Chapter 10

Question 1

Answer 1

acute myocarditis

Question 2

Answer 2

Chronic, hypersensitivity myocarditis

Multinucleate giant cells

Question 3

Answer 3

Atrial septal defect

L to R

Question 4

Answer 4

Patent ductus arteriosus

L to R

Question 5

Answer 5

Ventricular Septal Defect

42%

L to R

Question 6

Answer 6

myxoma

Question 7

Answer 7

rheumatic valvular disease

Question 8

Answer 8

calcific aortic stenosis

Question 9

Answer 9

scarlet fever

Question 10

what are the two leading causes of death in the US?

Answer 10

1. heart disease
2. cancer

Question 11

what’s the MC mechanism of heart disease?

Answer 11

contractile (pump) failure

Question 12

Why, when a patient has heart failure/CHF, can they not meet tissue demands?

Answer 12

1. decreased cardiac output (MC)
2. increased tissue demands (hyperthyroidism, severe anemia, fistula – ‘high-output failure’)

Question 13

what dysfunctions cause decreased cardiac output?

Answer 13

1. systolic dysfunction: weak contraction
2. Diastolic dysfunction: failure of relaxation/filling; females
3. valvular dysfunction: stenosis, endocarditis

Question 14

what are the risks for systolic dysfunction?

Answer 14

CAD, systemic HTN, decreased pH

Question 15

what are the risks for diastolic dysfunction?

Answer 15

Females

myocardial fibrosis, amyloidosis, left-sided hypertrophy, pericardial tamponade

Question 16

what is forward failure? backward failure? are they typically found together or separate? what organs do they affect?

Answer 16

forward: insufficient output = hypoxia
backward: venous congestion – increased venous volume/pressure

forward failure is almost always combined with backward failure – affects virtually every organ

Question 17

what are 3 adaptations that occur with the heart?

Answer 17

1. Frank-Starling mechanism
2. Neurohumoral mechanisms
3. Cardiac hypertorphy

Question 18

what is the Frank-Starling mechanism?

Answer 18

increased ventricular stretch = stronger contraction

benefit: increased output
cost: increased O₂ , increased tension

compensated heart failure

Question 19

what are neurohumoral mechanisms of heart adapation?

Answer 19

NE: increased heart rate, increased contractility, R-A-A system (increase BP)

ANP: vasodilation (balances NE)

Question 20

Why does cardiac hypertrophy occur?

Answer 20

when the heart gets overloaded.

can be physiological or pathological

increases O₂ consumption

Question 21

what are the symptoms of left sided heart failure? right sided?

Answer 21

left sided: short of breath, fatigue

right sided: edema in legs (pitting edema) and liver failure

Question 22

what is the ‘good’ type of cardiac hypertrophy? the ‘bad’ type? How can you tell the difference?

Answer 22

good: eccentric hypertrophy
bad: concentric hypertrophy

can tell the difference by looking at the ratio of wall to chamber size

Question 23

what causes left-sided heart failure?

Answer 23

IHD (CAD), HTN, valve disorders (mitral & aortic), primary myocardial disease

Question 24

once the left ventricle hypertrophies, what else in the heart can dilate? which causes what?

Answer 24

the left atria– atria fibrillation atrial thrombi (stroke)

Question 25

what are symptoms of left sided heart failure?

Answer 25

pulmonary edema

dyspnea

rales (cracking in lungs)

orthopnea (drowning when lying down)

cough

tachycardia

Question 26

what is right sided heart failure most commonly caused by?

Answer 26

left sided heart failure

Question 27

what is cor pulmonale?

Answer 27

only right sided heart failure

happens following pulmonary HTN

Question 28

how common is congenital heart disease? what increases the risk?

Answer 28

30% of birth defects

prematurity increases risks

Question 29

What opening is present at birth that connects the right and left atrium?

Answer 29

foramen ovale

Question 30

what opening is present at birth that connects the left pulmonary artery and the aorta?

