Ischemic Heart Disease

Question 1

name the ischemic heart disease (IHD) syndromes

Answer 1

• angina pectoris (chest pain)
  
  • stable angina
  • unstable angina
  • prinzmetal angina
• acute MI
• chronic IHD with CHF
• sudden cardiac death (SCD)

Question 2

describe the etiology of IHD

Answer 2

• etiology:
  
  • atherosclerosis - 90% of cases
  • other causes of ischemia:
    
    • anemia → hypoxemia
    • lowered systemic blood pressure → shock
    • increased cardiac demand → hypertrophy exercise
    • vasculitis
    • aortic dissection

Question 3

describe the pathogenesis of IHD

Answer 3

• complex dynamic interaction between the following factors:
  
  • coronary artery obstruction (fixed)
  • acute plaque changes
  • coronary intraluminal thrombosis
  • vasoconstriction

Question 4

>90% of patients with IHD have atherosclerotic lesions that cause ___ of one or more coronary arteries

progressive plaque growth → ____

Answer 4

>90% of patients with IHD have atherosclerotic lesions that cause stable fixed narrowing of one or more coronary arteries

progressive plaque growth → critical stenosis

Question 5

lesions causing >___% reduction of vascular cross-sectional areas define significant coronary artery obstruction

Answer 5

lesions causing >75% reduction of vascular cross-sectional areas define significant coronary artery obstruction

Question 6

describe an unstable/vulnerable plaque

Answer 6

unstable/vulnerable plaque is characterized by:

• causes moderate stenosis (50-75%)
• has thinner fibrous cap
• has a core rich in lipid, macrophages and T-cells
• less evidence of smooth muscle proliferation
• markedly eccentric (not uniform around the vessel circumference)

Question 7

describe what occurs after plaque erosion/ulceration/rupture

Answer 7

• plaque erosion, ulceration, rupture → exposure of thrombogenic lipid and subendothelial collagen → platelet aggregation and thrombin generation → thrombus formation
• if the vessel is completely occluded → MI
• incomplete obstruction →
  
  • unstable angina or arrhythmias → SCD
  • embolization to distal branches → micro infarcts

Question 8

vasoconstriction is stimulated by…. (4 things)

Answer 8

vasoconstriction is stimulated by:

• locally released platelet contents → thromboxane A2
• impaired secretion of NO relative to contracting factors (endothelin)
• increased adrenergic activity
• smoking

Question 9

summarize the differences between stable, prinzmetal and unstable angina

Answer 9

Question 10

list the 4 major contributing factors for an MI

Answer 10

• hypercholesterolemia
• smoking
• HT
• DM

Question 11

describe the pathogenesis of an MI

Answer 11

• 90% of cases due to acute thrombosis that leads to coronary artery occlusion
  
  • disruption of a pre-existing plaque
• remaining 10% due to:
  
  • vasospasm: isolated, intense and relatively prolonged with or without coronary atherosclerosis
  • emboli: from the left-sided mural thrombus

Question 12

describe the myocardial response and features during an MI

Answer 12

Question 13

describe transmural infarctions

Answer 13

• transmural infarctions:
  
  • involve the full thickness of ventricular wall in the distribution of a single coronary artery (regional) also called STEMI (ST-elevation MI)
  • usually associated with acute plaque changes and superimposed, completely occlusive thrombosis
  • can also occur with cocaine abuse

Question 14

describe a subendocardial infarction

Answer 14

• limited to the inner 1/3 or at most 1/2 of the ventricular wall, aka NSTEMI (non-ST elevation MI)
• associated with diffuse stenosing coronary atherosclerosis or with prolonged hypotension (global/circumferential infarctions)
• may occur due to transient/partial arterial obstruction (regional)
• less serious than transmural infarction

Question 15

describe the essential sequence of events in an MI

Answer 15

Question 16

describe what is seen in the image

Answer 16

Question 17

Answer 17

Question 18

describe what is seen in the image

Answer 18

Question 19

describe what is seen in the image

Answer 19

Question 20

describe what is seen in the image

Answer 20

Question 21

describe what is seen in the image

Answer 21

Question 22

describe reperfusion for an MI

Answer 22

reperfusion is the goal of therapy to salvage maximal amount of ischemic cells

• achieved by:
  
  • thrombolysis using enzymes e.g. streptokinase or tissue plasminogen activator
  • angioplasty or CABG
• although it is useful, reperfusion or ischemic tissue can cause rebound myocardial damage → reperfusion injury

Question 23

describe reperfusion injury

Answer 23

• mitochondrial dysfunction → promote apoptosis
• high extracellular Ca2+ and impaired Ca2+ cycling → myocyte hypercontracture → cytoskeletal damage
• free radicals are produced within minutes of reperfusion → myocardial damage
• leukocytes aggregation and platelet activation → microvasculature injury and occlusion → “no reflow” phenomenon

Question 24

describe the morphology of reperfusion injury

Answer 24

• hemorrhage:
  
  • due to vascular injury and leakiness
• contraction band necrosis:
  
  • intense hyper-eosinophilic transverse bands (hypercontracted sarcomeres)
  • induced by high amount of extracellular Ca2+ in restored blood flow which easily crosses the leaky plasma membrane of ischemic myocytes
  • actin-myosin interaction in the absence of ATP → the sarcomeres are stuck in this agonal tetanic state

