Cardiovascular Path 2

Question 1

What are 4 features that make a fibrous plaque unstable?

Answer 1

• thin fibrous wall
• lots of inflammatory cells in the plaque
• more lipid than fibrous tissue
• spasm of the coronary artery on top of narrowing

Question 2

What are the three types of angina pectoris?

Answer 2

• stable
• prinzmetal (variant)
• unstable (crescendo)

Question 3

Which type of angina is associated with increased demand (physical activity, emotional excitement, stress, etc)

Answer 3

Stable (typical) angina

Question 4

How do patients with stable angina relieve their pain?

Answer 4

Rest and vasodilators

Question 5

What type of angina can occur at rest?

Answer 5

Prinzmetal (variant) and unstable (crescendo)

Question 6

Which angina occurs at rest and awakens the patient from sleep?

Answer 6

Prinzmetal (variant)

Question 7

What angina is associated with a ST elevation on ECG, indicative of ___________

Answer 7

Prinzmetal;

Transmural ischemia

Question 8

_______ angina occurs due to coronary artery spasm producing a transient squeezing chest pain

Answer 8

Variant/prinzmetal

Question 9

What is the mechanism of unstable angina?

Answer 9

Disruption of the plaque with superimposed thrombosis and possibly vasospasm

Question 10

Patient has chest pain that has been getting worse and occurring more frequently with doing less and less effort and lasts a long time. What kind of angina is this?

Answer 10

Unstable

Question 11

Which angina is the pre infarction angina?

Answer 11

Unstable

Question 12

What is the major issue in variant/prinzmetal angina?

Answer 12

Coronary spasm; not necessarily due to coronary artery narrowing

Question 13

What are the 4 major predisposing factors to MI?

Answer 13

• hypercholesterolemia
• smoking
• HTN
• Diabetes mellitus

Question 14

Irreversible cell injury in MI occurs after ________

Answer 14

20 mins (coagulative necrosis)

Question 15

What kind of MI is associated with cocaine abuse?

Answer 15

Transmural infarction (STEMI)

Question 16

Which layer of the heart is the one that is the most susceptible to hypoxia?

Answer 16

Subendocardium because it is the farthest from the blood supply

Question 17

In cases of global hypoxia such as shock, what layer of the ventricular wall is affected?

Answer 17

Only the subendocardium = (NSTEMI)

Question 18

STEMI is associated with acute plaque changes and ________ thrombosis

Answer 18

Acute plaque changes and super imposed completely occlusive thrombosis

Question 19

Describe the infarction you see in an NSTEMI?

Answer 19

Subendocardial infarction that is limited to the inner 1/3 of the ventricular wall

Question 20

NSTEMI is associated with _________ or prolonged hypertension/hypotension

Answer 20

Diffuse stenosis coronary atherosclerosis or prolonged HYPOTENSION

Question 21

What are the three different types of infarcts you can see in non transmural infarcts?

Answer 21

• regional subendocardial: transient/partial obstruction
• circumferential subendocardial infarct : global hypotension
• microinfarcts: small intramural vessel occlusions

Question 22

4 major sequence of events of MI

Answer 22

Coagulative necrosis → inflammation → granulation tissue → collagen rich scar tissue

Question 23

How long after an MI would you need to see gross changes to the heart indicative of an MI?

Answer 23

At least 4 hours (dark mottling on gross and early coagulation necrosis on histology)

Question 24

When is the mycarodium (ventricles) the most vulnerable to rupture after an MI?

Answer 24

3-10 days after an MI because all the myocardium in the area is dead and there is no replacement of fibrous tissue

Question 25

At what time frame is a patient most susceptible to developing cardiac tamponade after an MI?

Answer 25

3-10 days which is when the ventricles are the most susceptible to rupture

Question 26

Maximum softening (no myocytes/no collagen) occurs _________ days after an MI

Answer 26

7-10

Question 27

How long does it take for scarring to be complete after an MI

Answer 27

2 months

Question 28

When can you see wavy fibers on cardiac myocytes histology after an MI?

Answer 28

4 hours;

Question 29

reperfusion following an MI is achieved by:

Answer 29

• thromboylysis by using enzymes like streptokinase or tissue plasminogen activator
• angioplasty

Question 30

High extracellular calcium and impaired calcium cycling leads to myocyte __________ leading to cytoskeletal damage

Answer 30

Hypercontracture;

Calcium causes the tropomyosin to move and so the myosin can bind to the actin and then cause contraction. However because in an MI, there is no more ATP left, that actin/myosin bond cannot be released → hypercontraction

Question 31

Name 4 mechanisms of reperfusion injury following an MI

Answer 31

• mitochondrial dysfunction → apoptosis
• cytoskeletal damage due to myocyte hypercontraction
• free radical damage
• leukocyte aggregation and platelet activation

Question 32

What is a classical sign of reperfusion injury on histology?

