ACC 2024 Expert Consensus Decision Pathway on Myocarditis
Comprehensive Summary: Imaging Recommendations with Focus on CMR
Citation: Drazner MH, et al. 2024 ACC Expert Consensus Decision Pathway on Strategies and Criteria for the Diagnosis and Management of Myocarditis. JACC 2025;85(4):391-431
Significance: First ACC Expert Consensus providing structured decision pathways for myocarditis diagnosis and management, including explicit follow-up imaging protocols stratified by risk.
1. Novel Stage-Based Classification System
The document introduces a staging system analogous to heart failure:
| Stage | Definition | Imaging Role |
|---|---|---|
| A | Risk factors for myocarditis (e.g., recent viral illness + troponin elevation) but no confirmed diagnosis | Baseline echo recommended |
| B | Subclinical myocarditis: CMR or histological evidence without symptoms | CMR follow-up recommended |
| C | Symptomatic myocarditis | Risk-stratified imaging protocol |
| D | Advanced: cardiogenic shock, refractory VT, need for MCS | CMR when stabilised |
Key implication: Stage B formally recognises patients with incidental CMR findings of myocarditis—a previously under-addressed group.
2. CMR: The Gold Standard for Noninvasive Diagnosis
Position Statement
CMR is widely endorsed for assessing myocarditis with a Class 1 indication in various guidelines. The document positions CMR as: - Gold-standard for noninvasive multiparametric tissue characterisation - Essential for assessing cardiac structure and function - Key tool for prognostication through serial imaging
Updated Lake Louise Criteria (2018) Application
The document applies the updated Lake Louise Criteria as established by Ferreira et al.¹
Diagnosis requires ≥1 T2-based + ≥1 T1-based criterion:
T2-based (oedema): - Global or regional ↑ myocardial T2 relaxation time - ↑ signal intensity on T2-weighted imaging
T1-based (injury/fibrosis): - ↑ native T1 - ↑ extracellular volume (ECV) - Late gadolinium enhancement (LGE) in non-ischaemic pattern
Important nuance: Having only 1 criterion (T1 OR T2 alone) may still support diagnosis in appropriate clinical context, but with lower specificity—“added caution needed.”
3. CMR Technical Considerations
Timing
- Diagnostic sensitivity depends on timing relative to myocardial injury
- “MRI-negative myocarditis” may occur when:
- Methods not sufficiently sensitive/high-resolution
- Technical limitations (tachyarrhythmia, motion, artefacts)
- Insufficient experience at imaging centre
Protocol Recommendations
- Standard: Cine imaging, T1/T2 mapping, LGE
- Additional: “Reasonable to include stress perfusion” to help exclude ischaemic aetiology
- Advanced: CMR strain (feature-tracking or tissue tagging) for subtle dysfunction
LGE Pattern Recognition
| Pattern | Association |
|---|---|
| Mid-wall/subepicardial, lateral/inferior | Classic myocarditis |
| Diffuse subendocardial + LV thrombus | Eosinophilic myocarditis |
| Ring-like mid-wall/subepicardial | Desmoplakin and other genetic cardiomyopathies |
| Midwall septal | Poor prognosis marker |
4. Structured Follow-up Imaging Protocol (Table 3)
This is a major contribution—first explicit guidance on imaging timing by risk.
