Myocarditis: Difference between revisions

Latest revision as of 09:24, 22 March 2026

Background

Triggers of myocarditis. Myocarditis can be induced by both infectious and non-infectious pathogens, with viral infection being the most common cause (red background).

Inflammatory cardiomyopathy caused by damage and necrosis of myocytes
Viral-induced is the most common etiology^[1]
Clinical presentation ranges from smoldering heart failure to fulminant cardiogenic shock or sudden death
Maintain high index of suspicion in younger patients without traditional CAD risk factors
Incidence: estimated 1.5 million cases worldwide annually
Giant cell myocarditis is a rapidly fatal variant requiring early recognition

Causes

Viral (most common):
- Enterovirus (Coxsackie B) and adenovirus (historically most common)
- Parvovirus B19 and HHV-6 (currently most detected on biopsy)
- Influenza A and B, HIV, hepatitis B/C, COVID-19
Bacterial: Lyme disease, beta-hemolytic strep, Mycoplasma, diphtheria
Parasitic: Chagas disease (most common cause worldwide), toxoplasma, trichinosis
Autoimmune: sarcoidosis, SLE, giant cell myocarditis
Drugs/toxins: cocaine, doxorubicin, immune checkpoint inhibitors, amphetamines

Phases

Acute: direct cytotoxicity and focal necrosis from viral, autoimmune, or toxins
Subacute: host immune response (viral molecular mimicry, anti-myocyte antibody production)
Chronic: diffuse myocardial fibrosis and cardiac dysfunction

Clinical Features

Typically young patients (20-50 years) with few risk factors for CAD
Preceding viral illness in 50-80% of cases (1-2 weeks prior)
Chest pain or chest pressure/tightness (mimics ACS)
Flu-like symptoms: fever, fatigue, myalgias, nausea/vomiting
Tachycardia out of proportion to fever
New-onset heart failure: fatigue, orthopnea, dyspnea on exertion
Consider this diagnosis in the septic-appearing patient who worsens after IV fluids
May present with sudden cardiac arrest (especially in young athletes)
Pediatric patients: see myocarditis (peds)

Differential Diagnosis

Acute coronary syndrome (most important to rule out)
Pericarditis / myopericarditis
Takotsubo cardiomyopathy (stress cardiomyopathy)
Pulmonary embolism
Pneumonia
Sepsis from other cause

Template:Chest pain DDX

Evaluation

File:12 lead EKG ST elevation with myocarditis.jpg

Diffuse ST elevation in a patient with combined myocarditis and pericarditis.

ECG

Must be obtained to rule out STEMI
Sinus tachycardia (most common finding)
Diffuse ST changes, nonspecific ST-T wave abnormalities
Low voltages
Prolonged QTc
AV block (especially with Lyme disease or sarcoidosis)
Wide QRS / new LBBB
Normal ECG does NOT rule out myocarditis

Labs

Troponin: elevated in ~50% of cases; sensitivity limited
BNP/NT-proBNP: reflects degree of heart failure
CBC, BMP, LFTs
ESR, CRP (usually elevated but nonspecific)
Consider viral serologies, Lyme titer, ANA (if autoimmune suspected)
Blood cultures (if infectious etiology suspected)

Imaging

CXR: cardiomegaly, pulmonary edema, or pleural effusion
Echocardiography (essential in ED):
- Decreased LVEF, global hypokinesis or regional wall motion abnormalities
- Can detect pericardial effusion (myopericarditis)
- Fulminant myocarditis may show normal LV dimensions with increased wall thickness
Cardiac MRI (noninvasive gold standard): myocardial edema and late gadolinium enhancement
Endomyocardial biopsy: invasive gold standard, reserved for unexplained cardiomyopathy or suspected giant cell myocarditis

Management

ED Management

IV access, continuous monitoring, 12-lead ECG
Rule out ACS: may require coronary angiography if ST elevation or high clinical suspicion
Avoid NSAIDs and aspirin in acute phase (animal studies suggest increased inflammation)
Volume status: use caution with IV fluids — may worsen heart failure
- If cardiogenic shock: consider vasopressors/inotropes (dobutamine, milrinone)
Dysrhythmia management:
- Avoid class IC antiarrhythmics
- Amiodarone for sustained VT
- Temporary pacing for complete heart block
Anticoagulation consideration if severely reduced LVEF with LV thrombus risk

