Lecture 14: Ischemic hearth disease

Question 1

what is the myocardial infarction?

Answer 1

the heart is cell death

due to insufficient arterial blood supply from the coronary arteries for the tissue’s needs.

Question 2

what are the causes of myocardial infarction?

Answer 2

–95% Coronary artery atheroma

–Rarely: Insufficient blood supply due to other causes, Shock, Massive LVH or cardiac hypertrophy

Question 3

what are the non-atherosclerotic causes of AMI?

Answer 3

1) Coronary artery dissection
2) Coronary artery vasospasm (e.g., Prinzmetal angina, cocaine use)
3) Takotsubo cardiomyopathy
4) Myocarditis
5) Thrombophilia (e.g., polycythemia vera)
6) Coronary artery embolism (e.g., due to prosthetic heart valve, atrial fibrillation)
7) Vasculitis (e.g., polyarteritis nodosa, Kawasaki syndrome)
8) Myocardial oxygen supply-demand mismatch
- -Hypotension
- -Severe anemia
- -Hypertrophic cardiomyopathy
- -Severe aortic stenosis

Question 4

what are the 3 main coronary arteries?

Answer 4

1)Left coronary artery- 1.5cms and gives rise to the interventricular LAD and the (L) circumflex.
• The LAD supplies the apex, anterior 2/3 of septum and the anterior wall of the LV.
2)Right coronary artery classically the posterior wall “inferior” in ECG.
• The right coronary artery usually supplies the posterior of the septum

Question 5

why thrombus complicating coronary atheroma may be more catastrophic in a seemingly previously well patient?

Answer 5

• In normal hearts or in cases of moderate (20-50% stenosing) atheroma the arteries are effectively end arteries.
• In abnormal hearts, a collateral circulation may develop

Question 6

what is the ischemic heart disease?

Answer 6

There are a number of clinical syndromes reflecting varying pathology
1)Angina pectoris
–	Stable
–	Unstable
2)Myocardial infarction
3)Chronic ischaemic heart disease

Question 7

what is stable angina?

Answer 7

A type of angina that occurs upon exertion, mental stress, and/or exposure to cold and usually subsides within 20 minutes of rest or after administration of nitroglycerin. Occurs due to a mismatch in myocardial oxygen supply and oxygen demand from underlying coronary artery disease.
–Reflects “Significant” atheroma:
one vessel > 75% stenosis or 2 > 50% as rule of thumb.
–Assessment via angiography. Often if autopsy done see microscopic myocardial fibrosis. Angina may be worsened by anaemia or
increased cardiac mass i.e. hypertrophy:
therefore may reflect important non-cardiac disease

Question 8

what is unstable angina?

Answer 8

–Symptoms are not reproducible/predictable
–Usually occurs at rest or with minimal exertion and is usually not relieved by rest or nitroglycerin
–Every new-onset angina
–Severe, persistent, and/or worsening angina (crescendo angina)
–Increasing intensity, frequency, or duration in a patient with a known stable angina
–Precipitated with progressively less effort.
– Often occurs at rest, and tends to be of more prolonged duration.
–Induced by disruption of an atherosclerotic plaque (plaque rupture) and secondary thrombus.

Question 9

unstable angina is induced by…

Answer 9

disruption of an atherosclerotic plaque (plaque rupture) and secondary thrombus.

Question 10

what is the sudden cardiac death?

Answer 10

A sudden, unexpected death that occurs within 1 hour of symptom onset as a result of cardiac arrest (e.g., from ventricular fibrillation, pulseless ventricular tachycardia, asystole, and/or pulseless electrical activity). The most common underlying cause of SCD in elderly individuals is acute coronary syndrome; causes of SCD in young patients include cardiomyopathies, prolonged QT syndrome, Brugada syndrome, and myocarditis. Implantable cardioverter-defibrillators (ICDs) are used as primary prevention in patients at high risk of SCD.

