Myocardial Infarction

Question 1

Ischemic Heart Disease

• Ischemia
• Infarction
• Ischemic heart disease

Answer 1

• Ischemia
  
  • Compromised blood supply or increased oxygen demand (supply-demand mismatch)
• Infarction
  
  • Cell death due to ischemia
• Ischemic heart disease
  
  • Chronic ischemia +/- infarction

Question 2

Ischemic Heart Disease

• Causes
• What happens

Answer 2

• Causes
  
  • Coronary atherosclerosis
  • Hypertension
  • Heart failure
  • Obesity
  • Chronic pulmonary disease
  • Anything that decreases O2 delivery or increases O2 demand
• What happens
  
  • Supply-demand mismatch
  • Myocardial ischemia in affected region
  • Myocaridla infarction
  • Other complications

Question 3

Blood Supply

• Right coronary artery
• Left anterior descending
• Left circumflex

Answer 3

• Right coronary artery
  
  • RV
  • Posterior LV / septum (75% of cases)
  • Posteromedial papillary muscle
  • SA & AV nodes
• Left anterior descending
  
  • Anterior LV / septum
  • Apex
• Left circumflex
  
  • Lateral LV
  • Posterior LV / septum (25% of cases)

Question 4

Quality of Myocardial Ischemia Depends On…

Answer 4

• Degree of arterial occlusion
• Collateral circulation
• Overall “health” of the heart
• Arrhythmia

Question 5

A patient has an acute right coronary artery thrombus. Where is the infarct most likely to occur?

Answer 5

Posterior septum

Question 6

What Happens in Acute MI

Answer 6

• Acute change in coronary artery plaque
  
  • Rupture
  • Hemorrhage
  • Thrombosis
• Thrombosis
• Ischemic damage to myocardium
• Myocyte necrosis
• Other complications

Question 7

MI: Timing & Cellular Changes after Arterial Occlusion

• 2 mins
• 30 mins
• 1 hour
• 2-4 hours

Answer 7

• 2 mins = loss of contractility
• 30 mins = irreversible cell injury
• 1 hour = microvascular injury
• 2-4 hours = permanent damage

Question 8

Myocardial Infarction

• Progression of ischemia
• Predominance of occluded arteries
• Rare infarcts

Answer 8

• Progression of ischemia
  
  • Typically begins in subendocardial region
  • Can progress outward to transmural injury
• Predominance of occluded arteries
  
  • LAD 40-50%
  • RCA 30-40%
  • LCx 15-20%
• Rare infarcts
  
  • Isolated RV infarcts are rare
  • Atrial infarcts rae even more rare

Question 9

Infarct Histology

• General
• Cells involved
• Early changes
• Middle changes
• Later changes
• Healing

Answer 9

• General
  
  • ​Series of progressive changes
• Cells involved
  
  • Neutrophils
  • Macrophages
  • Fibroblasts (granultaion tissue)
• Early changes (<24 hours)
  
  • ​Initially no visible histology
  • Then coagulative necrosis: “contraction band necrosis”
  • Then neutrophil response
• Middle changes (1-3 days)
  
  • ​Initially neutrophils
  • Then cellular debris
  • Then macrophages
• Later changes (3-7 days)
  
  • ​Initially macrophages
  • Then phagocytosis
  • Then fibroblasts (granulation tissue)
  • Greatest risk of myocardial rupture
• Healing (7 days - weeks)
  
  • ​Initially fibroblasts
  • Then neovascularization
  • Then collagen / fibrin
  • Result: myocardial scar

Question 10

Post-Infarct Complications

Answer 10

• Arrhythmia
• Myocardial rupture
• Pericarditis
• Mural thrombus
• Ventricular aneurysm
• Ventricular remodeling

Question 11

What complication is most likely to occur 3-7 days after acute infarction?

Answer 11

Papillayr muscle rupture

Question 12

Arrhythmia

Answer 12

• Myocardial irritability
• Heart block (depending on location)
• Bradycardia, ventricular tachycardia, premature ventricular contractions

Question 13

Myocardial Rupture

Answer 13

• Free wall
  
  • Hemopericardium
• Septum
  
  • Causes acute VSD w/ left-to-right shunt
• Pappillary muscle
  
  • leads to acute mitral valve insufficiency

Question 14

Dressler’s Syndrome

• aka
• After acute MI
• After bypass graft surgery

Answer 14

• aka
  
  • Fibrinous pericarditis
• After acute MI
  
  • 1-7 days later: acute inflammatory exudate
  • 6-8 weeks later: autoimmune
• After bypass graft surgery
  
  • Post-pericardotomy syndrome

Question 15

Mural Thrombus

Answer 15

• Akinesis / hypokinesis of infarcted myocardium
  
  • ​Blood pools on endocardial surface
  • Thrombus forms
• Complication: embolization of thrombus
  