Answer 30

ductus arteriosus

Question 31

What is known to cause congenital heart disease?

Answer 31

1. genetic: trisomies (13, 18, 21), polygenic
2. Environment: teratogens, maternal diabetes, infxn
3. 90% are idiopathic–> septal defects make up over half of the cases, MC is ventricular septal defects

Question 32

What happens with right-to-left shunts? what causes it?

Answer 32

blood bypasses the lungs

cyanosis

causes: tetralogy of Fallot (MC) & transposition of great arteries

Question 33

What happens with left-to-right shunts? what are examples of them?

Answer 33

pulmonary HTN

caused by ASD, VSD & PDA

Question 34

What are examples of obstruction of flow congenital heart disease?

Answer 34

valvular stenosis and aortic coarctation (narrowing)

Question 35

Details about atrial septal defects

Answer 35

left-to-right shunt

MC asymptomatic until adulthood

rare spontaneous closure

10% of malformations

Question 36

details about ventricular septal defects

Answer 36

MC structural abnormality – 42%

Left-to-right shunt

may spontaneously close

only 20-30% in isolation

Question 37

Details about patent ductus arteriosus

Answer 37

left-to-right shunt

90% isolated

7% of malformations

Question 38

What is the most common CHD to cause cyanosis?

Answer 38

Tetralogy of fallot –>bypasses the lungs

Question 39

What defects cause Tetralogy of Fallot?

Answer 39

1. Ventricular septal defects
2. Right ventricular outflow obstruction (subpulmonic valve stenosis)
3. Overriding aorta (over VSD) –> between ventricles, right ventricle to aorta (right to left shunt)
4. right ventricular hypertrophy

Question 40

What causes a ‘boot-shaped’ heart?

Answer 40

tetralogy of fallot

Question 41

What changes occur with transposition of the great arteries?

Answer 41

arteries connect to wrong ventricles

right ventricle –> aorta

left ventricle –> pulmonary artery

Question 42

Why is transposition of the great arteries so serious?

Answer 42

it separates pulmonary & systemic circulation

its incomplatible with postnatal life– sunts are required

Question 43

Who is most likely to have aortic coarctation?

Answer 43

males

turner syndrome (45, X)

Question 44

what defect to the aortic valve can occur with aortic coarctation?

Answer 44

>50% also have a bicuspid aortic valve

Question 45

With infantile aortic coarctation, where does it occur? adult?

Answer 45

infantile: proximal to a PDA
adult: infolding near the ligamentum arteriosum, MC asymptomatic

Question 46

features of aortic coarctation

Answer 46

upper extremity HTN

weak LE pulses

LE vascular claudication & cyanosis

systolic murmurs/thrills

Question 47

with ischemic heart disease, what happens to the myocytes? how long until dysfunction? necrosis?

Answer 47

the cardiac myocytes use oxidative phosphorylation

dysfunction: 1-2 minutes
necrosis: 20-40 minutes

Question 48

What disease makes up 90% of IHD? What else can cause IHD less commonly?

Answer 48

coronary artery disease – atheromas thromboemboli, vasospasm

also caused by increased tissue demand, decreased BV or hypoxia

Question 49

What is the leading cause of death in the US, specifically?

Answer 49

Ischemic Heart Disease – CAD, pneumonia, CO poisoning, A-V fistula

Question 50

What are cardiac syndromes the result of?

Answer 50

Myocardial ischemia

Question 51

What are the forms of acute coronary syndrome?

Answer 51

angina pectoris– chest pain; ischemia but NO cellular death

acute myocardial infarction (M.I.)

Chronic IHD –> CHF

sudden cardiac death (SCD)

Question 52

Angina pectoris means how much occlusion? Unstable angina?

Answer 52

Angina pectoris: >70% occluded –> critical stenosis

unstable angina: > or equal to 90% occluded

Question 53

What is the process of ischemic heart disease?