Low-Risk Stage C (all of: normal LVEF, no LGE, haemodynamically/electrically stable):
| Timepoint | Test |
|---|---|
| 2-4 weeks | Office visit + Echocardiogram (with strain) |
| 6 months | Echocardiogram |
Stage D or Medium/High-Risk Stage C (any of: ↓LVEF, NSVT/higher-grade ectopy, significant bradyarrhythmia, LGE on CMR, ↑18F-FDG on PET, haemodynamic instability/clinical HF):
| Timepoint | Test |
|---|---|
| 2-4 weeks* | Office visit + Biomarkers + ECG + Echocardiogram |
| Interval | Titrate GDMT for HFrEF |
| 6 months | CMR |
*Patients with symptomatic HFrEF should be seen within 1 week of discharge
Athletes: CMR may be repeated as early as 3 months (for return-to-sport decisions)
5. Prognostic Value of Serial CMR
Key Findings from Evidence Review
Follow-up CMR at 3-6 months: - More sensitive at detecting persistent inflammation than serial echo or biomarkers² - T1 and T2 may remain elevated after normalisation of T2 ratio, EGE ratio, and ECV
Prognosis by CMR findings (Aquaro et al., n=202 with follow-up CMR, 7-year follow-up)³:
| Follow-up CMR Finding | n | Cardiac Events | Event Rate |
|---|---|---|---|
| LGE + oedema persist | 22 | 19 | 86% |
| LGE without oedema | — | — | Intermediate |
| No LGE, no oedema | — | 0 | 0% |
Independent predictors of cardiac events (multivariable analysis)³: 1. Midwall septal LGE pattern on follow-up CMR (HR 2.8; 95% CI 1.1-7.2; p=0.028) 2. Persistence of LGE without oedema (HR 4.5; 95% CI 1.3-14.5; p=0.008)
6. Other Imaging Modalities
Echocardiography
- First-line imaging: widely available, no contraindications
- Features suggesting myocarditis: ↑ wall thickness, ↓ LVEF, WMA, pericardial effusion
- Strain imaging: Can detect subclinical dysfunction; reduced GLS associated with VA and outcomes
- Limitation: Not specific for myocarditis (cannot differentiate from other cardiomyopathies)
Nuclear/PET Imaging (Section 4.2.5)
FDG-PET: - Detects metabolically active inflammatory cells - Requires careful patient preparation (12-24h high-fat/low-carb diet, then 6-12h fasting) - Useful when CMR not feasible (arrhythmia, non-CMR-compatible device)
Hybrid PET/CMR: - May offer incremental value vs either modality alone - Improves sensitivity for detecting inflammation in areas difficult for CMR (e.g., near devices)
7. Role of CMR in Return-to-Sport Decisions
Figure 11 Algorithm: Athletes abstain from strenuous activity until: 1. Symptoms resolved 2. Biomarkers normalised 3. No significant arrhythmias on 24h monitoring 4. CMR shows resolution of inflammation (can be done at 3 months)
Abnormal follow-up CMR (any of: ↓LVEF/RVEF, evidence of non-ischaemic inflammation, LGE) = continued restriction from competitive sports.
8. Diagnostic Pathway Integration
CMR is positioned as a key decision node when: - Troponin elevated + symptoms suggest myocarditis - Echo shows new dysfunction without clear aetiology - Distinguishing myocarditis from ACS (include stress perfusion) - Incidental finding of LGE on CMR done for other indications (→ Stage B) - Assessment for recovery/persistence of inflammation
Complementary Roles: CMR vs EMB
| CMR | EMB |
|---|---|
| Noninvasive | Invasive (0.6-5% complication rate) |
| Assesses whole myocardium | Sampling error |
| Cannot determine histotype | Gold standard for histotype (viral, GCM, etc.) |
| High sensitivity/specificity when criteria met | Needed when specific aetiology changes management |
9. Summary: What Clinicians Should Do
- Use stage-based approach to classify patients (A-D)
- Order CMR for diagnosis when myocarditis suspected (include T1/T2 mapping, LGE)
- Consider stress perfusion in CMR protocol if ischaemia not excluded
- Risk-stratify patients based on LVEF, LGE presence, arrhythmias
- Follow structured protocol for repeat imaging:
- Low-risk: Echo at 2-4 weeks and 6 months
- Medium/high-risk: Echo at 2-4 weeks, CMR at 6 months
- Recognise prognostic patterns: Persistent LGE ± oedema on follow-up = higher risk
- Athletes: CMR at 3 months acceptable for return-to-sport clearance
- Consider FDG-PET when CMR inconclusive or contraindicated
Key CMR References
Ferreira VM, Schulz-Menger J, Holmvang G, et al. Cardiovascular magnetic resonance in nonischemic myocardial inflammation: expert recommendations. J Am Coll Cardiol 2018;72:3158-76. [Updated Lake Louise Criteria]
Berg J, Kottwitz J, Baltensperger N, et al. Cardiac magnetic resonance imaging in myocarditis reveals persistent disease activity despite normalization of cardiac enzymes and inflammatory parameters at 3-month follow-up. Circ Heart Fail 2017;10:e004262.
Aquaro GD, Ghebru Habtemicael Y, Camastra G, et al. Prognostic value of repeating cardiac magnetic resonance in patients with acute myocarditis. J Am Coll Cardiol 2019;74:2439-48. [Key prognostic serial CMR study]
Messroghli DR, Moon JC, Ferreira VM, et al. Clinical recommendations for cardiovascular magnetic resonance mapping of T1, T2, T2* and extracellular volume: a consensus statement by the Society for Cardiovascular Magnetic Resonance. J Cardiovasc Magn Reson 2017;19:75. [T1/T2 mapping technical standards]
Document prepared for www.cardiac-imaging.org Last updated: January 2026