadherence, hemoglobin <6 with signs of poor perfusion

Question 227

Anemia of chronic renal failure

-Causes and Tx

Answer 227

Decreased EPO production by kidney due to decreased GFR

Give iron supplementation first, then treat reversible causes of decreased renal function, then give recombinant EPO

Question 228

Diagnostic lab findings in anemia of chronic disease

Answer 228

Decreased serum iron, decreased transferrin, decreased TIBC

Question 229

Tx of anemia of chronic disease

Answer 229

Increased doses of EPO administered subcu

Question 230

Tx of thalassemia

Answer 230

If severe, regular transfusions and folate supplementation

Question 231

Tx of vitamin B12 deficiency

Answer 231

Parenteral administration of B12–must receive every month for rest of life

Question 232

Tx of folate deficiency

Answer 232

Oral folate replacement until numbers are restored

Question 233

Tx for aplastic anemia

Answer 233

RBC transfusions and platelets given for bleeding, antibiotics given for infections
Severe forms may require hematopoietic stem cell transplant and immunosuppression therapy

Question 234

Geriatric Hgb <10

Answer 234

Negative outcomes–decreased physical performance, increased number of falls, increased frailty, decreased cognition, increased dementia, increased hospitalizations, increased mortality

Question 235

What makes fibric acid derivatives ineffective?

Answer 235

Alcohol

Question 236

Antidote to dabigratran (direct acting oral anticoagulant)

Answer 236

Idarucizumab

Question 237

Different types of iron supplements

Answer 237

Ferrous gluconate has less iron in it but causes less constipation than ferrous sulfate

Question 238

Sickling causes patients to be at high risk for

Answer 238

Pain, infection, gall stones, renal failure

Question 239

How long can you store B12 for

Answer 239

3 years
Deficiency is not an acute condition
Deficiency can cause permanent neurological issues

Question 240

How long can you store folate for

Answer 240

3 months

Question 241

Distinguish between folate and B12 deficiency

Answer 241

B12: increase in homocysteine and MMA
Folate: Increase in homocysteine onlu, normal MMA

Question 242

What do antiretrovirals do

Answer 242

Inhibit transcriptase

Question 243

Normal total cholesterol

Answer 243

Less than 200

Question 244

Normal LDL

Answer 244

Less than 130

Question 245

Normal triglyceride

Answer 245

Less than 150

Question 246

Normal HDL

Answer 246

Over 40

Question 247

Statins + calcium channel blocker requires

Answer 247

PT/INR monitoring due to risk of bleeding

Question 248

What cholesterol medication should not be dosed with a statin

Answer 248

Fibric acid derivatives

Unless under the care of a cardiologist

Question 249

Patient education for digoxin

Answer 249

Check HR before taking, routine lab work to check levels (dig toxicity and potassium)

Question 250

1st line agent for heart failure

Answer 250

ACEI

Question 251

Labs for hypertensive medications

Answer 251

Liver + renal, electrolytes

Question 252

If experiencing bad peripheral edema with nifedipine, switch to

Answer 252

Amlodipine

Question 253

If a patient has an allergic reaction to penicillin, give

Answer 253

Macrolide

Question 254

What antibiotic to give if pregnant

Answer 254

Macrolide

Question 255

Adenosine

Answer 255

Converts PSVT to SR
Activates potassium channels by increasing outward K+
current and hyper-polarizing membrane, which decreases spontaneous SA node depolarization

Question 256

Amiodarone

Answer 256

Class 3 AAD: K+ channel blocking
Has properties from all 4 classes
Good for treating ventricular arrhythmias orimarily
Many toxic side effects: pulmonary toxicity, retinal toxicity, liver, and thyroid toxicity
Prolongs QT interval

Question 257

DOC for lyme disease

Answer 257

Doxycycline

Question 258

Where to place transdermal nitrate patch

Answer 258

Place away from the chest area–on the extremities

Question 259

SE of gentamycin (aminoglycoside)

Answer 259

Ototoxicity

Question 260

Furosemide may cause

Answer 260

Ototoxicity

Question 261

If patient has not responded to penicillin or doxycycline

Answer 261

Give a fluoroquinolone

Question 262

Concerns with levofloxacin

Answer 262

Neurotoxicity and tendon rupture

Question 263

If a beta blocker is making a patient tired…

Answer 263

Can decrease the dose

Question 264

Labs to monitor with statins

Answer 264

CK and kidney function

Liver function tests

Question 265

Always treat hypertension with what first

Answer 265

Thiazide diuretic

Question 266

Coronary artery spasm education

Answer 266

Give sublingual nitroglycerine up to 3 doses 5 minutes apart