Chapter 8: High Yield Cardiac

Question 1

Chest pain <20 min. With exertion. EKG shows ST-segment depression

Answer 1

Stable angina.

Question 2

Episodic chest pain unrelated to exertion - due to coronary artery vasospasm. EKG shows ST-segment ELEVATION due to transmural ischemia.

Answer 2

Prinzmetal angina

Question 3

Occlusion of the left anterior descending artery (LAD) leads to infarction of the _____ [2].

Answer 3

Anterior wall and anterior septum of the LV. Most commonly involved artery in MI (45%).

Question 4

Occlusion of right coronary artery (RCA) leads to infarction of the ______[3].

Answer 4

Posterior wall, posterior septum, papillary muscles of the LV.

Question 5

Occlusion of the left circumflex artery leads to infarction of the ____[1].

Answer 5

lateral wall of the LV.

Question 6

Gold standard laboratory test for MI

Answer 6

Troponin I. Levels rise 2-4 hrs after infarction, peak at 24 hrs, return to nml in 7-10 days. CK-MB is useful for detecting reinfarction (rise 4-6 hrs after infarction, peak at 24, return to nml in 72 hrs).

Question 7

Left-sided heart failure tx

Answer 7

ACE inhibitor

Question 8

‘Nutmeg’ liver, JVD, Dependent pitting edema.

Answer 8

Right sided heart failure

Question 9

Hemosiderin-laden macrophages in the alveoli, dyspnea, paroxysmal nocturnal dyspnea, orthopnea

Answer 9

Left-sided heart failure

Question 10

Eisenmenger syndrome

Answer 10

A left-to-right shunt reverses. Increased flow through the pulmonary circulation results in hypertrophy of pulmonary vessels and pulmonary htn. leads to late cyanosis with right ventricular hypertrophy, polycythemia, and clubbing.

Question 11

A congenital left-to-right shunt. most common congenital heart defect. associated with fetal alcohol syndrome. Large defects can lead to Eisenmenger syndrome.

Answer 11

Ventricular Septal Defect. tx = surgical closure

Question 12

Left-to-right shunt and split S2 on auscultation. Gives paradoxical emboli

Answer 12

Atrial Septal Defect (ASD). most common type is OSTIUM SECUNDUM. OSTIUM PRIMUM type is associated with DOWN SYNDROME

Question 13

Holosystolic “MACHINE-LIKE” murmur.

Answer 13

PDA. Associated with CONGENITAL RUBELLA. Left-right shunt between aorta and pulmonary artery. Can lead to Eisenmenger syndrome, resulting in lower extremity cyanosis.

Question 14

Treatment of a PDA

Answer 14

Indomethacin - decreases PGE.

Question 15

Right-to-left shunt
Stenosis of the right ventricular outflow tract; right ventricular hypertrophy; VSD; and an aorta that overrides the VSD. “Boot-shaped” heart on x-ray

Answer 15

Tetralogy of Fallot. Pt learns to squat in response to a cyanotic spell; increases arterial resistance –> decreases shunting and allows more blood to reach the lungs

Question 16

What disease is associated with Transposition of the Great Vessels

Answer 16

Maternal Diabetes

Question 17

Single, large vessel arising from both venticles.

Answer 17

Truncus arteriosus

Question 18

Location of coarctation of the aorta in the infantile form. _____ Disorder association?

Answer 18

Coarction lies after the aortic arch, but BEFORE the PDA. Associated with a PDA, and TURNER SYNDROME. Presents as lower extremity cyanosis in infants at birth

Question 19

HTN in the upper extremities, hypotension with weak pulses in the lower extremities. Notching on the ribs. Associated with?

Answer 19

Adult form of coarctation of the aorta. Lies after the aortic arch. Get collateral circulation across intercostal arteries. ASSOCIATED WITH BICUSPID AORTIC VALVE

Question 20

Jones Criteria

Answer 20

For dx of Acute Rheumatic Fever:
1. Evidence of prior group A beta-hemolytic strept infection (elevated ASO or anti-DNase B titers).
2. Minor criteria: fever and elevated ESR.
3. Major:
J: Joint - Migratory polyarthritis.
O: Heart. Endocarditis [mitral valve - small vegetations leading to regurgitation. Myocarditis with ASCHOFF BODIES (ANITSCHKOW CELLS) Pericarditis - leading to friction rub and chest pain
N: Nodels [Subcutaneous nodules
E: Erythema marginatum [annular, nonpruritic involving trunk and limbs]
S: Sydenham chorea [rapid, involuntary muscle movements]

Question 21

Systemic complication of pharyngitis due to group A Beta-hemolytic strep. Children 2-3 weeks after strep pharyngitis. Caused by molecular mimicry –> BACTERIAL M PROTEIN.

Answer 21

Acute Rheumatic Fever

Question 22

Stenosis with “FISH-MOUTH” appearance. Usually mitral valve - thickening of chordae tendineae and cusps. Occasionally aortic valve leading to fusion of the commisures.