Question 11

SCD can arise as a result of…

Answer 11

(1) Sudden large coronary thrombosis on a ruptured atheromatous plaque
(2) Secondary to an arrhythmia in chronic ischaemic heart disease. 50% dead before arrival in hospital
Mechanism – ventricular Fibrillation.
(3) Coronary arterial spasm e.g. cocaine use - rare

Question 12

what is MI?

Answer 12

• Myocardial necrosis due to reduced blood supply:
Usually reflects unrelieved coronary artery occlusion evolving to tissue death – dynamic process and can be reduced by coronary reperfusion following “stenting”
• Certain plaques more likely to thrombose – lipid-rich with fibrous cap cracks

Question 13

a lipid poor with fibrous cap cracks are more prone to thrombose. TF

Answer 13

F

lipid-rich with fibrous cap cracks

Question 14

what is the clinical presentation of MI?

Answer 14

–Crushing central chest pain, unrelieved by rest; accompanied by weakness, sweating, nausea & vomiting
– Radiates commonly to left shoulder and jaw
–May be described as indigestion
–Can be painless - old/diabetes
–Pain may be atypical abdominal.
–May be “silent” present as heart failure (esp in elderly) arrhythmia – confusion – weakness.
–Need a high index of suspicion.

Question 15

what are the angina pain characteristics?

Answer 15

• -Typically retrosternal chest pain or pressure
• -Pain can also radiate to left arm, neck, jaw, epigastric region, or back.
• -Pain does not depend on body position or respiration
• -No chest wall tenderness
• -Angina may be absent, particularly in younger patients
• -Often gradual progression
• -Can also present as gastrointestinal discomfort

Question 16

what are other signs that can be seen in angina?

Answer 16

• -Dyspnea
• -Dizziness, palpitations
• -Restlessness, anxiety
• -Autonomic symptoms (e.g., diaphoresis, nausea, vomiting, syncope)

Question 17

what is the pathophysiology of MI

Answer 17

• Coronary atheroma and plaque rupture and subsequent thrombosis initiate ischemia – possibly reversible for 6 – 12 hours.
• Necrosis of myocardium begins 30 mins after occlusion but there is a progression from the subendocardial myocardium through the full thickness of the myocardium to the pericardial zone. (Transmural infarct)
–Most untreated episodes of ischemia cause Transmural infarction.
• NB Subendocardial (AKA Non-ST-elevation MI– NSTEMI) infarction more likely in the incomplete artery occlusion

Question 18

when does necrosis begin after artery occlusion?

Answer 18

after 30 min

Question 19

how necrosis in MI progresses?

Answer 19

from the subendocardial myocardium through the full thickness of the myocardium to the pericardial zone. (Transmural infarct)

Question 20

what is the pathophysiology of atherosclerosis?

Answer 20

1) Chronic stress on the endothelium
2) Endothelial dysfunction, which leads to
- -Invasion of inflammatory cells (mainly monocytes and lymphocytes) through the disrupted endothelial barrier
- -Adhesion of platelets to the damaged vessel wall → platelets release inflammatory mediators (e.g., cytokines) and platelet-derived growth factor (PDGF)
- -PDGF stimulates migration and proliferation of smooth muscle cells (SMC) in the tunica intima and mediates differentiation of fibroblasts into myofibroblasts
3) Inflammation of the vessel wall
4) Macrophages and SMCs ingest cholesterol from oxidized LDL and transform into foam cells.
5) Foam cells accumulate to form fatty streaks (early atherosclerotic lesions).
6) Lipid-laden macrophages and SMCs produce extracellular matrix (e.g., collagen) → development of a fibrous plaque (atheroma)
7) Inflammatory cells in the atheroma (e.g., macrophages) secrete matrix metalloproteinases → weakening of the fibrous cap of the plaque due to the breakdown of extracellular matrix → minor stress ruptures the fibrous cap
8) Plaque rupture → exposure of thrombogenic material (e.g., collagen) → thrombus formation with vascular occlusion or spreading of thrombogenic material

Question 21

what substance stimulates migration and proliferation of smooth muscle cells (SMC) in the tunica intima and mediates the differentiation of fibroblasts into myofibroblasts?