Definitive Treatment

Supportive care is mainstay; most viral myocarditis self-resolves
GDMT for heart failure: ACE-I/ARB, beta-blockers, diuretics (as tolerated by hemodynamics)
Mechanical circulatory support (ECMO, VAD) for refractory cardiogenic shock
Giant cell myocarditis: requires immunosuppression (cyclosporine + corticosteroids)
Cardiac transplant for end-stage disease
Activity restriction: no competitive sports for 3-6 months per AHA guidelines^[2]

Disposition

Admit all patients with suspected myocarditis to a monitored bed
ICU admission for hemodynamic instability, arrhythmias, or reduced LVEF
Early cardiology consultation
Consider transfer to center with mechanical circulatory support capability

Prognosis

Fulminant myocarditis paradoxically has the best long-term prognosis if patient survives the acute phase
Overall mortality: ~20% at 1 year, ~50% at 5 years for non-fulminant forms
Children: ~70% survival rate at 5 years
Most patients with mild disease recover completely

Complications

Ventricular dysrhythmias / sudden cardiac arrest
Dilated cardiomyopathy
Chronic heart failure
LV aneurysm / thrombus formation

External Links

2024 ACC Expert Consensus on Myocarditis

References

↑ Cooper LT Jr. Myocarditis. N Engl J Med. 2009;360(15):1526-38. PMID 19357408
↑ Caforio ALP, et al. Current state of knowledge on aetiology, diagnosis, management, and therapy of myocarditis: a position statement of the ESC. Eur Heart J. 2013;34(33):2636-2648. PMID 23824828

Ammirati E, et al. Clinical presentation and outcome in a contemporary cohort of patients with acute myocarditis. Circulation. 2018;138(11):1088-1099. PMID 29764898
Tschöpe C, et al. Myocarditis and inflammatory cardiomyopathy: current evidence and future directions. Nat Rev Cardiol. 2021;18(3):169-193. PMID 33046850
Writing Committee; Drazner MH, et al. 2024 ACC Expert Consensus Decision Pathway on Myocarditis. J Am Coll Cardiol. 2025;85(4):391-431. PMID 39665703

Authors:

[1] Cooper LT Jr. Myocarditis. N Engl J Med. 2009;360(15):1526-38. PMID 19357408

[2] Caforio ALP, et al. Current state of knowledge on aetiology, diagnosis, management, and therapy of myocarditis: a position statement of the ESC. Eur Heart J. 2013;34(33):2636-2648. PMID 23824828

[1]

[2]

