L43 Valvular Heart Disease and Cardiac Neoplasms

Question 1

What are the two types of semilunar valves in the heart and how many cusps do they have?

Answer 1

Aortic and pulmonary; three

Question 2

Upon what does the function of semilunar valves depend?

Answer 2

Integrity and coordinated movement of cusps and attachments

Question 3

What are the two types of atrioventricular valves in the heart?

Answer 3

Tricuspid and mitral

Question 4

Upon what does the function of AV valves depend?

Answer 4

Integrity of valve apparati (including leaflets, annulus, chordae tendinae, papillary muscles, ventricular wall)

Question 5

Describe the basic histology of a valve.

Answer 5

Lined by endocardium with a connective tissue core of variable density

Question 6

What is the difference between regurgitant and stenotic valvular heart disease?

Answer 6

Regurgitant: insufficient, allows backflow of blood

Stenotic: tight valve

Question 7

What is the most common congenital valvular heart disease?

Answer 7

Biscupid aortic valve

Question 8

Describe the etiology of a bicuspid aortic valve.

Answer 8

Normally, the aortic valve has three cusps. Here, there is incomplete embryonic separation, leading to 2 cusps

Question 9

What does bicuspid aortic valve cause?

Answer 9

Aortic stenosis and increased pressure load on L ventricle

Question 10

Any kind of abnormal valve can be predisposed to developing what infection?

Answer 10

Endocarditis

Question 11

What is the most common cause of aortic stenosis?

Answer 11

Calcific aortic degeneration

Question 12

What happens in calcific aortic degeneration?

Answer 12

Dystrophic calcification - deposition of calcium at sites of cell injury and necrosis

Question 13

Discuss the development of calcific aortic stenosis.

Answer 13

Over time, calcified masses develop within aortic cusps. This prevents the cusp from opening, which obstructs outflow, increases pressure gradient across the valve, and leads to concentric LVH development.

Question 14

What are the symptoms of calcific aortic stenosis?

Answer 14

Congestive heart failure, angina due to myocardial ischemia, and syncope

Question 15

What happens in mitral valve prolapse?

Answer 15

Mitral valve leaflets are enlarged, redundant, and floppy; they balloon into the atrium during systole. This can injure the atrium.

Question 16

What can be seen histologically in mitral valve prolapse?

Answer 16

Expansion of the spongiosa via deposition of myxomatous (mucoid) material; this makes the valve more floppy.

Question 17

What is the pathogenesis of mitral valve prolapse?

Answer 17

Unknown; some patients have a developmental defect of connective tissue (Marfan Syndrome), but not all patients

Question 18

Describe the epidemiology of mitral valve prolapse.

Answer 18

Occurs in 3% of the population, particularly in young women

Question 19

What are the symptoms of mitral valve prolapse?

Answer 19

Majority are asymptomatic, midsystolic click (snapping of chorda tendinae); minority of patients have non-specific symptoms such as chest pain, dyspnea, fatigue, depression, and anxiety

Question 20

What are the rare, serious complications of mitral valve prolapse seen in 3% of patients?

Answer 20

1. Infective endocarditis
2. Mitral insufficiency (regurgitation)
3. Stroke/systemic infarction (due to embolism of thrombi formed in atria due to ballooning)
4. Arrhythmia

Question 21

What is infective endocarditis?

Answer 21

Destructive inflammation of cardiac valves and endocardium caused by infection (most commonly bacterial)

Question 22

What is a hallmark of infective endocarditis?

Answer 22

Vegetation

Question 23

What is vegetation?

Answer 23

Warty excrescences on the valves of the heart composed of various tissue elements including fibrin and collagen

Question 24

Describe the vegetations of infective endocarditis.

Answer 24

1. Composed of thrombotic debris, fibrin, inflammatory cells, microorganisms
2. Large and bulky
3. Destructive and erosive
4. Friable, apt to embolize

Question 25

What are the two types of infective endocarditis?

Answer 25

1. Acute

2. Subacute

Question 26

Describe acute infective endocarditis.

Answer 26

Involves highly virulent microorganisms (classically S. aureus), usually involves a previously normal valve with rapid, severe destruction; patients present as very sick (50% mortality)

Question 27

Describe subacute infective endocarditis.

Answer 27

Involves low virulence organisms (classically S. viridans), usually involves a previously deformed valve, recovery with appropriate treatment

Question 28

Who is at risk for infective endocarditis?

Answer 28

Patients with valvular disease and prosthetic valves, immune deficient patients, patients with diabetes, people who use IV drugs, people with alcohol use disorder

Question 29

What are portals of entry for infective endocarditis?

Answer 29

1. Injection of contaminated material into bloodstream
2. Infections elsewhere (bacteremia, goes to heart)
3. Dental or surgical procedures with bacteremia
4. Occult source (gut, oral cavity, trivial injury)

Question 30

How do we diagnose infective endocarditis?

Answer 30

1. Clinical suspicion
2. Blood cultures (infection)
3. Echocardiogram (can see vegetation)

Question 31

What are the cardiac complications of infective endocarditis?

