Cardiology 2

Question 1

Metoprolol MOA?

Answer 1

Beta-1 specific antagonist

Question 2

Bisoprolol MOA?

Answer 2

Beta-1 specific antagonist

Question 3

Carvedilol MOA?

Answer 3

Nonspecific Beta-blocker + alpha-1 blocker

Question 4

Which 3 beta-blockers actually have evidence of benefit in CHF?

Answer 4

Metoprolol, Bisoprolol, & Carvedilol

Question 5

In CHF, when might Spironolactone be effective?

Answer 5

Only proven effective for more advanced & serious stages (class 3 & 4), where pt is SOB @ minimal exertion or @ rest

• benefit directly related to its ability to inhibit effects of aldosterone
• NOT used @ doses in which it has a diuretic effect

Question 6

What do you do when a pt w/ severe CHF on Spironolactone develops gynecomastia?

Answer 6

Switch it to Eplerenone

Question 7

Eplerenone’s role in CHF?

Answer 7

Same as Spironolactone – inhibits Aldosterone & has proven mortality benefit in stage 3 & 4 CHF – however doesn’t have gynecomastia effects

Question 8

Digoxin’s role in CHF

Answer 8

• Used to control symptoms of dyspnea & will reduce the number of hospitalizations
• there is NO mortality benefit w/ Digoxin

Question 9

Digoxin – Survival benefit in CHF?

Answer 9

NO (inotrope)

Question 10

Spironolactone – Survival benefit in CHF?

Answer 10

YES

Question 11

Eplerenone – Survival benefit in CHF?

Answer 11

YES

Question 12

Beta-blockers – Survival benefit in CHF?

Answer 12

ONLY: Metoprolol, Bisoprolol, & Carvedilol

Question 13

ACE-inhibitors – Survival benefit in CHF?

Answer 13

YES

Question 14

ARBs – Survival benefit in CHF?

Answer 14

YES

Question 15

Ca-channel blockers – Survival benefit in CHF?

Answer 15

NO

Question 16

Milrinone – Survival benefit in CHF?

Answer 16

NO (no dec’d mortality in inotropes for CHF)

*MOA = PDE-3 inhibitor (dec’s cAMP brkdwn, inc’s PKA activity… this permits an increase in calcium influx into the cell. This increase in calcium influx permits increased contractility)

Question 17

Furosemide – Survival benefit in CHF?

Answer 17

NO

• Diuretics have NO survival benefit in CHF, they just treat symptoms when EF is low

Question 18

Amrinone – Survival benefit in CHF?

Answer 18

NO (inotrope)

Question 19

Dobutamine – Survival benefit in CHF?

Answer 19

NO (inotrope)

Question 20

Hydralazine – Survival benefit in CHF?

Answer 20

YES when used in combo w/ Nitrates for systolic dysfunction

Question 21

2 types of CHF & how to determine which it is?

Answer 21

Diastolic dysfunction:

• • preserved EF, sometimes even above normal
• • inability of heart to “relax” & receive blood

Systolic dysfunction:

• • decreased EF
• • Dilation of the heart

Question 22

2 non-pharm treatments ass’d w/ mortality benefit in CHF?

Answer 22

Implantable Defibrillator
&
Biventricular pacemaker

Question 23

Implantable Defibrillator – indications?

Answer 23

Ischemic cardiomyopathy & EF < 35%

• 25% risk reduction in risk of death

Question 24

Biventricular Pacemaker – indications?

Answer 24

Dilated cardiomyopathy & EF < 35% & wide QRS above 120 milliseconds w/ persistent symptoms

(note: biventricular diff from dual-chamber, which is atrium & ventricle)

Question 25

Txs w/ clear mortality benefit in systolic-dysfunction CHF?

Answer 25

• ACEi/ARBs
• Beta-blockers
• Spironolactone or Eplerenone
• Hydralazine/Nitrates
• Implantable Defibrillator

(biventricular pacemaker..?)

Question 26

Txs w/ clear mortality benefit in diastolic-dysfunction CHF?

Answer 26

Beta blockers & diuretics

uncertain: ACEis, ARBs, & Hydralizine

Question 27

Txs clearly NOT beneficial in diastolic dysfunction CHF?

Answer 27

Digoxin & Spironolactone

Question 28

Worst, most severe form of CHF presents w/ what?

Answer 28

Pulmonary Edema (rapid fluid buildup in lungs)

Question 29

Dx test that can exclude pulmonary edema as cause of SOB?

