Acute Coronary Syndrome (ACS)

NICE guideline [NG185] Acute coronary syndromes. Published: 18 November 2020

Article Last Updated:12/01/2026

Background Information

Definitions

ACS is the acute manifestation of coronary artery disease. This umbrella term includes the spectrum of STEMI , NSTEMI , and unstable angina. ^[Ref]

	Unstable angina	NSTEMI	STEMI
Pathogenesis	Partial occlusion → ischemia WITHOUT infarction	Partial occlusion → partial thickness (subendocardial) infarction	Complete occlusion → full-thickness (transmural) infarction
ECG findings	No ST elevation Other ECG changes may be present: ST depression T wave abnormalities ECG maybe normal	ST elevation in at least 2 contiguous leads (see below for full criteria)
Cardiac troponin (T/I)	<99th centile	Rise and/or fall AND >99th centile

Unstable angina

NSTEMI

STEMI

Pathogenesis

Partial occlusion → ischemia WITHOUT infarction

Partial occlusion → partial thickness (subendocardial) infarction

Complete occlusion → full-thickness (transmural) infarction

ECG findings

No ST elevation

Other ECG changes may be present:

ST depression
T wave abnormalities

ECG maybe normal

ST elevation in at least 2 contiguous leads (see below for full criteria)

Cardiac troponin (T/I)

<99th centile

Rise and/or fall AND >99th centile

Risk Factors

Major risk factors:^[Ref]

Age (>65 y/o)
Male
Cardiovascular risk factors
Family history of premature coronary artery disease
Presence of other cardiovascular diseases
Established coronary artery disease (e.g. previous MI, coronary revascularisation)

Other risk factors:^[Ref]

CKD
Chronic inflammatory conditions (e.g. rheumatoid arthritis, SLE)
Premature menopause
Pregnancy-related complications (e.g. pre-eclampsia, gestational diabetes)

Complications

Complications of MI can be organised by the time frame after the event: ^{[Ref1, Ref2]}

Timeframe	Complication	Presentation
Early (0-24 hours)	Arrhythmia	Common life-threatening arrhythmias: Ventricular tachycardia Ventricular fibrillation
Early (0-24 hours)	Acute heart failure / cardiogenic shock
Intermediate (0-1 week)	Papillary muscle rupture	Presents as acute mitral regurgitation Left-sided heart failure features predominant – pulmonary oedema New pansystolic murmur – best heard at the apex and radiates to the axilla
	Ventricular septal rupture	Presents as left-to-right shunting: Bi-ventricular failure is common Left-sided → pulmonary oedema Right-sided → raised JVP, peripheral oedema New pansystolic murmur – best heard at the left lower sternal border New palpable thrill at the left sternal border
	Ventricular free wall rupture	Presents as cardiac tamponade (Beck’s triad): Muffled heart sound JVP distension Hypotension
Late (>1-2 weeks)	Congestive heart failure	Causes HFrEF
	Left ventricular aneurysm	Presents as: Heart failure features Recurrent ventricular arrhythmias Embolic complications (e.g. stroke, systemic emboli) Persistent ST elevation in leads of prior infarct but NO reciprocal changes Normal troponin
	Dressler syndrome	Autoimmune pericarditis: Pleuritic chest pain (worse with lying flat and relieved sitting forward) Fever Pericardial rub Typical pericarditis ECG features – widespread concave ST depression + PR depression

Diagnosis

Clinical Features

Chest pain / discomfort is the main presenting feature of ACS, it can be mapped to the SOCRATES framework: ^[Ref]

Site: central or retrosternal (typically non-specific)
Onset: sudden onset, usually at rest
Character: heavy / crushing / tightness
Radiation: classically to the left arm, neck, jaw
Associated symptoms: dyspnoea, nausea, vomiting, diaphoresis
Timing: often lasts >15 min and does not resolve spontaneously
Exacerbating factors: often precipitated by exertion or emotional stress but may occur at rest (ACS symptoms is characteristically not relieved by rest and nitrate)
Severity: can be severe

