Cardiology JC007: Accelerating Chest Pain: Acute Coronary Syndrome Flashcards
Acute Coronary Syndrome (ACS)
Sudden imbalance between **myocardial oxygen supply + demand due to **coronary artery obstruction
—> demand remain same but lack of supply
—> Myocardial ischaemia / infarct
Clinical presentations:
1. **Ischaemic chest pain / equivalent symptoms (e.g. chest discomfort)
2. **Haemodynamic instability (∵ loss of contractile force)
3. **Electrical instability (∵ involvement of SA / AV nodal branch artery —> significant bradycardia: Sinus bradycardia, AV block, VT / VF)
4. **Mechanical complications (Late phase e.g. severe MR, VSD)
Consequences:
1. Cardiac arrest
2. Cardiogenic shock
3. Congestive heart failure (CHF)
Mechanism of Myocardial ischaemic pain
Ischaemia:
Supply < Demand
—> Anaerobic respiration
—> ↑ Lactic acid, H, ATP (if infarction: leakage of cellular contents)
—> Type C unmyelinated fibre in myocardium
—> Nerve afferents
—> Spinothalamic tract
—>
- Thalamus
—> Cerebral cortex: Pain perceived - Brainstem (CV control centre)
—> ↑ Sympathetic activity
—> ↑ HR (but may have bradycardia if SA / AV nodal branch affected), BP, Sweating
Chest pain in Chronic (i.e. Angina) vs Acute coronary syndrome
Chronic coronary syndrome (Stable angina):
- Stable + **Fixed atherosclerotic plaque
—> Supply / Demand still **maintained at basal metabolic rate —> **no symptoms at rest
—> **Exertional chest pain (∵ failure to ↑ supply to accommodate for ***↑ demand)
- Other diseases causing exertional chest pain:
—> LVOT obstruction (HOCM, AS)
—> **Relative ischaemia (LVH, **HCM)
Acute coronary syndrome:
- Athero-thrombotic CAD: Plaque disruption —> Platelet activation —> (white) Thrombus formation (on top of atherosclerotic plaque)
—> Sudden imbalance between Supply / Demand
—> ↓ supply to even maintain **basal demand
—> **Rest pain
Classification of ACS
- Unstable angina
- plaque ruptures —> platelet activation —> thrombus formation —> **partial obstruction of vessels but **NO infarction —> NO biochemical evidence to suggest Acute MI
- anginal pain occurs at rest / progresses rapidly over short period of time - NSTEMI
- severe **partial obstruction of vessels —> compromise basal metabolic need —> **Subendocardial myocardial injury / infarct —> Non-specific ST depression / T inversion - STEMI
- **complete obstruction of vessels (1 of 3 **major coronary arteries) —> ***Transmural myocardial injury / infarct —> ST elevation
- occlusion of small side branch coronary arteries giving rise to transmural infarction may not be shown on ECG (∵ not high enough spatial resolution)
Diagnosis of ACS
3 major clinical evidences for ACS
- ***Clinical presentation
- Chest pain / equivalent - ***ECG
- Acute ischaemic changes
—> Non-specific ST depression / T inversion
—> ST elevation - Biomarkers (reflecting myocardial injury)
- High sensitive ***Troponin
+/- 4. Imaging
- **Echocardiogram: Regional wall motion abnormality
- **CT coronary angiogram
—> used if 1-3 not conclusive
Typical chest pain / Characteristics of chest pain in ACS
- Prolonged (>20 mins) anginal pain at rest (~80%)
- anaerobic respiration / accumulation of metabolite take time to develop / resolve (will not be “come-and-go”)
- 記: Prolonged rest pain - New onset (De novo) angina (~20%)
- Canadian Cardiovascular Society Class 3 (marked limitation of ordinary physical activity, walking 1-2 blocks on level, <1 FOS) - Recent destabilisation of previously stable angina with >=3 CCS class 3 angina characteristics (Crescendo angina)
- Post-MI angina
Features NOT typical of myocardial ischaemia
- Pleuritic, Sharp pain
- related to respiration
- but may be related myocarditis - Primary / sole location at middle / lower abdomen
- MI pain should be ill-defined, dull aching, diffuse location (∵ visceral nerve) - Pain very localised by 1 finger tip
- Pain reproduced by movement / chest wall palpation
- point to skin / muscle / ribs - Very brief episode, lasting for seconds
- Pain maximal intensity at onset + improves afterwards
- point to Aortic dissection - Pain radiating to lower limbs
***DDx of Acute chest pain
Cardiac:
1. ACS
- 20-30 mins
- **sudden onset
- pressure-like pain
- central
- **no tenderness
- radiate to jaw + arm
- aggravated by exertion, relieved by rest / nitrate (not completely gone)
- ***diaphoresis, dyspnea
- Stable angina
- 5-10 mins
- **gradual onset with exertion
- pressure-like pain
- central
- **no tenderness
- radiate to jaw + arm
- aggravated by exertion / emotion, relieved by rest / nitrate - Aortic dissection
- maximal at the onset
- excruciating pain in anterior chest, radiate to interscapular of back / into abdomen
- sudden onset
- sharp, tearing
- ***no tenderness
- aggravated by high BP - Pulmonary embolism (Days)
- Pericarditis / Peri-myocarditis (Variable duration)
Respiratory (***aggravated by deep breathing):
1. Tension pneumothorax
2. Pneumonia
3. Pleuritis
GI (usually longer in duration: Hours):
1. Perforated esophagus (Boerhaave’s syndrome)
2. Perforated peptic ulcer (tenderness on palpation)
3. Peptic ulcer disease
