Adrenergic myocarditis

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Twinkle Singh, M.B.B.S. [2]

Synonyms and keywords: Neurogenic stunned myocardium, catecholamine induced cardiomyopathy, catecholamine mediated myocarditis, focal myocardial necrosis, norepinephrine myocarditis.

Overview

Adrenergic myocarditis is a reversible phenomenon of catecholamine mediated myocardial inflammation seen in pheochromocytoma. Pheochromocytoma is a tumor of adrenal medulla which produces excess amount of catecholamines. Wide spectrum of myocardial dysfunctions are present in pheochromocytoma which include acute myocardial infarction (both ST elevation and non ST elevation), cardiomyopathy, takotsubo cardiomyopathy, congestive heart failure, acute pulmonary edema and cardiac arrythmia. Direct myocardial injury caused by catecholamines is the most popular theory among other suggested causes.[1]

Historical Perspective

Clinically significant myocarditis is rare in pheochromocytoma, however, studies have shown that 50% of patients with pheochromocytoma had evidence of acute myocarditis on autopsy.[2] Pheochromocytoma classically presents with episodic hypertension, sweating, tremors and palpitations, 12% of patients have cardiac symptoms as their initial manifestation.[3] For the first time in 1987, Mc-Ginley et al described catecholamine induced myocarditis as the presenting manifestation of pheochromocytoma.[4] In one study done by Sardesai etal five out of six patients with pheochromocytoma presented with acute pulmonary edema and died with in 24 hours.[5] Four out of those five patients had evidence of focal myocardial necrosis on autopsy.

Pathophysiology

A number of mechanisms have been suggested to explain catecholamine mediated myocardial necrosis and inflammation:

  • Direct toxic effect of catecholamines on cardiomyocytes mediated by Cycline adenosine monophosphate|cyclic-AMP results in increased calcium inside cells. This in turn impair their structure and function.[6]
  • Increased free radical production by catecholamines also contributes to cell damage.[7]
  • Vasospasm caused by catecholamines.

Microscopic Features

Initially focal lesions of necrosis have edema and myofibril degeneration. This initial necrosis results in inflammatory infiltration with monocytes. Histological changes include focal degeneration, contraction band necrosis, thickening of small and medium sized coronary arteries and interstitial fibrosis.[2][5]

Differentiating Adrenergic Cardiomyopathy from other Diseases

Stress Cardiomyopathy

Stress cardiomyopathy, also known as Takotsubo cardiomyopathy, is a reversible cardiac condition where catecholamines involvement has been suggested to contribute to its pathophysiology. It occurs as a result of sudden emotional or physical stress. Hypokinesia of the myocardial apex specifically results in apical ballooning of the myocardium. Adrenergic myocarditis on the other hand can affect the myocardium focally as well as globally and does not show apical ballooning on echocardiography.[1]

Acute Coronary Syndrome

As acute coronary syndrome manifests very similarly to adrenergic myocarditis, it has to be ruled out with coronary angiography. Adrenergic myocarditis lacks any evidence of coronary artery disease.

Neurogenic Stunned Myocardium

Neurogenic stunned myocardium is also a type of myocardial hypokinesia which can occur in the setting of stroke and subarachnoid hemorrhage. Catecholamines have been implied in its pathophysiology.

Diagnosis

History

The majority of pheochromocytoma patients present with a triad of headache, sweating and palpitations. Weight loss, chest pain, blurring of vision and pallor are among other less common symptoms. Paroxysmal hypertension along with the presence of positive family history should raise suspicion of pheochromocytoma.

Signs and symptoms

Tests

Cardiac Enzymes

Cardiac enzymes are elevated in adrenergic cardiomyopathy. The cardiac enzymes normalize after resection of the tumor.

Coronary angiography

As adrenergic myocarditis presents with symptoms similar to acute coronary syndrome, ACS has to be ruled out initially with coronary angiography.

Echocardiography

Systolic anterior motion of mitral valve, global myocardial hypokinesia, hypokinesia of base and apex, and decreased ejection fraction are some of adrenergic myocarditis findings that can be detected by echocardiography.

Electrocardiography

EKG of a patient suffering from adrenergic myocarditis can show left ventricular hypertrophy, sinus tachycardia, ischemic changes of myocardium and transient Q waves.[8]

Cardiovascular MRI

Cardiovascular MRI can be done to confirm echocardiography findings.

Treatment

Surgical resection of the tumor is the ultimate treatment to remove excess catecholamines from the body. Alpha receptors need to be blocked before surgery with phenoxybenzamine to control hypertension.

References

  1. 1.0 1.1 Wittstein IS, Thiemann DR, Lima JA, Baughman KL, Schulman SP, Gerstenblith G; et al. (2005). "Neurohumoral features of myocardial stunning due to sudden emotional stress". N Engl J Med. 352 (6): 539–48. doi:10.1056/NEJMoa043046. PMID 15703419.
  2. 2.0 2.1 Van Vliet PD, Burchell HB, Titus JL (1966). "Focal myocarditis associated with pheochromocytoma". N Engl J Med. 274 (20): 1102–8. doi:10.1056/NEJM196605192742002. PMID 5932021.
  3. Yu R, Nissen NN, Bannykh SI (2012). "Cardiac complications as initial manifestation of pheochromocytoma: frequency, outcome, and predictors". Endocr Pract. 18 (4): 483–92. doi:10.4158/EP11327.OR. PMID 22297057.
  4. Imperato-McGinley J, Gautier T, Ehlers K, Zullo MA, Goldstein DS, Vaughan ED (1987). "Reversibility of catecholamine-induced dilated cardiomyopathy in a child with a pheochromocytoma". N Engl J Med. 316 (13): 793–7. doi:10.1056/NEJM198703263161307. PMID 2881206.
  5. 5.0 5.1 Sardesai SH, Mourant AJ, Sivathandon Y, Farrow R, Gibbons DO (1990). "Phaeochromocytoma and catecholamine induced cardiomyopathy presenting as heart failure". Br Heart J. 63 (4): 234–7. PMC 1024438. PMID 2337495.
  6. Mann DL, Kent RL, Parsons B, Cooper G (1992). "Adrenergic effects on the biology of the adult mammalian cardiocyte". Circulation. 85 (2): 790–804. PMID 1370925.
  7. Singal PK, Kapur N, Dhillon KS, Beamish RE, Dhalla NS (1982). "Role of free radicals in catecholamine-induced cardiomyopathy". Can J Physiol Pharmacol. 60 (11): 1390–7. PMID 7151008.
  8. Bertrand JH, Grollier G, Potier JC (1987). "[Transient Q wave in adrenergic myocarditis. Contribution of echocardiography apropos of a case]". Arch Mal Coeur Vaiss. 80 (11): 1675–80. PMID 3128212.


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