Typical ACS features:

Chest pain / discomfort lasting >15 min
Chest pain associated with dyspnoea, nausea, vomiting, and diaphoresis (particularly a combination of these)
Chest pain associated with haemodynamic instability
Abrupt deterioration in previously stable angina, with recurrent chest pain occurring frequently and with little or no exertion

Atypical features of ACS include epigastric pain or the absence of chest pain with accompanying N&V, dyspnoea, and diaphoresis. They are usually seen in:

Inferior MI (esp. if epigastric pain)
Female
Diabetes (due to autonomic neuropathy)

Reproducible chest pain on palpation makes ACS less likely, it is more suggestive of musculoskeletal causes of chest pain.

Other clues of musculoskeletal chest pain:

Pain on movement
Pain in a very specific location (cardiac chest pain is typically non-specific)

Referral and Initial Assessment

Referral Criteria

This mainly applies to those who present to a non-hospital setting (e.g. GP, health centre)

There are 2 main referral scenarios:

Scenario	Recommended action
Current ongoing chest pain, or Currently pain-free, but last episode of chest pain was <12 hours ago, and ECG is abnormal (or not available)	Emergency referral to hospital (usually via ambulance)
Currently pain-free, but last episode of chest pain was 12-72 hours ago	Urgent same-day referral to hospital

Initial Assessment

Apart from a detailed clinical history and examination, perform ALL the following in suspected ACS cases:

12-lead ECG – most immediate test to perform (followed by serial ECGs)
High-sensitivity cardiac troponin T/I (followed by serial samples)

Other tests (non-ACS specific, but are routinely performed in patients with chest pain)
- Chest X-ray – to rule out chest pathology and ACS complications
- Routine bloods (including FBC, LFT, renal function, blood glucose)

Diagnostic Criteria

Diagnostic criteria of ACS: ^[Ref]

ACS spectrum	Diagnostic criteria
STEMI	Rise and/or fall of cardiac troponin (at least 1 value >99th percentile upper reference limit), and Clinical evidence of myocardial ischaemia – new ECG changes or ACS symptoms
NSTEMI
Unstable angina	Clinical evidence of myocardial ischaemia – ACS symptoms +/- new ECG changes, and Troponin level normal (<99th percentile upper reference limit + no dynamic pattern)

ACS spectrum

Diagnostic criteria

STEMI

Rise and/or fall of cardiac troponin (at least 1 value >99th percentile upper reference limit), and
Clinical evidence of myocardial ischaemia – new ECG changes or ACS symptoms

NSTEMI

Unstable angina

Clinical evidence of myocardial ischaemia – ACS symptoms +/- new ECG changes, and
Troponin level normal (<99th percentile upper reference limit + no dynamic pattern)

Troponin Interpretation

Rise and/or fall of cardiac troponin is indicative of myocardial infarction (STEMI and NSTEMI) (but not unstable angina, as there is no necrosis) ^[Ref]

Troponin is a marker of myocardial injury, not specific to MI
Necrosis in STEMI and NSTEMI causes a dynamic release of troponin, thus the rise and/or fall pattern
A persistently raised troponin level is NOT indicative of ACS

Choice of cardiac biomarkers in re-infarction (myocardial infarction occurring within 28 days from the initial event) (NB if it occurs >28 days, it is termed a recurrent infarction)

Creatine kinase-MB was historically used to diagnose re-infarction due to its shorter half life (compared to troponin), which allows the detection a new rise after the initial peak
However latest guidelines recommend cardiac troponin as the preferred biomarker in re-infarction ^[Ref1]^[Ref2]
- If a re-infarction is suspected, a cardiac troponin measurement should be obtained immediately, followed by a second sample at 3-6 hours after
- Re-infarction can be diagnosed if there is a ≥20% increase in the second ≥20% increase in the second cTn value, provided this value also exceeds the 99th percentile upper reference limit (provided this value also exceeds the 99th percentile upper reference limit)

