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Angina Pectoris

Atrial Myxoma

Cardiomyopathy, Restrictive

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AUTHOR AND EDITOR INFORMATION

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Author: John H Raaf, MD, PhD, Professor, Department of Surgery, Case Western University

John H Raaf is a member of the following medical societies: American Association for Cancer Research, American Association of Endocrine Surgeons, American College of Surgeons, American Society of Clinical Oncology, Central Surgical Association, and Society of Surgical Oncology

Coauthor(s): Anastasios K Konstantakos, MD, Clinical Associate Surgeon, Brigham and Women's Hospital, Harvard University; Heather N Raaf, MD, Chief Deputy Coroner, Cuyahoga County Coroner's Office (Retired)

Editors: Robert C Shepard, MD, FACP, Associate Professor of Medicine in Hematology and Oncology at University of North Carolina at Chapel Hill; Vice President of Scientific Affairs, Therapeutic Expertise, Oncology, at PRA International; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Rajalaxmi McKenna, MD, FACP, Consulting Staff, Department of Medicine, Southwest Medical Consultants, SC, Good Samaritan Hospital, Advocate Health Systems; Jules E Harris, MD, Visiting Professor of Medicine, Division of Hematology/Medical Oncology, Department of Internal Medicine, University of Arizona College of Medicine at Tucson; Consulting Staff, Arizona Cancer Center

Author and Editor Disclosure

Synonyms and related keywords: angiosarcoma, metastatic cardiac sarcoma, rhabdomyosarcoma, malignant schwannoma, mesothelioma, fibrosarcoma, malignant fibrous histiocytoma, heart tumor, heart sarcoma, heart malignancy, heart cancer, cancer


INTRODUCTION

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Background

Primary cardiac neoplasms are rare entities,1 with an autopsy prevalence of 0.001-0.28%. The most common primary malignant tumor of the heart and pericardium is sarcoma.

Pathophysiology

The diagnosis of cardiac sarcoma is often not made preoperatively or even antemortem. It is overlooked because of the rarity of the lesion and the nonspecific nature of the symptoms and signs. Tumors that originate in the epicardium or pericardium and that lead to cardiac encasement may cause chest pain, hypotension, tachycardia, and malaise. Diminished cardiac sounds and a friction rub may be heard.

Cardiac tamponade (usually from a persistent and bloody pericardial effusion) may eventually cause intractable cardiac failure. Myocardial involvement may lead to refractory arrhythmias, heart block, heart failure, angina, or infarction. Endomyocardial masses cause valvular obstruction or insufficiency. Rarely, a pedunculated tumor causes an audible plop from tumor prolapse through a valve. Tumor fragments may embolize from the right side of the heart to the lungs and cause dyspnea or hemoptysis. Left-sided emboli may lead to cerebrovascular accidents, peripheral organ infarctions, seizures, and distant metastases. Local extension of tumors may cause signs and symptoms such as superior vena cava syndrome, hemoptysis, and dysphonia.

Several subtypes of primary cardiac sarcoma exist (ie, angiosarcoma, rhabdomyosarcoma, mesothelioma, fibrosarcoma, malignant schwannoma), which occur in decreasing order of frequency in adults.

Angiosarcoma

Nearly 80% of cardiac angiosarcomas arise as mural masses in the right atrium. Typically, they completely replace the atrial wall and fill the entire cardiac chamber. They may invade adjacent structures (eg, vena cava, tricuspid valve).

These tumors are both symptomatic and rapidly fatal. Extensive pericardial spread and encasement of the heart often occur. Pericardial angiosarcoma (without myocardial involvement) occurs rarely.

Rhabdomyosarcoma

This is the second most common primary cardiac sarcoma. It has been described in all age groups. No heart chamber is particularly favored. Diffuse pericardial spread is not often observed.

A myocardial component is nearly always present; valvular interference, only occasionally. Rhabdomyosarcoma is the most common form of cardiac sarcoma in children.

Mesothelioma

These tumors typically arise in the visceral or parietal pericardium and can spread to constrict the heart. They do not invade the underlying myocardium. Extensive local spread may lead to pleural, diaphragmatic, or peritoneal involvement.

Grossly, the tumor is firm and white, with both nodular and sheetlike growth. No age group has a particular predilection for these tumors. Interestingly, no etiologic association of pericardial mesotheliomas to asbestos exposure exists, in contrast to the more typical primary pleural mesotheliomas.