Answer 22

Chronic Rheumatic Heart Disease. Complication = infectious endocarditis

Question 23

Systolic ejection click followed by a crescendo-decrescendo murmur.

Answer 23

Aortic stenosis May lead to CONCENTRIC left ventricular hypertrophy, angina and syncope with exercise, and Microangiopathic hemolytic anemia [schistocytes]

Question 24

Early, blowing diastolic murmur. Hyperdynamic circulation due to increased pulse pressure. Presents with bounding pulse [WATER-HAMMER PULSE], Pulsating nail bed [QUINCKE PULSE], and head bobbing.

Answer 24

Aortic Regurgitation. Results in LV dilation and ECCENTRIC hypertrophy

Question 25

Mid-systolic click followed by a regurgitation murmur. Louder with squatting.

Answer 25

Mitral Valve prolapse. Due to myxoid degeneration of the valve.

Question 26

Holosystolic “blowing” murmur. Louder with squatting and expiration.

Answer 26

Mitral Regurgitation. Results in volume overload and left-sided heart failure. Usually arises as a complication of mitral valve prolapse, LV dilation, ect

Question 27

Opening snap followed by diastolic rumble

Answer 27

Mitral stenosis [usually due to chronic rheumatic valve diseae] Volume overload leads to dilation of the left atrium; Right-sided heart failure; A-fib

Question 28

Most common cause of endocarditis. Results in small vegetations (subacute endocarditis)

Answer 28

Streptococcus viridans. infects previously damaged valves.

Question 29

Most common cause of endocarditis among IV drug users. Targets tricuspid resulting in large vegetations that destroy the valve (acute endocarditis)

Answer 29

Staph. aureus

Question 30

What is Staph epidermidis associated with

Answer 30

endocarditis of prosthetic valves

Question 31

If the patient has endocarditis and underlying colorectal carcinoma, what bug do they have

Answer 31

Steptococcus bovis

Question 32

Endocarditis with negative blood cultures

Answer 32

HACEK organisms (difficult to grow) Haemophilus, Actinobacillus, Cardibacterium, Eikenella, Kingella

Question 33

Janeway lesions

Answer 33

Erythematous non-tender lesions on palms and soles –> Bacterial endocarditis

Question 34

Osler nodes

Answer 34

Tender lesions on fingers or toes –> bacterial endocarditis

Question 35

Splinter hemorrhages in nail bed

Answer 35

Due to embolization of septic vegetations in endocarditis

Question 36

Sterile vegetations that arise in association with a hypercoagulable state or underlying adenocarcinoma. Arise on mitral valve along lines of closure and result in mitral regurgitation

Answer 36

Nonbacterial Thrombotic Endocarditis

Question 37

Sterile vegetations that arise in association with SLE. Vegetations are present on the surface and undersurface of the mitral valve and result in mitral regurgitation.

Answer 37

Libman-Sacks endocarditis

Question 38

Pt presents with CHF. Find low-voltage EKG with diminished QRS amplitude

Answer 38

Restrictive Cardiomyopathy

Question 39

Benign mesenchymal tumor with gelatinous appearance and abundant ground substance on histo. Forms a pedunculated mass in the L atrium that causes syncope due to obstruction of the mitral valve

Answer 39

Myxoma

Question 40

Benign hamartoma of Cardiac muscle. Associated with tuberous sclerosis. Usually in ventricle.

Answer 40

Rhabdomyoma.

Question 41

“Holosystolic, high-pitched blowing murmur”

Answer 41

Mitral/tricuspid regurgitation

Question 42

Crescendo-decrescendo systolic ejection murmur following ejection click

Answer 42

Aortic stensosis

Question 43

Holosystolic, harsh-sounding murmur. located at tricuspid area.

Answer 43

VSD

Question 44

Late systolic crescendo murmur with midsystolic click. best heard over apex. Loudest at S2.

Answer 44

MVP

Question 45

Immediate high-pitched “blowing” diastolic murmur with a wide pulse pressure.

Answer 45

aortic regurg. can get bounding pulses and head bob

Question 46

Follows opening snap. Delayed rumbling late diastolic murmur.

Answer 46

Mitral stenosis

Question 47

Continuous machine-like murmur

Answer 47

PDA. loudest at S2

Question 48

PCWP > LV diastolic pressure

Answer 48

Mitral stenosis

Question 49

Infant of a diabetic bother

Answer 49

Transposition of great vessels

Question 50

V1-V4

Answer 50

anterior wall - LAD

Question 51

V1, V2

Answer 51

anterior septal - LAD

Question 52

V4-V6

Answer 52

Anterolateral - LCX

Question 53

I, aVL

Answer 53

Lateral wall - LCX

Question 54

II, III, aVF

Answer 54

Inferior wall - RCA