Important non-ACS causes of elevated troponin: ^[Ref]

Category	Important causes
Cardiovascular causes	Myocarditis (NB pericarditis alone would not raise troponin but myopericarditis is common) Tachyarrhythmias Severe hypertension Pulmonary embolism → right ventricular strain Aortic dissection
Non-cardiac causes	Renal failure Sepsis Stroke Subarachnoid haemorrhage Multi-organ failure

ECG Interpretation

STEMI

Dynamic ECG changes seen in STEMI: ^[Ref]

ST elevation in ≥2 contiguous leads
Reciprocal ST depression in opposite territory – presence strengthens diagnosis of STEMI as opposed to other causes of ST elevation
Hyperacute T waves, T wave inversion, pathological Q wave

Dynamic changes in ECG (and troponin levels) are characteristic of ACS.

ECG changes over time in STEMI:

Hyperacute T waves
ST elevation
T wave inversion
Q wave (pathological) formation – may persist indefinitely

ECG changes in various myocardial territories: ^[Ref]

Territory	Coronary artery involved	Leads with ST elevation	Leads with reciprocal ST depression	Other notes
Anterior	LAD	V1-V4	Inferior leads (II, III, aVF)	Poor R wave progression is common
Lateral	LCx	V5-V6, I, aVL	Often occurs with anterior MI (anterolateral MI)
Inferior	RCA	II, III, aVF	Lateral leads (I, aVL +/- V5-V6)	AV block is common in inferior MI
Posterior	PDA	V7-V9	Anterior leads (V1-V4)	Often occurs with inferior MI, always consider using posterior leads (V7-V9) in inferior MI to exclude posterior MI

Other important causes of ST elevation:

Cause	Features
Pericarditis	Widespread ‘global’ changes (not specific to myocardial territory): Concave (‘saddle-shaped’) ST elevation PR depression No reciprocal ST depression, apart from in V1 and aVR Clinical features are important in distinguishing from STEMI: Viral prodrome Pleuritic chest pain (worse with lying flat and relieved sitting forward) Pericardial rub possible
Myocarditis	Non-specific ECG changes, often widespread: ST elevation (may mimic pericarditis or STEMI) T wave inversion Arrhythmias Clinical features are important in distinguishing from STEMI: Clinical features are important in distinguishing acute myocarditis from STEMI: Absence of cardiovascular risk factors (e.g. non-smoker, normotensive etc.) Younger patients (often male) Viral prodrome Chest pain is typically sharp, central, and pleuritic (but also possible to be pressure-like / constricting, mimicking ischaemic chest pain) Note that myocarditis commonly causes an elevated cardiac troponin
Left bundle branch block	ECG changes: Wide QRS complex Discordant ST elevation (ST elevation only in leads with -ve QRS) Deep S wave in V1 and broad notched R wave in V6
Brugada syndrome	ECG changes seen in V1-V3 Coved ST elevation T wave inversion
Prinzmetal (vasospastic) angina	Transient ST elevation during angina episodes Classically caused by cocaine induced coronary vasospasm
Early repolarisation	Seen in young, healthy adults Widespread concave ST elevation – non-dynamic J-point notching

NSTEMI and Unstable Angina

Main changes include: ^[Ref]

Normal ECG
ST depression (horizontal / down-sloping)
T wave inversion

Management

Immediate Management

Once ACS is suspected based on clinical suspicion, the following should be started ASAP (often given at pre-hospital):

Aspirin 300mg
Pain relief
- GTN (sublingual /buccal) – should be avoided in suspected right ventricular infarction (e.g. inferior MI)
- IV morphine (esp. if MI is suspected)
Oxygen therapy (only if SpO₂ <94%, or <88% in those who are at risk of type 2 respiratory failure)

MONA is a common acronym

M – Morphine
O – Oxygen
N – Nitrate
A – Aspirin 300mg

Definitive Management

There are 2 management pathways – depending on whether it is STEMI or non-STEMI (i.e. NSTEMI and unstable angina):