Fibrosarcoma and malignant fibrous histiocytoma

These whitish lesions have a firm texture and exhibit infiltrative growth patterns. No age or cardiac chamber predilection has been noted. However, cardiac valvular involvement is found in as many as 50% of lesions. Pericardial invasion rarely occurs.

Malignant schwannoma

This tumor is derived from peripheral nerve sheath tissue. Such tumors have a spatial association with the juxtacardiac position of the vagus nerve.

Metastatic cardiac sarcoma

Metastases to the heart and pericardium are 40 times more common than primary cardiac tumors. In fact, an estimated 25% of patients who die from metastatic soft tissue sarcoma have cardiac metastases. No particular gross pattern of myocardial spread exists (ie, diffuse, nodular). In children, rhabdomyosarcoma is the most common type of sarcoma that metastasizes to the heart.

Frequency

United States

Cardiac sarcoma occurs in less than 0.2% of decedents undergoing autopsy, both nationally and internationally.

International

Figures are the same as in the United States.

Mortality/Morbidity

Data on patients with primary cardiac sarcomas have shown that median survival is 6 months from the time of diagnosis.

Sex

Sex predilection has not been defined for cardiac sarcoma.

Age

Cardiac sarcomas can occur at any age; however, children have an increased rate of cardiac rhabdomyosarcomas.


CLINICAL

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History

No typical presentation of cardiac sarcoma exists because the common symptoms and signs are nonspecific. However, patients may complain of dyspnea, chest pain, and/or generalized fatigue.

Physical

  • Cardiac sarcoma has no pathognomonic physical features that may be discovered on examination. However, the following signs may accompany cardiac sarcoma:
    • Dyspnea
    • Hemoptysis
    • Diminished cardiac sounds
    • Friction rub
    • Rales
    • Refractory arrhythmias
    • Heart block
    • Heart failure
  • An audible plop due to tumor prolapse through the mitral valve may be appreciated.
  • Left-sided embolization may lead to cerebrovascular accident, peripheral organ infarction, seizures, and distant metastases.
  • Upper extremity and facial congestion (suggestive of superior vena cava syndrome) and dysphonia may occur.

Causes

No specific causes of cardiac sarcomas are known. Cytogenetic analysis of these tumors may show numerical and structural chromosomal changes. Immunohistochemical analysis has revealed, in the case of a cardiac angiosarcoma, high expression of mutated p53 gene products.2


DIFFERENTIALS

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Angina Pectoris
Atrial Myxoma
Cardiomyopathy, Restrictive
Mediastinitis
Mesothelioma
Pericarditis, Constrictive

Other Problems to Be Considered

Because of the nonspecific presentation of cardiac sarcomas, the number of disease processes that should be considered in the differential diagnosis is vast (eg, bronchogenic carcinoma, congestive heart failure, atrial myxoma, pericarditis, pericardial tamponade, coronary insufficiency, mediastinitis, mesothelioma).


WORKUP

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Imaging Studies

  • Advances in diagnostic techniques have facilitated accurate, noninvasive assessment of cardiac sarcomas.
    • Echocardiography is the preferred diagnostic procedure for noninvasive imaging of cardiac tumors (2-dimensional and transesophageal echocardiography are complementary).3
    • CT scanning is useful in detecting cardiac lesions, documenting local invasion of adjacent structures, and defining the presence of lung or liver metastases.
    • MRI has the potential to define tumor location and surrounding anatomy and to detect response to chemotherapy.
    • Angiography can help assess coronary artery luminal status and document intracardiac and intravascular tumors as filling defects.
    • Chest radiography may exhibit generalized cardiomegaly or right-sided heart enlargement, widened mediastinum, hilar adenopathy, pulmonary congestion, or pleural effusion.

Other Tests

  • ECG
    • More than 75% of patients with cardiac sarcomas have abnormalities that are generally nonspecific on ECGs.
    • Myocardial tumors can cause arrhythmias or various degrees of heart block.
    • Nonspecific ST and T wave changes may be observed.
    • Pericardial lesions may cause tachycardia and decreased voltage.

Procedures

  • Pericardiocentesis allows cytologic examination and may relieve tamponade.
  • Endomyocardial biopsy provides tissue to use in diagnosis; however, this biopsy is not absolutely necessary preoperatively because tissue is obtained during surgical exploration.

Histologic Findings

Specific subtypes of cardiac sarcomas have characteristic gross and microscopic features (see Pathophysiology).


TREATMENT

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Surgical Care

Cardiac sarcoma is rarely cured, but prolonged survival or significant palliation is possible with surgical resection.4 Exploration with biopsy yields tissue for histologic diagnosis and assessment of the gross extent of the tumor.