@@ Line 1: / Line 1: @@
-*[[Background|'''Background''']]
+{{Adult patient  | pediatric page=Myocarditis (peds)}}
-*[[Clinical Features|'''Clinical Features''']]
+==Background==
-*[[Diagnosis|'''Diagnosis''']]
+[[File:Triggers of myocarditis.png|thumb|Triggers of myocarditis. Myocarditis can be induced by both infectious and non-infectious pathogens, with viral infection being the most common cause (red background).]]
-*[[DDx|'''DDx''']]
+*Inflammatory [[cardiomyopathy]] caused by damage and necrosis of myocytes
-*[[Treatment|'''Treatment''']]
+*Viral-induced is the most common etiology<ref>Cooper LT Jr. Myocarditis. ''N Engl J Med''. 2009;360(15):1526-38. PMID 19357408</ref>
-*[[Dispo|'''Dispo''']]
+*Clinical presentation ranges from smoldering [[heart failure]] to fulminant [[cardiogenic shock]] or sudden death
-*[[See Also|'''See Also''']]
+*Maintain high index of suspicion in younger patients without traditional CAD risk factors
-*[[Source|'''Source''']]
+*Incidence: estimated 1.5 million cases worldwide annually
+*'''Giant cell myocarditis''' is a rapidly fatal variant requiring early recognition
-== Background  ==
+===Causes===
+*Viral (most common):
+**Enterovirus (Coxsackie B) and adenovirus (historically most common)
+**Parvovirus B19 and HHV-6 (currently most detected on biopsy)
+**Influenza A and B, [[HIV]], [[hepatitis]] B/C, COVID-19
+*Bacterial: [[Lyme disease]], beta-hemolytic strep, [[Mycoplasma]], diphtheria
+*Parasitic: Chagas disease (most common cause worldwide), toxoplasma, trichinosis
+*Autoimmune: [[sarcoidosis]], [[SLE]], giant cell myocarditis
+*Drugs/toxins: cocaine, doxorubicin, immune checkpoint inhibitors, [[amphetamines]]
-*An inflammatory cardiomyopathy, under subset of dilated cardiomyopathy caused by necrosis of myocytes from infectious agents, their toxins, and cytotoxic effects of activated host immunity
+===Phases===
-*Majority caused by enterovirus (Cocksackie B) and adenovirus. Also influenza A/B, Hep B, B Hemolytic Streptococcus, Mycoplasma, Mumps, CMV and Toxoplasma (cardiac transplant), Chagas (leading cause worldwide) Trichinosis, Diphtheria, Lyme
+*Acute: direct cytotoxicity and focal necrosis from viral, autoimmune, or toxins
-*Drugs: Doxorubicin, Cocaine
+*Subacute: host immune response (viral molecular mimicry, anti-myocyte antibody production)
+*Chronic: diffuse myocardial fibrosis and cardiac dysfunction
-*Three phases:
+==Clinical Features==
-**Acute: Viral cytotoxicity and focal necrosis
+*Typically young patients (20-50 years) with few risk factors for CAD
-**Subacute: Host's humoral/immune response leading to further cell injury
+*Preceding viral illness in 50-80% of cases (1-2 weeks prior)
-**Chronic: Diffuse myocardial fibrosis and cardiac dysfunction
+*Chest pain or chest pressure/tightness (mimics [[ACS]])
+*Flu-like symptoms: [[fever]], fatigue, [[myalgia]]s, nausea/vomiting
+*Tachycardia out of proportion to fever
+*New-onset [[heart failure]]: fatigue, [[orthopnea]], [[dyspnea]] on exertion
+*Consider this diagnosis in the septic-appearing patient who worsens after IV fluids
+*May present with [[sudden cardiac arrest]] (especially in young athletes)
+*Pediatric patients: see [[myocarditis (peds)]]
-== Clinical Features  ==
+==Differential Diagnosis==
+*[[Acute coronary syndrome]] (most important to rule out)
+*[[Pericarditis]] / [[myopericarditis]]
+*[[Takotsubo cardiomyopathy]] (stress cardiomyopathy)
+*[[Pulmonary embolism]]
+*[[Pneumonia]]
+*[[Sepsis]] from other cause
-*Typically young/few risk factors for CAD
+{{Chest pain DDX}}
-*Chest Pain
-*No sensitive symptom or sign but can have flu like syndrome: fever, fatigue, myalgia, N/V; tachycardia (out of proportion to fever), tachypnea, new onset CHF
-*In Peds: grunting, retractions, ronchi. Infants may have fulminant syndrome: Fever, cyanosis, respiratory distress, tachycardia, cardiac failure, ventricular dysrhythmias
-*May have pericardial friction rub
-== Diagnosis  ==
+==Evaluation==
+[[File:12 lead EKG ST elevation with myocarditis.jpg|thumb|Diffuse ST elevation in a patient with combined myocarditis and pericarditis.]]
+===ECG===
+*'''Must be obtained to rule out STEMI'''
+*Sinus tachycardia (most common finding)
+*Diffuse ST changes, nonspecific ST-T wave abnormalities
+*Low voltages
+*Prolonged QTc
+*AV block (especially with [[Lyme disease]] or [[sarcoidosis]])
+*Wide QRS / new [[LBBB]]
+*Normal ECG does NOT rule out myocarditis
-*ECG: Sinus tach, low voltages, prolonged QTc, AV block, Acute MI pattern (Usually &gt;1 vessel distribution)
+===Labs===
-*TropI: Elevated