Answer 21

PDGF!!!!!!

Question 22

what are the foam cells?

Answer 22

acrophages and SMCs ingest cholesterol from oxidized LDL and transform into foam cells.

Question 23

what is the fibrous plaque?

Answer 23

An atherosclerotic lesion comprised of lipids, connective tissue, leukocytes, and cellular debris that can develop within artery walls in the presence of certain risk factors (e.g., smoking, diabetes, hypertension, dyslipidemia). Complications include vessel obstruction and ischemia, coronary heart disease, peripheral artery disease, and thrombosis when plaque rupture occurs.

Question 24

fibrous cap vs necrotic center?

Answer 24

Macrophages, smooth muscle cells, lymphocytes and extracellular matrix form a fibrous cap, which covers a necrotic center, consisting of foam cells, free cholesterol crystals, and cellular debris.

Question 25

how does plaque rupture?

Answer 25

• -Unstable plaques are lipid-rich and covered by thin fibrous caps → high risk of rupture
• -Inflammatory cells in the plaque (e.g., macrophages) secrete matrix metalloproteinases → breakdown of extracellular matrix → weakening of the fibrous cap → minor stress → rupture of the fibrous cap → exposure of highly thrombogenic lipid core → thrombus formation → coronary artery occlusion

Question 26

how MI is diagnosed?

Answer 26

• Clinical
• ECG (EKG): quick, easy and gives information about site and vessel involved as well as information about arrhythmias.
• Lab Evaluation : Troponin-I (TNI) and Troponin- T used most commonly.
• Also MB fraction of creatine kinase (enzyme) cardiac specific structural proteins

Question 27

what are the Troponin 2 advantages?

Answer 27

(1) More specific.
(2) Stays elevated for 7-14 days.
Enzyme levels give some idea of the extent of the infarct, latter depending on the location of the obstruction, the significance of vessel, degree of myocardial hypertrophy and presence of collateral coronary circulation.

Question 28

how long troponin stays elevated?

Answer 28

Stays elevated for 7-14 days.

Question 29

what is the troponin?

Answer 29

• -They are regulatory proteins of actin filaments of cardiac muscle – engages with calcium
• -Certain subtypes of troponin (I and T) are indicators of damage to the myocardium and can be measured in the blood by immunoassay techniques

Question 30

what are the other conditions associated with elevated troponin in the blood?

Answer 30

Troponin levels are not specific
Other conditions associated with raised troponins (any cause of myocardial necrosis)
•	Cardiac surgery
•	Cardiac contusion
•	Myocarditis
•	HOCM
•	Cardiomyopathy
•	Chemotherapy
•	Renal disease
•	Poly/dermatomyositis

Question 31

what are the morphological changes in MI in day 1?

Answer 31

• Up to 4 hours no microscopic change in the myocardium
• Day 1: Myocardium
Coagulation necrosis with hypereosinophilia and wavy fibres. Dead vessels – hemorrhage.
Macroscopically - Dark Red Firm

Question 32

what are the morphological changes in MI in day 2-7?

Answer 32

• -Besides necrotic area – inflammation – neutrophils and edema. If marked can get the fever and raised WCC (bad prognosis).
• -Macroscopically – Soft yellowish/tan tissue.

Question 33

what are the morphological changes in MI in day 7-14?

Answer 33

• -Ongoing repair process with resorption of dead tissue and granulation tissue at edges.
• -Macro – the depressed area with red edges.

Question 34

what are the morphological changes in MI in week 2-8?

Answer 34

• -Evolving fibrosis and decreasing vascularity.
• -Macro – grey white tissue
• -Week 8: Dense fibrosis – depressed thinned myocardium and scar.