Answer 32

Contraction band necrosis; due to the high calcium levels from the restored blood flow that enters the ischemic myocytes. What you see is the actin myosin interaction in the absence of ATP → sarcomeres stuck in agonal tetanic state

Question 33

Following an MI, the ______ of the myocyte falls to near 0 VERY QUICKLY while the _____ of the myocyte falls after 20 mins and not as precipitously

Answer 33

Fucntion; viability

Question 34

What is the effect of reperfusion after an MI on the viability and fucntion of the myocyte?

Answer 34

Viability: does not go any Lower (also does not make it go higher)

Function: increases function

Question 35

What features of chest pain see in an MI makes it different from that seen in angina?

Answer 35

• the pain is persistent and longer than 30 mins (unlike angina)
• pain is not relieved by vasodilators or rest

Question 36

Define angina pectoris

Answer 36

• intermittent chest pain or discomfort due to transient, reversible myocardial ischemia but not quite infarction

Question 37

Describe the pulse seen in someone suffering from an MI?

Answer 37

Rapid, weak pulse

Question 38

What kind of patients can undergo an painless MI (silent MI)

Answer 38

• diabetics

- patients who have undergo an cardiac transplant

Question 39

Th most common cause of sudden cardiac death is _______

Answer 39

Arrhythmias

Question 40

Factors that can cause arrhythmia following an MI

Answer 40

• myocardial irritability and conduction disturbances
• electrolyte imbalance
• hypoxia

Question 41

Ventricular aneurysm is a complication of _________ infarcts after ______ days post MI

Answer 41

Transmural; after 2 weeks - months (true ventricular aneurysm)

Question 42

Acute fibrinous/fibrinohemorrhagic pericarditis is a likely compilation _________ days after an MI

Answer 42

2-3 days

Question 43

Acute fibrinous/fibrinohemorrhagic pericarditis is due to ________________ in transmural infarcts

Answer 43

Direct irritation of pericardium; 2-3 days after MI

Question 44

What is the pathogenesis of autoimmune pericarditis aka _____________ and when is the highest risk of developing it post MI

Answer 44

Dressler’s Syndrome

Autoantibodies that target damaged pericardial antigens

10-14 days following an MI

Question 45

Complication for what kind of pericarditis occurs 10-14 days post MI?

Answer 45

Autoimmune/ Dressler’s Syndrome

Question 46

T wave depression may be seen in _______ infarct causing MI

Answer 46

Subendocardial

Question 47

What is the most specific marker for cardiac injury?

Answer 47

Troponin I and T; not usually detectable in circulation but rises in 3-12 hours and peaks at 48 hours and persists for 5-14 days

Question 48

________ levels post cardiac injury peaks after 48 hours

Answer 48

Troponin I and T

Question 49

________ marker of cardiac injury is useful in detecting reinfarction

Answer 49

CK-MB (CK MB is the most specific creatine kinase isoenzymes for the heart)

Question 50

Which cardiac injury marker cannot be used after 3 days post MI?

Answer 50

CK - MB:
Rises: 3-12 hours
Peaks: 24 hours
Disappears: 72 hours

Question 51

_______ rises in 24 hours and peaks at 3-6 days and returns to normal levels after 8-12 days

Answer 51

LDH

Question 52

When do the levels of Tropinin I and T rise, peak, and disappear

Answer 52

Rise: 3-12 hours
Peaks 48 hours
Persists for 5-14 days

Question 53

What is the first biomarker to rise after an MI?

Answer 53

Myoglobin (1-4 hours) but it is non specific to the heart

Question 54

When do the levels of CK MB rise, peak and disappear?

Answer 54

Rise: 3-12 hours
Peak: 24 hours
Disappear: 72 hours

Question 55

When do the levels of LDH rise, peak and disappear following cardiac injury?

Answer 55

Rises: 24 hours
Peaks: 3-6 days
Returns to baseline: 8-12 days

Question 56

Diffuse subendocardial vacuolization aka ___________ is a histological finding in what cardiac disease?

Answer 56

Myocytolysis; seen in chronic ischemic heart disease