+*Troponin: elevated in ~50% of cases; sensitivity limited
-*Echo: Decreased LVEF, global hypokinesis, regional wall motion abnormalities
+*BNP/NT-proBNP: reflects degree of heart failure
-*Contrast MR
+*CBC, BMP, LFTs
-*Nuclear Study: Widespread uptake indicating myocyte necrosis
+*[[ESR]], [[CRP]] (usually elevated but nonspecific)
-*Viral titers
+*Consider viral serologies, Lyme titer, ANA (if autoimmune suspected)
-*Endocardial biopsy: Gold standard
+*Blood cultures (if infectious etiology suspected)
-== DDx  ==
+===Imaging===
+*CXR: cardiomegaly, pulmonary edema, or pleural effusion
+*Echocardiography (essential in ED):
+**Decreased LVEF, global hypokinesis or regional wall motion abnormalities
+**Can detect pericardial effusion (myopericarditis)
+**Fulminant myocarditis may show normal LV dimensions with increased wall thickness
+*Cardiac MRI (noninvasive gold standard): myocardial edema and late gadolinium enhancement
+*Endomyocardial biopsy: invasive gold standard, reserved for unexplained cardiomyopathy or suspected giant cell myocarditis
-*Acute MI
+==Management==
-*Pericarditis
+===ED Management===
-*CHF
+*IV access, continuous monitoring, 12-lead ECG
+*Rule out ACS: may require coronary angiography if ST elevation or high clinical suspicion
+*Avoid NSAIDs and aspirin in acute phase (animal studies suggest increased inflammation)
+*'''Volume status''': use caution with IV fluids — may worsen [[heart failure]]
+**If [[cardiogenic shock]]: consider vasopressors/inotropes (dobutamine, milrinone)
+*Dysrhythmia management:
+**Avoid class IC antiarrhythmics
+**Amiodarone for sustained [[VT]]
+**Temporary pacing for complete heart block
+*Anticoagulation consideration if severely reduced LVEF with LV thrombus risk
-== Treatment  ==
+===Definitive Treatment===
+*Supportive care is mainstay; most viral myocarditis self-resolves
+*GDMT for heart failure: ACE-I/ARB, beta-blockers, diuretics (as tolerated by hemodynamics)
+*Mechanical circulatory support (ECMO, VAD) for refractory cardiogenic shock
+*Giant cell myocarditis: requires immunosuppression (cyclosporine + corticosteroids)
+*Cardiac transplant for end-stage disease
+*'''Activity restriction''': no competitive sports for 3-6 months per AHA guidelines<ref>Caforio ALP, et al. Current state of knowledge on aetiology, diagnosis, management, and therapy of myocarditis: a position statement of the ESC. ''Eur Heart J''. 2013;34(33):2636-2648. PMID 23824828</ref>
-*Acute Phase: Antiviral agents may be effective with replicating virus: Pleconaril/Ribavirin
+==Disposition==
-*Subacute: Studies have not shown efficacy of immunosupressants. Peds: High dose IVIG
+*Admit all patients with suspected myocarditis to a monitored bed
-*Chronic: Treat CHF symptoms, Ventricular Assist Devices (VAD), cardiac transplant
+*ICU admission for hemodynamic instability, arrhythmias, or reduced LVEF
+*Early cardiology consultation
+*Consider transfer to center with mechanical circulatory support capability
-== Dispo  ==
+==Prognosis==
+*Fulminant myocarditis paradoxically has the best long-term prognosis if patient survives the acute phase
+*Overall mortality: ~20% at 1 year, ~50% at 5 years for non-fulminant forms
+*Children: ~70% survival rate at 5 years
+*Most patients with mild disease recover completely
-*If CHF: Admit to monitored bed; ICU for hemodynamic instability
+==Complications==
-*Fulminant myocarditis has best prognosis
+*[[Ventricular dysrhythmias]] / [[sudden cardiac arrest]]
-*Mortality: 20% 1 yr/ 50% 5 yr
+*[[Dilated cardiomyopathy]]
-*Children with 70% survival rateat 5 yrs<br>
+*Chronic [[heart failure]]
-*Complications
+*LV aneurysm / thrombus formation
-**Vent. Dysrhythmias
-**LV anneurysm
-**CHF
-== See Also  ==
+==See Also==
+*[[Cardiomyopathy]]
+*[[Pericarditis]]
+*[[Heart failure]]
+*[[Cardiogenic shock]]
+*[[Myocarditis (peds)]]
-[[Cardiomyopathy]]
+==External Links==
+*[https://www.jacc.org/doi/10.1016/j.jacc.2024.10.080 2024 ACC Expert Consensus on Myocarditis]
-[[Pericarditis]]
+==References==
+<references/>
+*Ammirati E, et al. Clinical presentation and outcome in a contemporary cohort of patients with acute myocarditis. ''Circulation''. 2018;138(11):1088-1099. PMID 29764898
+*Tschöpe C, et al. Myocarditis and inflammatory cardiomyopathy: current evidence and future directions. ''Nat Rev Cardiol''. 2021;18(3):169-193. PMID 33046850
+*Writing Committee; Drazner MH, et al. 2024 ACC Expert Consensus Decision Pathway on Myocarditis. ''J Am Coll Cardiol''. 2025;85(4):391-431. PMID 39665703
-== Source  ==
+[[Category:Cardiology]]
-Rosen's, Tintinalli