STEMI pathway – 2 options
- Reperfusion therapy (PCI / fibrinolysis)
- Medical management

NSTEMI / unstable angina pathway – 2 options (depending on risk stratification)
- PCI
- Medical management

The STEMI criteria as per ESC guidelines:

New ST elevation at J point in ≥2 contiguous leads:

ST elevation in V2-V3
- Men <40 y/o: ≥2.5mm
- Men ≥40 y/o: ≥2.0mm
- Women of any age: ≥1.5mm
AND/OR
Other leads: ≥1mm in the absence of LVH / LBBB

STEMI Management Algorithm

Initial management: aspirin 300mg (if not already given as part of immediate management)

Definitive management depends on eligibility for reperfusion therapy, which is determined by time from symptom onset – cut-off is 12 hours.

Symptom Onset <12 hours → Reperfusion Therapy

There are 2 options for reperfusion therapy:

Angiography +/- percutaneous coronary intervention (PCI)
Fibrinolysis (medical)

The choice is determined by whether there is access to PCI within 120 min (2 hours).

NICE guidelines also made the following recommendations regarding PCI:

Offer if symptoms onset <12 hours with acute STEMI + cardiogenic shock

Consider if onset >12 hours with evidence of MI

Consider if onset >12 hours but develops cardiogenic shock

Access Within 120 min → Angiography +/- PCI

Recommendations regarding angiography +/- PCI:

Drug-eluting stent preferred over bare metal stent, if stenting indicated
Radial access is preferred over femoral access

Adjuvant drug therapy:

Dual antiplatelet therapy
- 1st line: aspirin + prasugrel
- If patient already takes oral anticoagulant: aspirin + clopidogrel

Anti-thrombin therapy during PCI
- Radical access: UFH + bailout GpIIb/IIIa inhibitor
- Femoral access: bivalirudin + bailout GpIIb/IIIa inhibitor

Choice of drug is often not that straightforward. Influenced by local guidelines and local availability.

NICE also recommend offering ticagrelor or clopidogrel as an alternative in people aged 75 and over, considering whether the risk of bleeding with prasugrel outweighs its benefit.

No Access Within 120 min → Fibrinolysis

Offer all the following:

Fibrinolytic agent: tissue plasminogen activator (e.g. alteplase, streptokinase)
Anti-thrombin
Dual antiplatelet therapy
- 1^st line: aspirin + ticagrelor
- High bleeding risk: aspirin + clopidogrel OR aspirin monotherapy

Then, offer ECG 60-90 minutes after:

If ST elevation still present on ECG → immediate angiography +/- PCI if indicated
Do not repeat fibrinolytic therapy

Symptom Onset >12 hours → Medical Management

Dual antiplatelet therapy

1^st line: aspirin + ticagrelor
High bleeding risk: aspirin + clopidogrel OR aspirin monotherapy

Tests Before Discharge

Offer echocardiogram to assess left ventricular function in all patients who had a STEMI.

NSTEMI / Unstable Angina Management Algorithm

Initial management (both):

Aspirin 300mg (if not already given as part of immediate management)
Antithrombin therapy
- 1st line: fondaparinux
- If high bleeding risk / renal impairment (creatinine >265 mmol/L) / immediate angiography planned: UFH

Definitive management depends on risk stratification with GRACE score (predicts 6-month mortality).

If the patient is clinically unstable → offer immediate PCI without taking GRACE score into account.