  • The role of orthotopic heart transplantation for malignant cardiac tumors continues to be debated.5, 6, 7, 8
  • Bench surgery (explantation and autotransplantation of the heart) may aid in achieving more complete tumor resection.9, 10
  • Complete or partial excision of primary or metastatic cardiac sarcoma can provide hemodynamic improvement and relief from congestive heart failure. Alternatively, a pericardial window or pericardiectomy may ameliorate symptoms.
  • Postsurgical adjuvant radiation and chemotherapy have not proven consistently beneficial. However, adjuvant radiation or chemotherapy can be beneficial in ameliorating symptoms and improving quality of life.

Consultations

Cardiothoracic surgeon and/or oncologist


FOLLOW-UP

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Further Outpatient Care

No specific guidelines for follow-up care have been established; however, because of the low postoperative survival rate (median survival, 6 mo), pay careful attention postoperatively to the patient's cardiopulmonary status and overall physical state.

Prognosis

Data from patients with primary cardiac sarcomas show that median survival is approximately 6 months. Histologic type does not affect prognosis. However, more than 10 mitoses per high-power field or necrosis is correlated with a poorer outcome. Longer survival is associated with left-sided lesions.


MISCELLANEOUS

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Medical/Legal Pitfalls

  • Because of the rarity of these lesions, consideration of cardiac sarcoma in a patient with nonspecific cardiopulmonary signs and symptoms may be easy to overlook. Nevertheless, the goal of therapy is complete surgical excision after diagnosis.
  • Postoperatively, consider consultation with an oncologist, because adjuvant chemotherapy or radiotherapy may be appropriate.


MULTIMEDIA

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Media file 1:  Angiosarcoma of the heart, with pericardial encasement by hemorrhagic tumor. Image courtesy of Dr. K. Marchant.
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Media type:  Photo


REFERENCES

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  2. Zu Y, Perle MA, Yan Z. Chromosomal abnormalities and p53 gene mutation in a cardiac angiosarcoma. Appl Immunohistochem Mol Morphol. Mar 2001;9(1):24-8. [Medline].
  3. Meng Q, Lai H, Lima J. Echocardiographic and pathologic characteristics of primary cardiac tumors: a study of 149 cases. Int J Cardiol. Jul 2002;84(1):69-75. [Medline].
  4. Reardon MJ, Walkes JC, Benjamin R. Therapy insight: malignant primary cardiac tumors. Nat Clin Pract Cardiovasc Med. Oct 2006;3(10):548-53. [Medline].
  5. Gowdamarajan A, Michler RE. Therapy for primary cardiac tumors: is there a role for heart transplantation?. Curr Opin Cardiol. Mar 2000;15(2):121-5. [Medline].
  6. Grandmougin D, Fayad G, Decoene C. Total orthotopic heart transplantation for primary cardiac rhabdomyosarcoma: factors influencing long-term survival. Ann Thorac Surg. May 2001;71(5):1438-41. [Medline].
  7. Jimenez Mazuecos JM, Fuentes Manso R, Segovia Cubero J, Toquero Ramos J, Oteo Domínguez JF, Alonso-Pulpon Rivera L, et al. [Is heart transplantation for primary cardiac sarcoma a useful therapeutic option?]. Rev Esp Cardiol. Apr 2003;56(4):408-11. [Medline].
  8. Uberfuhr P, Meiser B, Fuchs A. Heart transplantation: an approach to treating primary cardiac sarcoma?. J Heart Lung Transplant. Oct 2002;21(10):1135-9. [Medline].
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  15. Piazza N, Chughtai T, Toledano K. Primary cardiac tumours: eighteen years of surgical experience on 21 patients. Can J Cardiol. Dec 2004;20(14):1443-8. [Medline].
  16. Raaf HN, Raaf JH. Sarcomas of the heart and great vessels: vascular replacement. In: Raaf JH, ed. Soft Tissue Sarcomas: Diagnosis and Treatment. St. Louis, Mo: Mosby. Year Book Medical Pub; 1993:123-138.
  17. Raaf HN, Raaf JH. Sarcomas related to the heart and vasculature. Semin Surg Oncol. Sep-Oct 1994;10(5):374-82. [Medline].
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  20. Stoica SC, Mitchell IM, Foreman J. Atrial transplantation for recurrent cardiac sarcoma. J Heart Lung Transplant. Nov 2001;20(11):1220-3. [Medline].
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Cardiac Sarcoma excerpt

Article Last Updated: Jan 7, 2008