Answer 29

BNP level — if normal, excludes both Pulmonary Edema & CHF as potential causes of the SOB

Question 30

What will you see on x-ray of Pulmonary Edema?

Answer 30

Engorged pulmonary veins above the upper half of the heart

• filling of blood vessels towards the head, called “cephalization of flow” – b/c normally most blood flow in lungs is @ bases

In more chronic cases, there will be enlargement of heart & pleural effusions

Question 31

Pulmonary Edema - what’s expected on Oximetry/ABGs?

Answer 31

• Hypoxia

- Respiratory alkalosis 2/2 hyperventilation — CO2 leaves more easily than oxygen enters the bloodstream

Question 32

Most important test to do in Acute Pulmonary Edema?

Answer 32

ECG – b/c can change immediate therapy if noted that plum edema is 2/2 A. fib, A. flutter, or V. tach
— would need to perform rapid, synchronized cardioversion to restore atrial systole & return atrial contribution to cardiac output

– HOWEVER first thing to do overall is give diuretics to remove fluid from lungs (if clearly SOB w/ pulm edema 2/2 CHF)

Question 33

Initial therapy of acute pulmonary edema?

Answer 33

• Oxygen
• Loop diuretics (furosemide, bumetinide)
• Morphine
• Nitrates

Question 34

Next Tx in acute pulmonary edema if SOB does not respond to preload reduction?

Answer 34

Inotropic agents:

• – Dobutamine
• could also use Amrinone, or Milrinone (phosphodiesterase inhibitors)
• Digoxin, but not in acute setting as it takes weeks for it to have an inotropic effect

Question 35

Acute Pulm Edema Tx if SOB doesn’t respond to (1) preload reduction OR (2) Pos Inotropes?

Answer 35

Afterload reduction:

• • ACEi & ARBs for long-term use in pts being discharged
• • Nitroprusside & IV Hydralazine in acute setting

Question 36

What type of echo is more sensitive & specific for valvular heart disease?

Answer 36

Transesophageal > Transthoracic

Question 37

Most accurate test in valvular heart disease?

Answer 37

Catheterization (allows the most precise measurement of valvular diameter)

Question 38

Which valvular heart disease are ass’d w/ fluid overlaid in the lungs?

Answer 38

All of them.

Therefore diuretics are useful in all of them as well.

Question 39

Mitral Stenosis Tx?

Answer 39

1. Diuretics & Na-restriction
2. Balloon valvuloplasty (dilation) via catheter
3. Valve replacement only when catheter cannot be done, or fails
4. Warfarin for A. fib to an INR of 2 or 3
5. Rate control of A. fib w/ Digoxin, Beta-blockers, Diltiazem/Verapamil

Question 40

Aortic Stenosis Tx?

Answer 40

Aortic Stenosis needs surgical removal

Question 41

Regurgitant valvular lesions Tx?

Answer 41

Respond best to vasodilator therapy, w/ ACEi/ARBs, Nifedipine, or Hydralazine

• Surgical replacement of regurgitant lesions must be done before the heart dilates beyond repair

Question 42

What marker indicates whether valve must be replaced?

Answer 42

End-systolic diameter of the ventricle shows how much the myocardium has stretched.

Important to replace valve before it stretches too much & systolic fx is irreparable.

Question 43

Mitral Stenosis – most common cause?

Answer 43

Rheumatic Fever

(extremely uncommon in US – presents in “young adult immigrants who get pregnant” – 50% increase in blood overwhelms C/V system)

Question 44

Unique symptomatic features of Mitral Stenosis?

besides the SOB & CHF ass’d w/ all forms of valvular heart disease

Answer 44

• • Dysphagia – from LA pressing on Esophagus
• • Hoarseness – LA pressing on Laryngeal nerve
• • A. Fib – & stroke from enormous LA
• • Hemoptysis

Question 45

Mitral Stenosis murmur?

Answer 45

• Diastole, just after an opening snap

- Squatting & leg raising increase the intensity from inc’d venous return to heart

Question 46

How does LA hypertrophy present itself on ECG in Mitral Stenosis?

Answer 46

Biphasic P wave in leads V1 & V2

Question 47

Cause?
X-ray findings:
- Straightening of left heart border
- Elevation of left main-stem bronchus
- Second "bubble" behind the heart

Answer 47

Left Atrial Hypertrophy

2/2 Mitral Stenosis

Question 48

Aortic Stenosis murmur?