Question 25

describe what is seen in the image

Answer 25

Question 26

describe clinical features of an MI

Answer 26

• chest pain
  
  • retrosternal pain, crushing in nature
  • may radiate to the neck, jaw, epigastrium, shoulder or left arm
  • the pain is persistent >30 min (unlike angina)
  • not significantly relieved by vasodilators (nitroglycerine) or rest
• dyspnea
• rapid weak pulse
• diaphoresis, nausea, vomiting

Question 27

name the factors that can cause arrhythmias following an MI

Answer 27

• myocardial irritability and conduction disturbances
• electrolyte imbalance
• hypoxia

Question 28

____ are the most common cause of SCD

Answer 28

arrhythmias are the most common cause of SCD

Question 29

following an MI, there may be wall motion abnormalities due to endocardial damage which can lead to ____

Answer 29

following an MI, there may be wall motion abnormalities due to endocardial damage which can lead to mural thrombus → systemic emboli

Question 30

describe how an MI can cause contractile dysfunction

Answer 30

• depending on size, site, thickness of the infarction, it can cause variable range of ventricular failure
• if severe → cardiogenic shock
• progressive heart failure (chronic IHD)

Question 31

describe myocardial rupture as a complication of MI

Answer 31

• occurs between 3-10 days when necrosis, neutrophilic infiltration and myocardial tissue lysis → weakened myocardium
• it includes:
  
  • ventricular free wall rupture → tamponade
  • ventricular septum rupture → ASD

Question 32

describe ventricular aneurysm as a complication of MI

Answer 32

occurs ~2 months after MI

• late complication of large transmural infarcts
• scar tissue wall of an aneurysm bulges during systole
• mural thrombus, arrhythmias and HF can occur
• unlikely to rupture due to tough fibrotic wall

Question 33

describe acute fibrinous/fibrinohemorrhagic pericarditis as a complication of an MI

Answer 33

• acute fibrinous/fibrinohemorrhagic
  
  • due to direct irritation of the pericardium in transmural infarcts
  • usually in day 2 or 3 post MI​

Question 34

describe Dresslers’ syndrome as a complication of an MI

Answer 34

• Dresslers’ syndrome
  
  • occurs 10-14 days post MI
  • autoantibodies that target damaged pericardial antigens

Question 35

describe using EKG as a diagnostic factor in MI

Answer 35

• transmural infarct
  
  • ST-segment elevation
  • Q wave: delayed appearance after 6 hrs of onset
• subendocardial infarct
  
  • no specific changes
  • no ST-segment elevation
  • may show T wave depression

Question 36

describe the use of myoglobin as a marker of cardiac injury

Answer 36

• first biomarker to rise (1-4 hrs)
• highly sensitive but not specific for the heart
• rarely used in practice

Question 37

describe the use of troponins (I and I) as a marker of cardiac injury

Answer 37

• most sensitive and specific marker
• normally not detectable in circulation
• rises in 3-12 hrs, peaks at 48 hours and persists for 5-14 days

Question 38

describe the use of CK-MB as a marker of cardiac injury

Answer 38

• a dimer composed by M & B subunits; MM, MB, BB
• CK-MB: most specific for the heart among the CKs
• rises in 3-12 hrs, peaks at 24 hrs and disappears by 72 hrs
• useful for detection of reinfarction

Question 39

describe the use of LDH as a marker of cardiac injury

Answer 39

• rises in 24 hrs, peaks at 3-6 days and returns to baseline within 8-12 days

Question 40

describe the use of echocardiogram in diagnosing an MI

Answer 40

• useful in detecting complications of MI
• evaluate ventricular function and wall-motion abnormalities
• can identify pericardial effusion, valve regurgitation and cardiac tamponade

Question 41

describe interventions after an MI

Answer 41

• primary prevention
• thrombolysis
• defibrillation
• angioplasty
• coronary bypass graft (CABG)

Question 42

describe the pathogenesis of chronic ischemic heart disease

Answer 42

• pathogenesis:
  
  • insidious onset of CHF in pts who have past episodes of MI or anginal attacks
  • cardiac decompensation owing to exhaustion of the compensatory hypertrophy of non-infarcted viable myocardium or severe coronary obstructive disease leading to diffuse myocardial dysfunction
  • arrhythmia, intercurrent MI are more common and fatal

Question 43

describe gross and histological morphology seen in CIHD

Answer 43

• gross:
  
  • enlarged and heavy heart due to hypertrophy and dilation
  • discrete gray white scars of healed previous infarcts
  • patchy fibrous thickening of mural endocardium
• histo:
  
  • myocardial hypertrophy
  • diffuse subendocardial vacuolization - myocytolysis
  • scars of previously healed infarcts

Question 44

describe sudden cardiac death in adults vs. younger people

Answer 44

• in adults: CAD is the most common cause
• younger victims:
  
  • congenital coronary artery abnormalities
  • aortic valve stenosis
  • mitral valve prolapse
  • myocarditis
  • conduction system defects
  • pulm. HT
  • cardiomyopathy
  • sarcoidosis