4. Acute cholecystitis (***tenderness on palpation)
5. Biliary colic
6. GERD
Musculoskeletal
- ***tenderness on palpation
Herpes Zoster
- ***tenderness on palpation
Psychiatric:
1. Anxiety
Typical ECG in ACS
ECG: Objective evidence of myocardial ischaemia
Differentiate types of ACS: STEMI vs NSTEMI
Symptoms suggestive of ACS
—> 12 lead ECG
—> **ST segment + **T wave (Referring to Repolarisation of myocardium: most affected in ischaemia —> fail to repolarise)
—> No ST elevation —> Unstable angina / NSTEMI (ST depression, T inversion) —> Further stratified by Biomarker
—> ST elevation —> STEMI
ST elevation:
- indicate ***Transmural infarction
- location: Anterior / Lateral / Inferior / Posterior
- suspected Posterior STEMI (tall R wave in V1, V2) —> Posterior ECG (V7-9)
- suspected RV involvement (Inferior STEMI) (low BP, heart block, RCA proximal infarction) —> R-sided ECG (V4R)
Biomarkers after acute MI
Biomarkers: Leakage of cellular contents of myocardium into bloodstream
- CKMB
- not sensitive / specific as Troponin - Myoglobin, CK isoforms
- rise + fall rapidly
- good for detecting ***re-infarction (∵ Troponin will still be elevated) - Troponin
- part of sarcomere unit of myocardium
- large difference in levels between Large vs Small MI —> useful
- rise within **1 day, peak in 1.5 days, fall after **2 days
- rise and fall —> different from other infiltrative myocardial diseases (persistent elevated Troponin)
***Non-MI causes of Troponin rise
Cardiac causes (∵ ↑ demand of myocardium):
1. ***CHF
- Takotsubo CMP (heart blown up like a balloon like an octopus)
- Infection
- ***Viral cardiomyopathy - Inflammation
- ***Myocarditis / Pericarditis - Trauma
- Surgery
- Electrical shock
- Post-RFA / Defibrillation - Demand / Supply imbalance
- Brady / Tachyarrhythmia
- Severe anaemia
Systemic causes:
1. **Pulmonary embolism
2. Toxicity
- **Anthracyclines (Doxorubicin)
3. Trauma
- Blunt chest wall injury
4. **Renal failure
5. **Sepsis
6. Stroke
7. Subarachnoid haemorrhage (∵ excessive sympathetic activity)
***Types / Definition of Myocardial injury / infarction
Fourth Universal Definition of Myocardial injury / infarction (UDMI):
Type 1 (most common): Atherothrombotic CAD —> ***Plaque rupture, erosion, fissuring, dissection —> spontaneous MI related to ischaemia
Type 2: **Coronary spasm / **Anaemia / **Hypotension / **CHF —> imbalance of O2 demand and supply —> ischaemia
- unrelated to Atherothrombotic CAD
Type 3: **Sudden cardiac death with symptoms of ischaemia (patient死左)
- **before determination of elevation of cardiac biomarker
- accompanied by new ST elevation / LBBB
or
- verified coronary thrombosis by angiography / autopsy
—> for epidemiological study purpose only
Type 4a: ***PCI associated
Type 4b: Verified stent thrombosis associated
Type 5: ***CABG associated
Type 1 MI
MI caused by Atherothrombotic CAD + precipitated by Plaque disruption (rupture / erosion) —> Platelet activation —> Thrombus formation —> Occlusion —> Ischaemia / Infarction / Necrosis of myocardium
Criteria:
- Rise + Fall of Cardiac Troponin values with **>=1 value >99th percentile URL
AND
- >=1 of following:
1. **Symptoms of acute myocardial ischaemia
2. New ischaemic **ECG changes
3. Development of **pathological Q waves
4. **Imaging evidence of new loss of viable myocardium / new regional wall motion abnormality in a pattern consistent with an ischaemic etiology
5. Identification of a coronary thrombus by **angiography including intracoronary imaging / by ***autopsy
Type 2 MI
Myocardial injury due to Pathophysiological mechanism leading to ischaemia (Mismatch between O2 supply / demand)
Causes:
- Fixed atherosclerosis **without thrombus formation + O2 supply / demand imbalance
- **Vasospasm / Coronary **microvascular dysfunction
- Non-atherosclerotic coronary dissection (e.g. Pregnancy ∵ ↑ blood volume + stress)
- O2 supply / demand imbalance alone (uncommon)
—> Coronary embolism
—> Severe HT +/- LVH
—> Sustained tachyarrhythmia
—> Severe bradyarrhythmia
—> Respiratory failure
—> **Severe anaemia
—> ***Hypotension / shock
Criteria:
- Rise + Fall of Cardiac Troponin values with **>=1 value >99th percentile URL
AND
- Evidence of imbalance between myocardial O2 supply / demand **unrelated to acute coronary athero-thrombosis
AND
1. **Symptoms of acute myocardial ischaemia
2. New ischaemic **ECG changes
3. Development of **pathological Q waves
4. **Imaging evidence of new loss of viable myocardium / new regional wall motion abnormality in a pattern consistent with an ischaemic etiology
***Interpretation of elevated Cardiac Troponin
↑ Cardiac Troponin >99th percentile URL —>
Troponin rise + fall
—> With Acute ischaemia (with ECG changes)
—> Acute myocardial ***infarction
—> Atherosclerosis + Thrombosis —> Type 1 MI
—> O2 supply / demand imbalance —> Type 2 MI
—> Without Acute ischaemia (no ECG changes)
—> **Acute myocardial **injury (e.g. Acute heart failure, Myocarditis)
Troponin stable (consistently elevated)
—> **Chronic myocardial injury (e.g. Structural heart disease (e.g. severe AS, HOCM, infiltrative heart diseases), **Chronic kidney disease)