Answer 48

Systolic, crescendo-decrescendo

• Sound dec’d w/ handgrip (dec’d EF)
• Also dec’d w/ standing, & Valsalva (dec’d venous return to heart)

Question 49

Define “cardiac enlargement”

Answer 49

Heart greater in diameter than 50% of total transthoracic diameter

Question 50

Aortic Stenosis EKG findings?

Answer 50

LVH: S-wave in V1 plus R-wave in V5 greater than 35 millimeters

Question 51

Mitral Regurgitation causes?

Answer 51

Anything that causes the heart to dilate

i.e. HTN, endocarditis, MI w/ papillary muscle rupture

Question 52

Mitral Regurgitation murmur?

Answer 52

Pansystolic (holosystolic), obscuring both S1 & S2

• radiates to axilla
• Handgrip worsens the murmur (Aortic & Mitral Regurgitation murmurs b/c pushes more blood back through valve)
• Squatting & leg raising worses MR (inc’s venous return to heart)

Question 53

Mitral Regurgitation Tx?

Answer 53

1. Vasodilators: ACEi/ARBs are best
2. Digoxin & diuretics can be used as in all forms of CHF
3. Valve replacement

Question 54

Aortic Regurgitation murmur?

Answer 54

Diastolic, decrescendo murmur heard best @ LL sternal border

• Valsalva & standing make it better
• Handgrip makes it worse

Question 55

Aortic Regurgitation Tx?

Answer 55

1. Vasodilators: ACEi/ARBs are best
2. Digoxin & diuretics have little benefit
3. Valve replacement

Question 56

Mitral Valve Prolapse Sx?

Answer 56

Usually asymptomatic, but if Sx present…

• CHF sx absent
• Atypical CP
• Palpitations
• Panic attack

Question 57

MVP murmur?

Answer 57

Midsystolic click that, when severe, is ass’d w/ a murmur just after the click from mitral regurgitation

• Valsalva & standing worsen murmur (opp. of all other murmurs)
• Handgrip or squatting improves murmur

Question 58

MVP Sx?

Answer 58

If symptomatic…

• Beta-blockers
• Valve repair (surgical)

Question 59

Cardiomyopathy: Tx common in all types except HOCM?

Answer 59

Diuretics

c/i in Hypertrophic Obstructive Cardiomyopathy

Question 60

Murmurs that do NOT increase w/ expiration?

Answer 60

• HOCM

- MVP

Question 61

Hypertrophic Cardiomyopathy distinguishing features vs. other cardiomyopathies?

Answer 61

• S4 gallop

- Fewer signs of RHF such as ascites & enlargement of the liver & spleen

Question 62

Most accurate test to determine precise gradients of pressure across heart chambers?

Answer 62

Catheterization

Question 63

EKG findings common in HOCM not seen in MI?

Answer 63

Septal Q waves in inferior & lateral leads

Question 64

Septal Q waves in inferior & lateral leads are common in what?

Answer 64

HOCM (Hypertrophic Obstructive CM)

• NOT seen in MI

Question 65

Best initial Tx for HCM & HOCM?

Answer 65

Beta-blockers

Question 66

Use in HCM vs. DCM?

Beta-blockers

Answer 66

Both

Question 67

Use in HCM vs. DCM?

Diuretics

Answer 67

Both

Question 68

Use in HCM vs. DCM?

ACEi/ARBs

Answer 68

HCM = Unclear benefit

DCM = Yes

Question 69

Use in HCM vs. DCM?

Spironolactone

Answer 69

HCM = No

DCM = Yes

Question 70

Use in HCM vs. DCM?

Digoxin

Answer 70

HCM = No

DCM = Yes

Question 71

Amiodarone – MOA?

Answer 71

Beta blocker-like and potassium channel blocker-like actions on the SA and AV nodes

• Increases the refractory period via sodium- and potassium-channel effects
• slows intra-cardiac conduction of the cardiac action potential, via sodium-channel effects
• Class 3 antiarrhythmic (prolongs phase 3 of the cardiac action potential, the repolarization phase where there is normally decreased calcium permeability and increased potassium permeability)

Question 72

S3 – what is it & what does it mean?

Answer 72

Sound = Blood from the left atrium striking blood that’s already present in the left ventricle, causing reverberation btwn the LV walls.

Means left ventricular failure!

Question 73

Inspiration – effect on venous return?

Answer 73

Inspiration increases venous return

Ex: in cardiac tamponade this inc’d VR causes the inter ventricular septum to deviate into the LV, dec’ing end diastolic volume, thus dec’ing stroke volume, thus dec’ing systolic BP – i.e. Pulsus paradoxus