Answer 53

1. inflammation – atherosclerosis, abrupt plaque changes
2. Thrombosis – associated with ACS, sudden coronary artery occlusion
3. Vasoconstriction– decreased arterial lumen, may rupture plaques –>risks: increase SNS, inflammation, endothelial dysfunction

Question 54

What do people describe as having ‘an elephant on their chest’?

Answer 54

angina pectoris

sub-sternal chest pain: crushing & squeezing

referred: jaw, left arm, back, shoulders

Question 55

Stable vs. variant angina vs. Unstable

Answer 55

stable: aka typical, episodic, exertional, relieved by rest and vasodilators
variant: aka Prinzmetal, vasospasm at REST, responds to vasodilators
unstable: aka crescendo/pre-infarction angina, increased frequency, intensity and duration; provoked by **decreased exertion, **90% occlusion

Question 56

cause of unstable angina

Answer 56

plaque disruption

thrombosis

embolization

vasospasm

Question 57

Angina pectoris in females

Answer 57

may have NO angina

dyspnea, unexplained fatigue

lower chest discomfort/pressure

back pain

nausea, dizziness

may mistake for an upset somach

Question 58

what’s another name for heart attack?

Answer 58

myocardial infarction

Question 59

what is the mc cause of MI?

Answer 59

90% cause by acute coronary artery thrombosis

pre-existing atheroma: rupture –> vasospasm & coagulation –> rapid/severe obstruction

Question 60

T/F: Myocardial infarctions cause rapid death and loss of contractility

Answer 60

F: MI cause rapid DYSFUNCTION and loss of contractility

Question 61

what are the risks for MI?

Answer 61

males

PM females

age

HTN

smoking

diabetes

sickle cell disease

amyloidosis

CHF (stasis)

Question 62

What is the most common cause of sudden cardiac death?

Answer 62

Ventricular fibrillation (80-90%)

Question 63

T/F: MI can cause arrhythmias

Answer 63

T: it can lead to coronary artery ischemia and cause electrical instability which can lead to ventricular fibrillation

Question 64

Reperfusion with myocardial infarction: how is it done? what does it cause?

Answer 64

Artifically done by thrombolytic meds, angioplasty and bypass

causes ROS, hemorrhage and endothelial swelling –> blocks capillaries, temporarily ‘stunned’ myocardium

may need temporary pump assistance

Question 65

What is special about the angina associated with Myocardial Infarction?

Answer 65

Unrelieved by nitroglycerine

Question 66

How are Myocardial infarctions diagnosed in the laboratory?

Answer 66

CK-MB and troponins

Question 67

after a myocardial infarction, what happens to the viable myocarium left? to the functioning of the heart?

Answer 67

it is overloaded

hypertrophy and dilation occurs which leads to failure

walls may rupture

contractile dysfunction – arrhythmia, CHF, cardiogenic shock

general pericarditis

Question 68

prognosis of M.I.

Answer 68

poor

2nd MI

arrhythmia (SCD)

CHF

Question 69

What is sudden cardiac death?

Answer 69

sustained arrhythmia

lethal arrhythmia: MC involves left ventricle

sudden unexpected death

no symptoms in previous 24 hours

typically caused by Ventricular fibrillation (MC) or asystole

Question 70

Commotio cordis

Answer 70

blow to sternal region disrupts heart rhythm

Adolescent males: avg 15 years

Question 71

What happens to the heart with hypertensive heart disease?

Answer 71

the heart hypertrophies to meet increased cardiac demands, the ventricles dilate

metabolic demand increases with no increase in blood supply to compensate

cardiac decompensation (CHF) –> eventual loss of contractility

Question 72

systemic hypertensive heart disease causes what other heart disease?

Answer 72

left sided heart disease, left ventricular hypertrophy

Question 73

what can help decrease the risks of systemic hypertensive heart disease?

Answer 73

blood pressure management– hypertrophy is reversible

Question 74

how does pulmonary hypertension affect the heart?