Question 35

when neutrophils infiltrate dead myocardium

Answer 35

days 1-3

Question 36

when macrophages infiltrate dead myocardium?

Answer 36

3-14 days

Question 37

what is the Masson’s trichrome stain?

Answer 37

• -suited for distinguishing cells from surrounding connective tissue.
• -Most recipes produce red keratin and muscle fibers, blue or green collagen and bone

Question 38

when yellow pallor is found?

Answer 38

1-3 days

Question 39

when dark mottling is seen?

Answer 39

0-24 hours

Question 40

what are the common post-MI complications?

Answer 40

• Sudden death What
• Arrhythmias Within 48 hours usually (posterior MI usually)
• Left ventricular failure and pulmonary edema
• Cardiogenic shock
• Ventricular rupture and haemopericardium (After 4 days)
• Chordae tendineae/papillary muscle rupture (rare)
• Left ventricle Aneurysm formation and +/- emboli
• Pericarditis (acute or chronic) and Dressler’s syndrome

Question 41

whyVentricular rupture commonly occur after 4 days?

Answer 41

due to increased activity of macrophages that resorb the myocardium

Question 42

what are the common causes of death post-MI?

Answer 42

• Arrhythmias eg Ventricular fibrillation
– Esp in posterior/inferior MI (on ECG)
• Cardiac rupture and Haemopericardium
• Ie Cardiac Tamponade

Question 43

Why does MI cause LVF?

Answer 43

Myocardial cell death causes pump failure which leads to Left ventricular failure (LVF)

Question 44

what are the signs of LVF?

Answer 44

Mild: sinus tachycardia but normal BP and good tissue perfusion
• Moderate: dyspnoea with clinical/radiological evidence of pulmonary edema.
• Severe=Cardiogenic shock hypotension, poor tissue perfusion and markedly decreased ejection fraction on ECHO

Question 45

what is the ejection fraction?

Answer 45

• -The percentage of blood pumped by the left ventricle during each contraction (i.e., stroke volume divided by end diastolic volume). Normally ∼ 55%.rcentage of blood pumped by the left ventricle during each contraction (i.e., stroke volume divided by end diastolic volume). Normally ∼ 55%.
• -EF = SV / EDV = (EDV - ESV)/EDV
• -Normally 50–70%
• -Serves as an index of myocardial contractility: e.g., ↓ myocardial contractility → ↓ EF (seen in systolic heart failure, where EF is < 40%)

Question 46

what is the pulmonary edema?

Answer 46

• -The accumulation of fluid in the alveoli. The cause can be cardiogenic (e.g., cardiac failure with increased pulmonary capillary pressure) or noncardiogenic (e.g., ARDS, pulmonary embolism, transfusion-related acute lung injury, high altitude, preeclampsia, and opioid overdose). It causes reduced diffusion capacity, hypoxemia, and dyspnea.
• -Increased hydrostatic pressure in pulmonary capillaries

Question 47

what are the signs and symptoms of LHF?

Answer 47

• -Dyspnea, orthopnea
• -Pulmonary edema in severe cases of acute decompensated heart failure
• -Bilateral basilar rales may be audible on auscultation. (Caused by a build-up of fluid in alveoli)
• -Paroxysmal nocturnal dyspnea: nocturnal bouts of coughing and acute shortness of breath (Supine position at night increases pulmonary venous congestion)
• -Cardiac asthma: increased pressure in the bronchial arteries results in airway compression, leading to bronchospasm
• -Laterally displaced apical heartbeat (precordial palpation beyond the midclavicular line)

Question 48

what are the signs and symptoms of RHF?

