Author + information
- Weng-Tein Gi, MD, MSca,b,
- Farbod Sedaghat-Hamedani, MDa,b,
- Omid Shirvani Samani, MDa,b,
- Elham Kayvanpour, MDa,b,
- Esther Herpel, MDd,
- Rawa Arif, MDc,
- Johannes Riffel, MDa,b,
- Derliz Mereles, MDa,b,
- Hugo A. Katus, MDa,b and
- Benjamin Meder, MDa,b,e,∗ ()
- aDepartment of Medicine III, Institute for Cardiomyopathy, University of Heidelberg, Heidelberg, Germany
- bGerman Centre for Cardiovascular Research (DZHK), Heidelberg/Mannheim, Germany
- cDepartment of Cardiac Surgery, University of Heidelberg, Heidelberg, Germany
- dInstitute of Pathology Heidelberg, Heidelberg, Germany
- eDepartment of Genetics, Stanford University, Stanford, California
- ↵∗Address for correspondence:
Dr. Benjamin Meder, Department of Medicine III, University of Heidelberg, INF 410, 69120 Heidelberg, Germany.
This article reports a rare case of concomitant hypertrophic cardiomyopathy and cardiac myxoma without LEOPARD syndrome. Additionally, 6 similar cases were systemically reviewed, and the characteristics of this first-ever studied patient group were summarized. (Level of Difficulty: Beginner.)
History of Presentation
A 55-year-old male patient was referred to the authors’ Institute for Cardiomyopathies for evaluation due to thickened left ventricular walls detected by an external echocardiography examination. At presentation, the patient was asymptomatic. He had no shortness of breath, angina pectoris, or palpitations. His family history revealed that his father died due to sudden cardiac death (SCD) at 55 years of age. The patient’s physical examination was unremarkable. His heart sounds were normal, and no murmurs at rest or after provocation, using the Valsalva maneuver, could be heard. There were no neurologic deficits or abnormal skin pigmentation.
• Hypertrophic cardiomyopathy and myxoma can occur simultaneously. LEOPARD syndrome is an important differential diagnosis defined by lentigines in combination with at least 2 other hallmarks: electrocardiographic conduction abnormalities, ocular hypertelorism, structural cardiac abnormalities, abnormal genitalia, retarded growth, and deafness. Further investigations on the genetic associations between HCM and myxoma, other than the known RAS/MAPK pathway, are requested.
• Each imaging modality provides specific information about cardiomyopathy and cardiac tumors, and modalities are complementary, i.e., echocardiography provides information about tumor location, morphology, and attachment site in the heart, whereas cardiac magnetic resonance [CMR] allows for detailed tumor-tissue characterization). CMR is the de facto standard mode for cardiomyopathies and cardiac tumors, it missed the atrial myxoma in this case, because the protocol was optimized for cardiomyopathy. This underlines the importance of multi-modality approaches for cardiac tumors and cardiomyopathies alike.
The patient had well-controlled arterial hypertension and was an active smoker with 20 pack-years.
Based on the information above, the differential diagnosis included hypertensive heart disease, hypertrophic cardiomyopathy (HCM), restrictive cardiomyopathy, storage disease, and coronary heart disease.
The patient’s electrocardiography (ECG) was positive for the Sokolow-Lyon index, and showed giant T-wave inversions and ST-segment depressions in the precordial leads (Figure 1A). His blood test results revealed elevated concentrations of N-terminal pro–B-type natriuretic peptide (NT-proBNP) (1,165 ng/l) and high-sensitivity cardiac troponin T (hs-cTnT) (66 ng/l). A cardiac magnetic resonance (CMR) study was scheduled, because a potential cardiomyopathy was suspected. The CMR results showed a notably hypertrophied left ventricle (maximal wall thickness of 26 mm) with an ejection fraction of 79% and diffuse positive late gadolinium enhancement (LGE) in the hypertrophied regions. The hypertrophy pattern indicated an apical type of HCM. In the in-house transthoracic echocardiogram, an additional broad-based mass attached to the interatrial septum was seen in the left atrium (Figures 1B and 1C). Neither the gradient across the mitral valve (due to myxoma) nor the elevated left ventricular outflow tract (LVOT) gradient were present. The subsequent transesophageal echocardiogram revealed a friable multilobular tumor (approximately 26 × 16 × 16 mm) originating from the fossa ovalis (FO) in the left atrium (Figure 2), consistent with a myxoma. The heart catheterization results showed no evidence of coronary heart disease. Thus, the elevated hsTroponinT concentration was attributed to myocardial injury due to HCM. The elevated NT-proBNP concentration suggested heart failure. Because of the lack of specific dermatologic abnormalities (i.e., lentigines) and other clinical hallmarks (hypertelorism, conduction abnormalities, sensorineural deafness), LEOPARD syndrome was ruled out.