Answer 74

causes right sided heart failure – cor pulmonale

right ventricle hypertrophy and early dilation

Question 75

what can cause pulmonary hypertensive heart disease?

Answer 75

pulmonary fibrosis

cystic fibrosis

PE

kyphoscoliosis

Question 76

what causes acute pulmonary hypertensive heart disease?

what causes chronic pulmonary hypertensive heart disease?

Answer 76

acute: large pulmonary embolism; >50% occlusion
chronic: prolonged COPD or pulmonary fibrosis, right sided hypertrophy

Question 77

what are 2 types of valvular heart disease?

Answer 77

1. stenosis
2. insufficiency

Question 78

What causes stenosis? what is MC affected?

Answer 78

calcification and scarring

chronic

mitral valve is MC

Question 79

What causes insufficiency?

Answer 79

valvular destruction

abnormal suportive structures

Question 80

What is a murmur?

Answer 80

turbulent flow through diseased valve

Thrill: turbulence –> palpable vibration

Question 81

what is the MC cause of aortic valve stenosis?

Answer 81

calcific aortic stenosis

Question 82

what population does calcific aortic stenosis commonly occur in? what accelerates it? what condition changes the age group?

Answer 82

older adults –> 60-80 years old because of wear and tear

accelerated by HTN and inflammation

having a bicuspid aortic valve makes it occur earlier– 40-50 years

Question 83

rheumatic valvular disease is caused by what? when does it occur (time period)?

Answer 83

group A beta-hemolytic streptococcal pharyngitis

occurs 2-3 weeks post infection

Question 84

what is the most common sign in children with rheumatic valvular disease?

what is the most common sign in adults with rheumatic valvular disease?

what’s a general symptom of rheumatic valvular disease?

Answer 84

carditis

migratory polyarthritis

Sydenham’s chorea

Question 85

when is rheumatic valvular disease most commonly diagnosed?

Answer 85

between 5-15 years old

Question 86

What is the only acquired cause of mitral stenosis?

Answer 86

Rheumatic valvular disease

Question 87

What is pancarditis?

Answer 87

rheumatic heart disease

Question 88

what are aschoff bodies? where are they most commonly found?

Answer 88

nodules around the heart valve

found with acute pancarditis

MC found in the mitral valve

Question 89

what changes, of the heart specifically, occur with rheumatic valvular disease?

Answer 89

aschoff bodies (acute)

fibrosis (chronic)

fibrinoid necrosis of valve(s)

possible arrhythmias

Question 90

what causes scarlet fever? what is it a rxn to? where does the infxn occur?

Answer 90

Group A beta-hemolytic strep

it’s a rxn to erythrogenic toxins

infection is pharyngeal and cutaneous

1-4 days

Question 91

What is the hallmark of scarlet fever?

Answer 91

pink punctate skin rash

circumoral pallor rash on face

strawberry tongue

Question 92

What condition can scarlet fever transition into?

Answer 92

rheumatic fever

Question 93

infective endocarditis causes what?

Answer 93

infection of hear chambers or valves

bacteremia (MC)

Question 94

what are the symptoms of infective endocarditis?

Answer 94

flu-like symptoms: pyrexia, chills, fatigue, weight loss, murmur

or lethal: arrhythmia or renal failure

Question 95

which is easier to treat: acute or subacute infective endocarditis? why?

Answer 95

subacute has low virulence and is easier to treat –> present in previously abnormal tissue

acute is destructive, virulent and difficult to treat –>present in previously normal valve

Question 96

why are prosthetic cardiac valves used?

Answer 96

used as an intervention for valve disease

types:

1. Mechanical (MC) –anti-coagulative
2. Bioprosthetic– not anti-coagulative

Question 97

cardiomyopathy are mostly caused by:

Answer 97

they’re idiopathic, with genetic risks

Question 98

what is the most common type of cardiomyopathy? least common type?

