3.3.2. Cardiac Pathology Part 1: Ischemic, CHF, Congenital Defects

Question 1

Ischemic heart disease is usually due to what?

Answer 1

Atherosclerosis of coronary arteries

Question 2

What is stable angina?

Answer 2

Get angina with stress or activity

Question 3

Why in stable angina do we not always have pain?

Answer 3

It’s mild decreased blood flow in the coronary artery, but when we exercise and need more blood to the heart tissue, we can’t get it, it gets a little ischemic, and we feel pain

Question 4

In Stable Angina, it is due to atherosclerosis of coronary arteries with ____ ____.

Answer 4

> 70% stenosis

Question 5

What type of injury is stable angina?

Answer 5

It is reversible!

Question 6

in Stable Angina, the cells don’t die, hence it being reversible. However, they do do this…

Answer 6

Get bigger

Question 7

Presentation of Stable Angina

Answer 7

1. CP < 20 minutes that radiates to left arm or jaw
2. Diaphoresis
3. SOB

Question 8

What EKG finding do we get with Stable Angina? Why?

Answer 8

ST Depression due to subendocardial ischemia

Question 9

Why is the damage caused by Stable Angina subendocardial?

Answer 9

Coronary arteries feed epicardium to endocardium, so if there is a blockage, the most affected portion will be the latest, which typically happens just below the endocardium, or, subendocardial.

Question 10

Treatment for Stable Angina?

Answer 10

Rest or NTG

Question 11

What is unstable angina?

Answer 11

Pain even at rest due to a rupture of an artherosclerotic plaque with thrombosis and incomplete occlusion of the coronary artery.

Question 12

How is reversibility different between stable and unstable angina?

Answer 12

It’s not both irreversible

Question 13

What is an important note about the occlusion in unstable angina?

Answer 13

It is incomplete occlusion

Question 14

EKG and treatment for unstable angina

Answer 14

NTG, EKG shows ST depression

Question 15

For unstable angina we have a high risk for ____.

Answer 15

MI

Question 16

Prinzmetal angina is what?

Answer 16

Vasospasm of the coronary artery

Question 17

What is different about prinzmetal angina from stable and unstable angina?

Answer 17

Prinzmetal is complete and random occlusion, so the chest pain is still episodic, but it is completely unrelated to exertion

Question 18

EKG for prinzmetal angina? Why?

Answer 18

ST elevation because the early part of the coronary artery is clamped in the epicardium, so the blood is lost through the entire vessel whih leads to ST elevation.

Question 19

Treatment for Prinzmetal Angina

Answer 19

NTG and Ca Channel blockers

Question 20

What is a myocardial Infarction?

Answer 20

Necrosis of cardiomyocytes due to a rupture of the atherosclerotic plaque leading to a thrombosis and complete occlusion of the coronary artery

Question 21

How long does it take for the cardiac tissue to turn necrotic?

Answer 21

> 20 minutes

Question 22

How can vasculitis cause an MI?

Answer 22

Inflammed interior wall, coag pathway, thrombus, complete occlusion results.

Question 23

Presentation for MI

Answer 23

1. Severe crushing chest pain > 20 minutes
2. Diaphoresis
3. Dyspnea

Question 24

Effect of NG on an MI

Answer 24

None.

Question 25

Infarction usually involves the _____

Answer 25

Left Ventricle.

Question 26

Most common ischemic location on the heart

Answer 26

On the left ventricle anteriorly running down the anterior descending artery causing infarct to the anterior heart and IV septum

Question 27

If we see infarction on the posterior wall of the Left ventricle and the posterior aspect of the IV septum, what artery is affected?

Answer 27

Right coronary artery

Question 28

Lateral LV infarction indicates what artery being affected?

Answer 28

Left circumflex artery

Question 29

During the initial phase of MI, what damage do we see? EKG?

Answer 29

Subendocardial at first with ST depression and accounting for only about 50% of damage

Question 30

How does the MI progress?

Answer 30

With time, we see full thickness necrosis (transmural) so we’ll see ST elevation

Question 31

Lab tests for MI

Answer 31

• Troponin I

- CKMB

Question 32

Best marker for MI and what does it show?

Answer 32

Troponin I is the most sensitive and specific marker

Occurs 2-4 hours after an infarction and peaks at 24 hours. Returns to normal by 7 - 10 days

Question 33

Besides Troponin I, what can we use? How does it work?

Answer 33

CKMB

• Rises 4 - 6 hours after infarction
• Peaks at 24 hours
• Returns to normal by 72 hours

Question 34

Best treatment for MI and why

Answer 34

• ASA and Heparin to eliminate additional thrombosis

Question 35

Besides ASA and Heparin what else can we treat MIs with?

Answer 35

Oxygen due to ischemia
Nitrates to vasodilate arteries and veins, veins in particular in order to decrease preload on the heart
Beta blockers to slow HR and decrease demand for oxygen and possibility of arrhythmia
ACE inhibitor to decrease left ventricular dilation.

