The most common primary cardiac tumor is the atrial myxoma, which accounts for 40-50% of all these neoplasms.[1] The remainder of the pathological spectrum includes benign and malignant cell types. Although the overall incidence of primary cardiac neoplasms is low (0.0001-0.5% in autopsy series), these cardiac tumors provide unique diagnostic and therapeutic challenges.[2, 3, 4, 5]
View Image | Low-power photomicrograph of cardiac myxoma (hematoxylin and eosin stain). |
View Image | High-power photomicrograph showing the histology of cardiac myxoma (hematoxylin and eosin stain). Note the dark staining polygonal cells characteristi.... |
The clinical symptoms caused by cardiac tumors are generally secondary to their mass effect, local invasion, embolization, or constitutional symptoms. An intracardiac tumor mass may obstruct blood flow, compromise valve function, or induce neurological catastrophe secondary to tumor embolization. The location of the tumor determines the type of symptoms produced, which can include syncope, angina, dyspnea, edema, ascites, depression of pump function, cardiomyopathy, and pulmonary hypertension. Some tumors produce no symptoms and are found incidentally as a consequence of secondary symptoms such as stroke or evidence of peripheral embolization.
Most benign tumors can be resected completely with excellent outcomes. Consider heart transplantation in those instances in which the benign tumor is too large to resect. Resection is the treatment of choice for malignant cardiac tumors; however, long-term results are dismal, even with the addition of adjuvant therapy.[6]
Several types of tumors can arise in the heart, depending upon the tissues and structures involved. Primary neoplasms may arise from endocardium, valvular structures, primitive tissue rests, and the conduction system. Secondary or metastatic neoplasms arise from hematologic spread of the originating tissue. The physiologic derangements induced by the tumor are dependent upon the location of the mass and the tissue from which it arises.
United States
Incidence depends upon tumor cell type. Overall incidence of the disease is 0.0001-0.5% in autopsy series. Myxomas account for 40-50% of primary cardiac tumors in patients aged 30-60 years.
International
Rates of cardiac tumors in other countries parallel rates in the United States.
See the list below:
Primary cardiac tumors appear to occur equally in all races, unless their presence is connected directly with underlying genetic disorders that demonstrate a race predilection. The frequencies of these tumors in males and females are the same.
Cardiac tumors can occur in all age groups, but the following variations are seen:
Myxomas are often asymptomatic, but these tumors can produce symptoms by releasing substances that lead to inflammatory signs, including fever, tachycardia, and tachypnea. Myxomas also present as acute vascular insufficiency of the extremities from embolization. If myxomas are large, they will cause intracardiac obstruction manifested as dyspnea, syncope, or congestive heart failure.
Often, examination of patients with cardiac tumors yields no abnormal physical findings unless the tumor is large or produces substances that may cause secondary symptoms or findings.
Erythrocyte sedimentation rate (ESR) is a nonspecific test for which results may be elevated in the presence of a cardiac tumor.
See the list below:
ECG is ordered to detect potential arrhythmias that may be associated with tumors. These arrhythmias include atrial fibrillation, paroxysmal atrial tachycardia, and ventricular arrhythmias.
Myxomas are gelatinous in nature with rests of spindle cells (see the images below).[20]
View Image | Low-power photomicrograph of cardiac myxoma (hematoxylin and eosin stain). |
View Image | High-power photomicrograph showing the histology of cardiac myxoma (hematoxylin and eosin stain). Note the dark staining polygonal cells characteristi.... |
If DNA tetraploidy is present, suspect malignancy. Fibroelastomas are composed of endocardium, fibrous tissue, elastic fibers, and smooth muscle cells arranged in a central stock of collagen and a covering of hyperplastic endothelial cells.
No particular staging exists for cardiac tumors. The TNM nomenclature for primary cardiac tumors is not applicable due to their behavior and rarity. For metastatic disease to the heart, it is clear that M staging is appropriate.
For those tumors presenting with cardiac arrhythmias, standard medical management of the arrhythmia is warranted until the diagnosis is established and definitive therapy undertaken. In the case of paragangliomas, treat hypertension with beta-blockade until resection is undertaken.
When possible, treatment of choice for cardiac tumors is complete resection.[21, 22, 23] In patients whose tumors are determined to be malignant, adjuvant therapy (ie, chemotherapy, radiation) after resection did not affect the outcome.[6] Cardiac transplantation has been used for benign and malignant tumors.[24] Series using this therapy have been too small to use in predicting outcomes.
For patients who present with paraganglioma, hypertension, or arrhythmias, beta-blockade is the medical treatment of choice until surgical intervention can be undertaken.
Clinical Context: Selective beta1 adrenergic receptor blocker that decreases automaticity of contractions. During IV administration, carefully monitor BP, heart rate, and ECG.
Clinical Context: Nonselective beta-adrenoreceptor blocker with alpha-adrenergic blocking activity of equal potency. No intrinsic sympathomimetic activity has been documented.
Clinical Context: Selectively blocks beta1 receptors with little or no effect on beta2 receptors.
This category of drugs has the potential to suppress ventricular ectopy due to ischemia or excess catecholamines. In the setting of myocardial ischemia, beta-blockers have anti-arrhythmic properties and reduce myocardial oxygen demand secondary to elevations in heart rate and inotropy.
Annually monitor patients who have undergone resection for cardiac tumors with echocardiography in order to assess for recurrences. With the more aggressive malignant tumors, follow up every 3-6 months.
Complications encountered after resection of cardiac tumors can include valvular insufficiency, complete heart block requiring pacemaker insertion, atrial and ventricular arrhythmias, and stroke.
Prognosis for benign tumors is excellent, matching that of the healthy population.[25]
Malignant tumors carry a dismal prognosis even in the face of complete resection. An occasional sarcoma can be resected completely, resulting in long-term survival.