Answer 98

MC: Dilated

LC: restrictive

Question 99

What physiologically happens with dilated cardiomyopathy?

Answer 99

1. progressive dilation of all chambers
2. systolic dysfunction: dyspnea, fatigue

Question 100

What condition mimics progressive CHF?

what are the risks for the answer above?

age group?

Answer 100

dilated cardiomyopathy

risks: genetics, viral infections, alcohol

20-50 years old

Question 101

What conditions can occur with dilated cardiomyopathy?

Answer 101

1. mitral regurgitation
2. Arrhythmia
3. Thromboemboli

Question 102

Which cardiomyopathy is genetic?

Answer 102

Hypertrophic cardiomyopathy, beta-myosin mutation

Question 103

What are the signs of hypertrophic cardiomyopathy?

Answer 103

1. Hyper-contractile sarcomeres
2. Massive Left ventricular hypertrophy
3. Diastolic dysfunction
4. decreased stroke volume/CO

Question 104

What condition has asymmetrical septal hypertrophy?

Answer 104

hypertrophic cardiomyopathy

ventricular septum > ventricular wall

Question 105

With hypertrophic cardiomyopathy, what does the heart ventricle look like?

When does it typically occur?

Answer 105

elongated –> ‘banana like’

after puberty–> growth spurt

Question 106

What causes 1/3 of SCD among younger athletes?

Answer 106

Hypertrophic cardiomyopathy –> V-fib

Question 107

What are the symptoms of restrictive cardiomyopathy?

Answer 107

interstitial fibrosis: stiff myocardium

dyastolic dysfunction = decreased filling

45-90% ejection fraction

Question 108

What can cause restrictive cardiomyopathy? who’s at most risk for each cause?

Answer 108

1. Amyloidosis: senile cardiac amyloidosis –>african americans
2. Endomyocardial fibrosis: fibrosis of the ventricular endocardium, pediatrics/young adults in Africa
3. Etc: irradiation, idiopathic

Question 109

What is the MC cause of myocarditis in the USA?

Answer 109

viral infection: coxsackievirus A & B, HIV, CMV and influenza

Question 110

What very serious condition does myocarditis cause?

Answer 110

arrhythmia/SCD

Question 111

Histology wise, what is the difference between acute and chronic/hypersensitivity myocarditis?

Answer 111

Chronic/Hypersensitivity myocarditis has multinucleate giant cells

Question 112

Which is more common, acute or chronic/hypersensitivity myocarditis?

Answer 112

Acute

Question 113

What is pericarditis? What causes primary pericarditis? Secondary?

Answer 113

pericarditis is pericardial inflammation

Primary: infection – viral (MC), bacterial, fungal

Secondary: MI, surgery, irradiation, rheumatic fever, SLE, CA

Question 114

what can severe pericarditis cause? What causes constrictive pericarditis?

Answer 114

cardiac tamponade- pericardial compression (decreased filling)

fibrosis causes constrictive pericarditis

Question 115

What type of inflammation occurs with pericarditis? what does that mean?

Answer 115

Fibrinous inflammation– severe increased permeability allows fibrin out of circulation

Question 116

T/F: MC metastasis to the heart is the MC cardiac neoplasm

Answer 116

True

Question 117

Cancer from where most commonly mets to heart?

Answer 117

Lung

Question 118

most common primary cardiac neoplasm?

Answer 118

Myxoma

Question 119

primary cardiac neoplasm of children

Answer 119

rhabdomyomas

Question 120

what is the MC primary malignant cardiac tumor?

Answer 120

Angiosarcoma

Question 121

where are Myxomas MC found?

what valve does it MC interfere with?

Answer 121

MC found on/near fossa ovalis (left atrium)

‘wrecking ball’ that interferes with MITRAL valve

Question 122

What is the MC long-term limitation of cardiac transplantation?

Answer 122

Allograft arteriopathy– silent MI