Question 36

ACE inhibitors are good for MIs. What do they do and why is it so great

Answer 36

ACE blocks angiotensin I to Angiotensin II.

Angio II constricts arterioles and also causes fluid retention after stimulating the adrenal glands to make aldosterone

Question 37

More definitive treatments for MI

Answer 37

1. Fibrinolysis

2. Angioplasty

Question 38

Action of fibrinolysis

Answer 38

Destroy the thrombus

Question 39

When blood is restored, it hits now dead heart tissue in MI. What complications does this cause?

Answer 39

1. Contraction Band Necrosis - Calcium returns to dead cell and causes creation of band lines as it causes portions of it to contract.
2. Reperfusion injury - returning oxygen to dead tissue can cause the creation of free radicals which can further injure the myocardium

Question 40

You help your patient who suffered from a MI but noticed that his enzymes were still present beyond the normal time. What happened?

Answer 40

Reperfusion injury!

Question 41

When and what microscopic changes occur after an MI?

Answer 41

<4 hours = nothing

4 - 24 hours = Coagulative Necrosis

1 - 3 days = Neutrophils

4 - 7 days = Macrophages

1 - 3 weeks = Granulation tissue with plump fibroblasts, collagen and blood vessels

Months - Fibrosis

Question 42

When do we see a yellow pallor on the heart?

Answer 42

1 - 7 days s/p an MI

Question 43

When do we see a Dark discoloration on the heart?

Answer 43

4 - 24 hours s/p MI

Question 44

When do we see a white scar on the heart?

Answer 44

Months s/p MI

Question 45

When, s/p and MI, do we see a red border emerge as granulation tissue enters the edge of an infarct?

Answer 45

1 - 3 weeks s/p MI

Question 46

When do MI affected cells lose their nuclei?

Answer 46

4 - 24 hours, during coag necrosis

Question 47

Complications within the first four hours of an MI (3)

Answer 47

Cardiogenic shock (massive infarction) where the heart fails and lack of blood flow to major organs.

You can also get CHF due to a decrease ejection fraction

arrhythmia

Question 48

Complication in the coagulative necrosis stage?

Answer 48

4 - 24 hours

Arrhythmias

Question 49

When the neutrophils arrive s/p an MI, what complications do we face? Why?

Answer 49

Fibrinous pericarditis - presents as chest pain with friction rub.
During these first few days when we are inflamming with neutrophils, some of that inflammation goes to the pericardium and causes pericarditis.

Question 50

When the macrophages arrive s/p an MI, what complications do we face?

Answer 50

Ruptures due to marcophages eating all that bad stuff

1. Rupture of ventricular free wall (could lead to cardiac tamponade)
2. Rupture of IV septum causing shock as blood gets shunted from LV to RV
3. Rupture of papillary muscle, causing the valves to become messed up, causing systolic backflow into the atria

Question 51

If we have papillary muscle issues, what do we know about the MI?

Answer 51

It was caused by a blockage to the right coronary artery (which feeds the papillary muscles)

Question 52

Why does a red border form during granulation?

Answer 52

Blood vessels come from the outside in to heal

Question 53

When the scar formation occurs s/p an MI, what complications are we worried about?

Answer 53

Aneurysm due to a weakened wall

Also a mural thrombus due to a weakened wall.

Dressler Syndrome also possible. MI can cause the pericardium to release antibodies and your immune system to attack the pericardium causing pericarditis 6-8 weeks s/p MI.

Question 54

Moving on to heart failure, what can cause left sided heart failure?

Answer 54

Ischemia
HTN
Dilated cardiomyopathy
MI
Restrictive cardiomyopathy

Question 55

Clinical signs of left sided heart failure will be indicated by what?

Answer 55

Pulmonary congestion - Can’t pump the blood forward, its gonna pump back towards the lung

Question 56

Symptoms of left sided heart failure

Answer 56

1. Pulmonary edema with dyspnea
2. PND
3. Orthopnea
4. Crackles
5. Heart failure cells

Question 57

What are heart failure cells?

Answer 57

Hemosiderin laiden macrophages

Question 58

Decreased forward perfusion caused by left sided heart failure leads to what?

Answer 58

Activation of Renin angiotensin system

Question 59

Most common cause of right sided heart failure?

Answer 59

Left sided failure.

Question 60

Other important causes of right sided heart failure besides left sided heart failure

Answer 60

Left to right shunt and chronic lung disease

Question 61

Cor Polmonale

Answer 61

When your heart fails due to chronic lung disease

Question 62

Clinical features of right cardiac failure

Answer 62

Due to congestion

1. JVD
2. Painful Hepato Splenomegaly that may lead to cardiac cirrhosis
3. Dependent pitting edema

Question 63

Ventricular Septal Defect

Answer 63

Defect in the septum dividing the ventricles

Question 64

VSD associated with what?

Answer 64

Fetal Alcohol syndrome

Question 65

What is the most common congenital heart defect?

Answer 65

VSD

Question 66

Key problem in VSD? Explain timeline.

Answer 66

Blood chooses lower pressure and will go from LV to RV leading into Left Right shunt.