Answer 48

1) Peripheral pitting edema
2) Signs of increased central venous pressure (CVP)
- -Jugular venous distention: visible jugular venous congestion , also seen in biventricular heart failure
- -Hepatojugular reflux: jugular venous congestion induced by exerting manual pressure over the patient’s liver → ↑ volume load on the right side of the heart → right heart is unable to pump additional blood volume → visible jugular venous distention persists for several seconds
3) Hepatic venous congestion
- -Hepatosplenomegaly
- -Abdominal pain
- -Jaundice
- -Ascites
4) Congestion of other organs, e.g., congestive gastritis or gastropathy (nausea, loss of appetite), renal congestion

Question 49

what is the cardiogenic shock?

Answer 49

1) Definition: systolic BP < 90 mm Hg with urine output < 20 mL/hr and normal or elevated left ventricular filling pressure
2) Pathophysiology: ↓ stroke volume
3) Etiology
- -Non-obstructive cardiogenic shock
* Myocardial infarction
* Arrhythmias
- -Obstructive cardiogenic shock
* Tension pneumothorax
* Cardiac tamponade
* Constrictive pericarditis
* Restrictive cardiomyopathy
* Pulmonary embolism
4) Clinical features
- -Weak pulse, tachycardia
- -Cold, clammy extremities, poor capillary refill
- -Dyspnea, fine basal crepitations
- -Elevated JVP and distended neck veins
- -Hypotension with a narrow pulse pressure in the decompensated stage
- -Other clinical features related to the underlying disease: chest pain, abnormal auscultatory findings (e.g., S3, S4)

Question 50

pump vs conductive problems in MI?

Answer 50

• -Pump problems are particularly associated with anterior MI
• -Conduction difficulties with posterior MI.
• -Combination of both suggests very extensive damage and ominous prognosis.

Question 51

features of muscle rupture post-MI?

Answer 51

• If through a free wall (usually after 4 days)- haemopericardium.
• -If septum – ventricular septal defect. Papillary muscles - acute valve dysfunction – intractable heart failure.

Question 52

what are the later problems post-MI?

Answer 52

• Later problems include weakening of the area of scarring leading to a Ventricular Aneurysm, increasing risk of chronic heart failure, arrhythmias and mural thrombosis.
• Mural Thrombosis in aneurysm sac
→ systemic emboli.
• Dressler’s syndrome (pericarditis)

Question 53

what is the chronic ischemic heart disease?

Answer 53

–Symptoms may be due to chronic angina due to past myocardial infarction.
–Clinically – progressive heart failure
–Pathology – usually big heart, with combination of hypertrophy, dilatation, narrowed coronaries and myocardial fibrosis.
–Summary – crucial topic – primary prevention vital. Eg non invasive coronary imaging – statin treatment,
angioplasty and improvements in heart failure
management.
–Perhaps heart transplant in the future

Question 54

what are the signs of heart failure?

Answer 54

1)Vital Signs:
–	HR
–	BP
–	RR
–	Sats
2)Cardiovascular Examination:
3)Signs of right heart failure
–	Raised JVP
–	Bilateral Lower limb oedema
–	Hepatomegaly and ascites if severe
4)Signs of left heart failure
--Low BP
--Weak thready pulse
--Bibasal creps/rales on auscultation
--Cold peripheries
--Cardiogenic shock

5)Signs of Mechanical Complications:
– Murmurs: VSD, MR

Question 55

STEMI vs NSTEMI?

Answer 55

1)
•	May be no collateral circulation.
•	May be reversible if achieve reperfusion (PCI)
•	PCI percutaneous coronary intervention and thrombolysis
2)
•	Often bad coronary atheroma
•	Still a lumen in coronary artery
•	Often good collaterals
•	Less likely sudden death
•	PCI not as urgent

Question 56

do cardiac biomarkers are elevated in unstable angina?

Answer 56

no

Question 57

what are the causes of elevated JVP?

Answer 57

Due to obstruction to return of venous blood to the right side of the heart
•	Causes
–	Right ventricular failure
–	Pericardial effusion
–	Mass obstructing SVC e.g. lymphoma

Question 58

what is the cause of bilateral ankle edema?

Answer 58

• Failure of venous return usually due to right ventricular failure