GRACE >3.0% (intermediate / high / highest)

Offer all of the following:

Angiography +/- PCI within 72 hours
UFH, even if fondaparinux has been given
Dual antiplatelet therapy
- 1st line: aspirin + prasugrel / ticagrelor
- Already taking oral anticoagulant: aspirin + clopidogrel

Recommendations regarding angiography +/- PCI:

Drug-eluting stent, if stenting indicated
Radial access, preferred over femoral access

GRACE ≤3.0% (low / lowest)

Medical management with dual antiplatelet therapy:

1^st line: aspirin + ticagrelor
High bleeding risk: aspirin + clopidogrel OR aspirin monotherapy

Only consider angiography +/- PCI if ischaemia testing is positive

Tests Before Discharge

Offer echocardiogram to assess left ventricular function
- In all NSTEMI cases
- Consider in unstable angina

Consider ischaemia testing in those who have been medically managed without coronary angiography

Choice of Dual Antiplatelet Therapy in ACS

The choice of DAPT in ACS is confusing; therefore this section serves to summarise the recommendations.

However, it is extremely unlikely that the UKMLA to question on ticagrelor vs prasugrel vs clopidogrel. It should be sufficient to learn that DAPT (aspirin + another P2Y12 inhibitor) is given in ACS.

Scenarior	Choice of DAPT
PCI is not intended (applies for STEMI, NSTEMI, unstable angina)	1^st line: aspirin + ticagrelor High bleeding risk: aspirin + clopidogrel OR aspirin monotherapy
PCI is intended for STEMI	1^st line: aspirin + prasugrel If taking oral anticoagulant: aspirin + clopidogrel
PCI is intended for NSTEMI / unstable angina	1^st line: aspirin + prasugrel / ticagrelor If taking oral anticoagulant: aspirin + clopidogrel

The above recommendations are based on outcomes in various trials. Key points to be aware of, regarding the choice of P2Y12 inhibitors:

Clopidogrel has the lowest bleeding risk (but moderate efficacy at reducing thrombotic events)
Prasugrel and ticagrelor have greater efficacy at reducing thrombotic events, but at the cost of a higher bleeding risk
Prasugrel is by far the most potent agent

ACS Secondary Prevention Guidelines

Conservative Management

Cardiac rehabilitation program
Lifestyle advice
- Mediterranean-style diet
- Regular physical activity
- Smoking cessation
- Advice on alcohol consumption
- Weight management
- Sexual activity can be resumed 4 weeks after

NICE guideline recommendations regarding various supplements:

Omega-3 fatty acid	Do not recommend But if the person chooses to, there is no evidence of harm
Beta-carotene	Advise against
Vitamin E/C/B9 (folic acid)	Do not recommend

Pharmacological Management

Offer ALL the following to ALL patients:

Dual antiplatelet therapy
- Aspirin lifelong (if aspirin not appropriate → clopidogrel)
- 2nd antiplatelet agent for up to 12 months
High-intensity statin (e.g. atorvastatin 80mg) life-long
ACE inhibitor for life-long – start once hemodynamically stable
Beta blocker for 12 months if normal LVEF – start once hemodynamically stable

Add-on if there are heart failure features and ↓ LVEF

Aldosterone antagonist (e.g. spironolactone) – initiate within 3-14 days of MI, preferably after starting ACE inhibitor

Acute Coronary Syndrome (ACS)

Background Information

Definitions

Risk Factors

Complications

Diagnosis

Clinical Features

Referral and Initial Assessment

Referral Criteria

Initial Assessment

Diagnostic Criteria

Troponin Interpretation

ECG Interpretation

STEMI

NSTEMI and Unstable Angina

Management

Immediate Management

Definitive Management

STEMI Management Algorithm

Symptom Onset <12 hours → Reperfusion Therapy

Access Within 120 min → Angiography +/- PCI

No Access Within 120 min → Fibrinolysis

Symptom Onset >12 hours → Medical Management

Tests Before Discharge

NSTEMI / Unstable Angina Management Algorithm

GRACE >3.0% (intermediate / high / highest)

GRACE ≤3.0% (low / lowest)

Tests Before Discharge

Choice of Dual Antiplatelet Therapy in ACS

ACS Secondary Prevention Guidelines

Conservative Management

Pharmacological Management

References

NICE Visual Summary – STEMI Management

NICE Visual Summary – NSTEMI and Unstable Angina

NICE Visual Summary – Secondary Prevention

Original Guidelines

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