Answer 31

Valve insufficiency, abscess, and injury to prosthetic valves

Question 32

What are the other complications of infective endocarditis?

Answer 32

Emboli (brain, kidney, spleen, lungs)

Glomerulonephritis (immune complex depositions)

Question 33

How is infective endocarditis treated?

Answer 33

IV antibiotics (prolonged course), surgery sometimes; can give antibiotics prophylactically to those at high risk

Question 34

What diseases involve non-infected vegetations?

Answer 34

1. Acute rheumatic fever
2. Endocarditis of systemic lupus erythematosus (Liebman-Sacks endocarditis)
3. Nonbacterial thrombic endocarditis (marantic endocarditis)

Question 35

What is Rheumatic fever?

Answer 35

A disease that occurs a few weeks after Group A streptococcal pharyngitis; it has acute systemic manifestations and can develop into chronic rheumatic heart valve disease

Question 36

What is the pathogenesis of acute rheumatic fever?

Answer 36

Patients have an immune response to GAS which cross-react with host tissues; Ab directed against M proteins of strep cross-react with self-antigens in the heart. CD4+ T cells specific for strep peptides react with cardiac self proteins. This produces cytokines to activate macrophages.

Question 37

What are the major manifestations of acute rheumatic fever?

Answer 37

1. Migratory polyarthritis (large joints)
2. Carditis
3. Subcutaneous nodules
4. Erythema marginatum of skin
5. Sydenham chorea (involuntary purposeless, rapid movements - St. Vitus’ danse)

Question 38

What are the minor manifestations of acute rheumatic fever?

Answer 38

Fever, arthralgia, elevated acute-phase reactants

Question 39

What are the Jones Criteria for acute rheumatic fever?

Answer 39

Preceding GAS infection + 2 major manifestations or 1 major + 2 minor manifestations

Question 40

What is pancarditis?

Answer 40

Inflammation of all three parts of the heart (pericarditis, myocarditis, endocarditis)

Question 41

Describe the vegetations of rheumatic fever endocarditis grossly and histologically.

Answer 41

Gross: tiny little vegetations on the heart valves (typically mitral, L side)

Histology: Aschoff bodies (T cells, plasma cells, macrophages, multinucleated giant cells)

Question 42

What is the special name for macrophages in Aschoff bodies?

Answer 42

Antischkow cells/caterpillar cells

Question 43

After the formation of Aschoff bodies, what happens next?

Answer 43

Inflammatory injury to the valve, fibrosis during healing, deformation of the normal leaflet structure; this induces turbulence, which leads to further injury and additional fibrosis

Question 44

What can happen years after rheumatic fever?

Answer 44

Chronic rheumatic valvular disease

Question 45

What are the hallmarks of chronic rheumatic valvular disease?

Answer 45

Fibrosis of valve leaflets, fusion of leaflets (fish mouth stenosis), thickening of chordae tendinae

Question 46

Which valve is most commonly involved in chronic rheumatic valvular heart disease?

Answer 46

Mitral valve (65-70%)

Aortic and mitral valves - 25%

Triscuspid/pulmonary - rare

Question 47

Describe the vegetations seen in Libman-Sacks endocarditis (SLE).

Answer 47

Small, sterile, found on mitral and tricuspid valves and chords; caused by immune complex deposition, leads to valvulitis, fibrosis, deformity

Question 48

Describe the vegetations seen in non-bacterial thrombotic endocarditis (marantic endocarditis)

Answer 48

Small, non-destructive, loosely attached, sterile thrombi

Question 49

What type of patients get marantic endocarditis?

Answer 49

Patients who are very sick and wasting away; they are in a hypercoagulable state due to sepsis, cancer, burns, indwelling catheters

Question 50

What happens in marantic endocarditis?

Answer 50

The vegetations have little effect on the valve itself, but can embolize and cause infarctions. They can also serve as a nidus for bacterial colonization, leading to infective endocarditis.

Question 51

___ occurs in people who are ill and hypercoagulable.

Answer 51

Nonbacterial thrombotic endocarditis

Question 52

___ incidence increases with age.

Answer 52

Calcific aortic stenosis

Question 53

___ is a result of post-inflammatory scarring.

Answer 53

Chronic rheumatic valve disease

Question 54

___ develops earlier with bicuspid aortic valve.

Answer 54

Calcific aortic stenosis

Question 55

Embolization is the most important complication of ___.

Answer 55

Nonbacterial thrombotic endocarditis

Question 56

What is a myxoma?

Answer 56

Most common primary benign tumor of the heart in adults

Question 57

The myxoma involves which part of the heart in 90% of cases?

Answer 57

Atria (L&raquo_space; R)

Question 58

Describe a myxoma grossly and histologically.

Answer 58

Gross: mucoid, gelatinous

Histology: mucopolysaccharide, various other types of cells

Question 59

How does myxoma present?

Answer 59

Ball-valve obstruction can block the flow of blood, particularly in a position-dependent fashion; fever and malaise (IL-6), embolization