The patient was promptly referred to the cardiac surgery department. A tumor resection (Figure 3A) with reconstruction of the FO with a pericardial patch was conducted without complications. Septal myectomy was not necessary, because no LVOT obstruction was detected at rest or after provocation.
The most common symptoms of cardiac myxoma includes obstructive symptoms of the mitral valve (e.g., congestive heart failure, syncope, and SCD) and embolic events (e.g., stroke). Thus, diagnosis of a cardiac myxoma is usually followed by an immediate surgical tumor resection. Echocardiography provides essential information for location, morphology, and attachment to the adjacent structures of the myxoma. Aside from conventional transthoracic echocardiograms, transesophageal echocardiograms offer superior image resolution, especially of the posterior left atrial wall, atrial septum, and right atrium (1). Notably, CMR has evolved as the principal imaging modality in assessing cardiac tumors due to its superior capabilities of tissue characterization (2). However, in the present case, the CMR did not reveal the presence of a myxoma. This is because the suspicion of a cardiac tumor was not raised prior to the CMR, and consequently, the tumor-specific protocol (e.g., first pass perfusion imaging) was not implemented. When the CMR images were retrospectively reviewed, a slightly hypointense tumor-occupying region could be seen at the interatrial septum in the left atrium but was barely discriminated from normal flow phenomenon (Figures 4A and 4B).
Interestingly, the patient’s condition was diagnosed with both cardiac myxoma and HCM, without LEOPARD syndrome. To further explore the occurrence of both, systematic reviews of Medline (1970 to 2019) and Cochrane Central Register of Controlled Trials (Cochrane Library Issue 3 of 12, March 2019) were undertaken. All publications, either original articles or reviews, reporting at least 1 case of concomitant atrial myxoma and HCM were eligible for inclusion. In total, 6 case reports (including the present case) met inclusion criteria. Figure 5 summarizes the selection process of eligible studies. Patient data are presented in Table 1. The patients were between 45 and 75 years of age with a median 55 years of age (95% confidence interval: 46 to 71 years of age) at the time of first diagnosis. Four of 6 patients were male. The tumor was located in the left atrium in all patients. Three patients were asymptomatic at presentation, whereas 1 experienced an embolic stroke, 1 had chest pain and dyspnea, and 1 had recurrent syncope and dyspnea. None of them had LEOPARD syndrome. None of the patients had a family history of myxoma, but 2 patients had familial HCM.
HCM and cardiac myxoma are both rare diseases. Therefore, the intriguing question is whether there is a pathophysiological link between hypertrophic signaling in ventricular cardiomyocytes and neoplasm formation of mesenchymal cells. Convergence of both diseases has been described in LEOPARD syndrome, caused by germline mutations in the RAS/MAPK pathway proteins (3). Interestingly, generally, the activation of the RAS/MAPK pathway is integral to the pathogenesis of HCM (4). Moreover, the RAS oncogene is the most common oncogene in humans, and an overactivation of RAS signaling leads to neoplasm formation. Thus, the authors surmise that the concomitance of HCM and cardiac myxoma in the present patient and other cases without LEOPARD syndrome could be due to an unreported form of RASopathies. Further genetic studies in these patients can potentially elucidate the puzzling pathogenetic mechanism.
The patient was discharged 6 days after the surgery without complications. The histology report confirmed the diagnosis of a myxoma with regressive changes (Figures 3 B and 3C). We recommended a 48-h ambulatory ECG to evaluate the risk of SCD and the indication of an ICD therapy, as recommended by the 2014 European Society of Cardiology guidelines for diagnosis and management of HCM (5). During the patient’s next visit, his 5-year risk of SCD will be estimated by using the HCM Risk-SCD formula (6) in combination with his LGE findings. A genetic investigation was suggested to the patient, who preferred to consider this important test after his recovery from the surgery.
This is the first study to systematically review the concomitance of cardiac myxoma and HCM without LEOPARD syndrome. Most of these patients were middle-aged males with HCM and myxoma in the left atrium. The underlying pathophysiological mechanisms require further investigation.
The authors have reported that they have no relationships relevant to the contents of this paper to disclose.
Informed consent was obtained for this case.
- Abbreviations and Acronyms
- fossa ovalis
- hypertrophic cardiomyopathy
- high-sensitivity cardiac troponin T
- late gadolinium enhancement
- left ventricular outflow tract
- N-terminal pro–B-type natriuretic peptide
- sudden cardiac death
- Received October 9, 2019.
- Revision received November 22, 2019.
- Accepted November 23, 2019.
- 2020 The Authors
- Elliott P.M.,
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- et al.
- Hiasa Y.,
- Nosaka H.,
- Ito Y.,
- Nolmyoshi M.,
- Nishimura K.,
- Ban T.
- Abdou M.,
- Hayek S.,
- Williams B.R. 3rd..
- Kaluzna-Oleksy M.,
- Stefaniak S.,
- Oko-Sarnowska Z.,
- Janus M.,
- Straburzynska-Migaj E.
- Padmanabhapillai S.