This leads to lung back up as more fluid is coming from the Right side. Eventually the pulmonic pathway will have the highest pressure, and the RV willchoose the lower pressure pathway, the LV, which will send deoxygenated blood back around systemically

This leads to Cyanosis

Question 67

Small vs. large defects from VSD

Answer 67

Small - Asymptomatic

Large - Eisenmenger - RV hypertrophy due to larger pressure gradients, clubbing, etc

Question 68

ASD?

Answer 68

Defect in atrial septa

Question 69

Most common type of ASD?

Answer 69

Ostium secundum

Question 70

What is ostium primum type associated with?

Answer 70

Down Syndrome

Question 71

Heart sound associated with ASD? How?

Answer 71

Split S2

Blood in LA travels to RA, causing it to have more blood, leading to a delay in pulmonic valve closure

Question 72

Paradoxical Embolus

Answer 72

Normally emboli from DVT goes into the RA then RV and into the lungs to cause a Pulmonary Embolus but inASD, it can go from the RA to LA to LV and then anywhere in the body, even the brain.

Question 73

What is Patent Ductus Arteriosus? What is it associated with?

Answer 73

Failure of Ductus Arteriosus to close.This is associated with congenital Rubella

Question 74

Problem with Ductus Arteriosus being active in an adult?

Answer 74

Blood will go from the Aorta back to the pulmonary artery and cause pulmonary HTN, increasing pressure and causing blood to go from the RV to the pulomary artery and then straight to the Aorta which is now a lower pressure.

This will cause deoxygenated blood to circulate, causing cyanosis in the LE only (the DA occurs after the upper extremity pathways, so those are unaffected)

Question 75

Results of Left to Right Shunt between aorta and PA?

Answer 75

• Asymptomatic t birth

- Eisenmerger Syndrome results in lower extremity cyanosis

Question 76

Treatment of Patent DA?

Answer 76

Indomethacin which decreases PGE, which results in PDA closure

Question 77

Problems with Tetralogy of Fallot

Answer 77

1. Stenosis of RV outflow tract
2. Right ventricular hypertrophy
3. VSD
4. Aorta that overrides the VSD

Question 78

Explain what is happening with Tetralogy of Fallot

Answer 78

Stenosis of RV outflow and an enlarged Right Ventricle cause the ventricle to be less efficient. Since these patients also have a VAD with the Aorta taking over, the blood from the RV will go through the Aorta immediately and cause cyanosis

Question 79

Patients learn to ____ in response to cyanotic changes caused by Tetralogy of Fallot

Answer 79

Squat

Question 80

Film study for Tetralogy of Fallot

Answer 80

CXR with heart looking like a boot

Question 81

In transposition of great vessels what happens?

Answer 81

Aorta and Pulmonary Artery switch, but not their end goals, so they just feed their own sided chmbers

Ex. Blood to RA to RV to aorta back to RA

Question 82

How do we treat transposition of great vessels?

Answer 82

Keep the Ductus Arteriosus open with PGE and make a shunt

Question 83

___ ___ is associated with Transposition of Great vessels

Answer 83

Maternal diabetes

Question 84

Presentation of transposition of great vessels

Answer 84

Early cyanosis due to no oxygenated blood in circulation

Question 85

What is happening with Truncus Arteriosus?

Answer 85

Single large vessel arising from both ventricles due to the trunk failing to divide

Question 86

How does Truncus Arteriosus also show signs of early cyanosis?

Answer 86

Deox and ox blood are mixed together and then sent through Aorta or pulmonary.

Question 87

Tricuspid Atresia

Answer 87

Tricuspid valve orifice fails to develop, so blood cannot enter the RV.
- Causes opening to occur between atria (ASD) and causes the right ventricle to become hypoplastic

Question 88

Sign of Tricuspid Atresia?

Answer 88

Early cyanosis

Question 89

What is Coarctation of the Aorta?

Answer 89

Narrowing of the Aorta

Question 90

Child Coarctation of the Aorta

Answer 90

Associated with PDA. Narrowing occurs between the aortic arches and the DA. Blood will flow from the RA to the RV to the pulmonary, through DA and through the rest of the body, giving you LE cyanosis since the DA is after the arches.

Question 91

Infantile Coarctation is associated with ____ ____.

Answer 91

Turner syndrome

Question 92

Adult Coarctation

Answer 92

Not associated with a PDA
Get coarctation after the aortic arch. Causes buildup of blood (HTN) in the upper extremities with lower blood pressure in the LE since the blood cannot get to the LE.

Question 93

Presentation of adult coarctation

Answer 93

HTN in UE and hypotension in LE with weak pulses in LE

Question 94

Adult coarctation associated with ___ ___ ___.

Answer 94

Bicuspid Aortic valve

Question 95

____ ____ develops across intercostal arteries due to Adult coarctation

Answer 95

Collateral circulation

Question 96

Chest x ray of someone with adult coarctation

Answer 96

Engorged arteries cause notching of ribs in xray due to collateral circulation