  • Leads to stroke or gangrene

Question 16

Ventricular Aneurysm

Answer 16

• Infarcted myocardium thinned
• “Balloons outward” w/ forceful contractions of adjacent myocardium
• Thrombus can form in aneurysm

Question 17

Ventricular Remodeling

Answer 17

• Infarcted mycoardium dies (scar tissue)
• Surrounding myocardium hypertrophies
• Result: zones of fibrosis w/ surrounding hypertrophy
  
  • Myocardium can become thick & stiffened

Question 18

Sudden Cardiac Death

Answer 18

• Patient has severe coronary artery atherosclerosis
• No occlusive thrombus &/or no myocardial infarction
• Death due to arrhythmia, not infarction
  
  • Typically ventricular fibrillation

Question 19

Treatment of Acute Myocardial Infarction

Answer 19

• Coronary artery bypass graft (CABG)
  
  • Saphenous vein or synthetic vein
  • Internal mammary artery (LAD): best result
• Percutaneous coronary intervention (PCI)
  
  • aka Percutaneous transluminal coronary angioplasty (PTCA) or “angioplasty”

Question 20

Angina Pectoris

• Stable angina
• Unstable angina
• Prinzmetal angina

Answer 20

• Stable angina
  
  • ​Imbalance in coronary perfusion & oxygen demand
  • Exercise induced
  • Chronic atherosclerosis
• Unstable angina
  
  • ​Myocardial ischemia
  • Thrombosis of coronary artery from plaque pathology
  • “Preinfarction agina”
  • At rest or minimal exertion
• Prinzmetal angina
  
  • ​Episodic ischemia from coronary vasospasm
  • Occurs at rest

Question 21

Reperfusion Injury

• General
• Damaged myocardium is susceptible to…

Answer 21

• General
  
  • Blood flow restored by PTCA, thrombolysis
  • Usually ~30 mins to 3-4 hours after ischemic event
• Damaged myocardium is susceptible to…
  
  • Hemorrhage
  • Arrythmia
  • Further ischemia

Question 22

Myocardial Stunning & Hibernation

• Stunned
• Hibernating

Answer 22

• Stunned
  
  • Myocytes not acutely lethally damaged can recover function in a few days w/ reperfusion
• Hibernating
  
  • Myocytes that have chronic, sublethal ischemia may “hibernate” for days to weeks then recover function later

Question 23

Serum Biomarkers

• Troponins T & I
• CK-MB
• Best for diagnosis
• Biochemical markers
  
  • Myoglobin
  • CK-MB
  • Troponins

Answer 23

• Troponins T & I
  
  • Both sensitive & specific
  • Troponins not normally found in circulation
• CK-MB
  
  • Sensitive but not as specific
  • MB can also be found in skeletal muscle
• Best for diagnosis
  
  • Combination of the two
• Biochemical markers
  
  • Myoglobin
    
    • Out 1st, gone 1st
    • (-) sensitive, (-) specific
  • CK-MB
    
    • Out 2nd, gone 2nd
    • (+) sensitive, (-) specific
  • Troponins
    
    • Out last, gone last
    • (+) sensitive, (+) specific

Question 24

Scenario 1

• 60yo man w/ acute posterior wall MI
• Which vessel is involved?

Answer 24

Right coronary artery (75%)

Could be left circumflex in left dominant system

Question 25

Scenario 2

• 60yo man w/ acute anterior wall MI
• Which vessel is involved?

Answer 25

Left anterio descending (most common)

Question 26

Scenario 3

• 60yo man w/ acute anteroir wall MI
• What is the vessel pathology that’s involved?

Answer 26

Vulnerable plaque: hemorrhage, thrombosis, rupture

Question 27

Scenario 4

• 75yo woman w/ acute anterior wall
• MI happened 12 hours ago
• What do you expect to see in the myocardium?

Answer 27

Nothing or coagulative necrosis (contraction bands)

Question 28

Scenario 5

• 75yo woman
• Acute anterior wall MI happened 2 days ago
• What do you expect to see in the myocardium?

Answer 28

Neutrophils, cellular debris

Question 29

Scenario 6

• 68yo woman
• Acute anterior wall MI happened 5 days ago
• What is the most concerning risk at this point?

Answer 29

Ventriuclar rupture w/ hemopericardium

Question 30

Scenario 7

• 52yo man
• Acute posterior wall & septal MI happened 4 days ago
• Now has acute mitral valve insufficiency
• What is the problem?

Answer 30

Papillary muscle rupture

Question 31

Scenario 8

• 58yo man
• CABG surgery 5 days ago
• Now has chest pain & friction rub
• What is the problem?

Answer 31

Dressler’s syndrome, pericarditis

Question 32

Scenario 9

• 79yo woman
• large lateral wall MI 6 months ago
• Has ischemic stroke
• What is the complication?

Answer 32

Mural thrombus

Question 33

Scenario 10

• 53yo man dies suddenly at home
• Autopsy only shows LAD w/ 95% proximal stenosis
• What happened?

Answer 33

Sudden cardiac death, fatal arrhythmia