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Eur J Echocardiography (2003) 4, 336–338 doi:10.1016/S1525-2167(03)00018-0 Four Cardiac Myxomas Diagnosed Three Times in One Patient K. Hermans1, W. Jaarsma1, H. W. M. Plokker1, M. J. M. Cramer1 and W. J. Morshuis2 1 Department of Cardiology, Heart Lung Center Utrecht, St. Antonius Hospital, Koekoekslaan 1, 3435 CM Nieuwegein, The Netherlands; and 2Department of Thoracic Surgery, Heart Lung Center Utrecht, St. Antonius Hospital, Koekoekslaan 1, 3435 CM Nieuwegein, The Netherlands (Eur J Echocardiography 2003; 4: 336–338) Ó 2003 The European Society of Cardiology. Published by Elsevier Ltd. All rights reserved. Introduction revealed an atherosclerotic plaque with thrombus formation. In December 1986 he was re-admitted for a new TIA with right-sided hemiparesis. Oral anticoagulation therapy was started. An echocardiographic study showed a tumour in the left atrium (LA), inserted on the border of the roof of the LA and the interatrial septum (IAS). The mass was surgically removed with patch closure of the discontinuity in January 1987. Histological examination revealed myxoma cordis. Resection borders were free of tumour tissue. Five months later, a routine control echocardiography was performed. A new mass in the right ventricular outflow tract of 3 3 cm inserted on the IAS was seen. The mass was surgically removed. The histological examination revealed cardiac myxoma and the resection borders were free of tumour tissue. Echocardiographic control studies without significant abnormalities were performed yearly until 1995. In December 2001, the patient returned at the age of 72 years for a preoperative check for orthopaedic surgery. He was free of complaints but clinical examination revealed a mitral regurgitation murmur. The suspected mitral valve insufficiency (grades II/ IV) was confirmed by echocardiography but in addition, two tumours were detected, one inserted on the atrial side of the anterior leaflet of the mitral valve with prolapse through the mitral valve and the other in the left ventricular cavity (Fig. 1). A conservative approach was chosen because of the combination of severe chronic obstructive pulmonary disease and the Myxoma cordis is the most frequently found primary cardiac tumour. A first recurrence of cardiac myxoma has often been described. However, a second recurrence is rare. The incidence of recurrence is different for the various types of myxoma cordis. Complex and familial forms have a higher incidence of recurrence. Surgical resection is the therapy of choice. In this case report, we present a patient who experienced four cardiac myxomas diagnosed over a period of 14 years. Case Report A 56-year-old man with known chronic obstructive pulmonary disease was admitted for a transient ischeamic attack (TIA) with right-sided hemiparesis in October 1985. In 1986 he underwent surgical embolectomy for acute lower limb ischaemia twice. Histological examination was performed twice and Address correspondence to: Dr. Kurt Hermans, Department of Cardiology, Middelheim Hospital, P. Pourbusstraat 5, 2000 Antwerpen, Belgium. Tel: +32-476285973. E-mail: [email protected] Received 17 October 2002; revised manuscript received 5 March 2003; accepted 13 March 2003. 1525-2167/03/ $30.00/0 Key Words: myxoma cordis; recidive; surgical resection. Ó 2003 The European Society of Cardiology. Published by Elsevier Ltd. All rights reserved. Downloaded from http://ehjcimaging.oxfordjournals.org/ at Pennsylvania State University on March 3, 2014 A left atrial myxoma was surgically removed in a 58-yearold man following several embolic events. Five months later, a new myxoma was found in the right ventricular outflow tract and surgically removed. In this patient, we visualized two more recurrences 14 years later, one in the left atrium and the other in the left ventricle. A short review of the literature concerning recurrent cardiac myxomas is given. Four Cardiac Myxomas Diagnosed Three Times in One Patient 337 unwillingness of the patient to undergo a third operation. Treatment with oral anticoagulant therapy was continued. Discussion Myxoma cordis is the most frequent primary heart tumour to be found in humans. Its relative incidence in combined surgical and pathological series is around 42%. When only surgical series is considered, the proportion of myxomas increases to a relative incidence around 77%[1]. The tumour is a neoplasm of endocardial origin. It consists of stromal cells arising from mesenchymal multipotential cells, which are capable of neural and endothelial differentiation[2]. Although cardiac myxomas are histologically benign, they may be lethal because of their strategic position[3]. Of all myxomas 10% are familial forms. They are diagnosed more frequently in younger patients and appear to have an autosomal dominant transmission[4]. A complex myxoma occurs in families and is associated with endocrine tumours, myxomas of breast and skin, neurofibromatosis and spotty pigmentation. One of these associations is the Carney Complex. It is linked with abnormalities on chromosome 2[5,6]. Recurrent cardiac myxoma after surgical excision is not rare. The frequency is estimated by 1–3% in sporadic forms, 12% in familial forms and 22% in complex forms[7]. Second recurrence, however, is rare. Only few cases of a second myxoma recurrence are published so far[8,9]. The re-occurrence of myxoma can be explained by several mechanisms. First, incomplete resection of the original tumour can lead to regrowth. Second, recurrence seems to have a familial predisposition. Third, intracardiac implantation of embolic fragments of the first tumour is possible. A fourth possible explanation for recurrence on the same or another location is the existence of a sort of Ôpretumoural focusÕ in the myocardium. The resection borders in our patient were two times free of tumour tissue suggesting complete excision. The left and right locations make intracardiac embolization of the first tumour unlikely. None of the family members have cardiac myxomas or suspected signs of familial cardiac myxoma. Therefore, we think that this patient has a form of myocardial Ôpretumoural tissue fociÕ. The location of myxomas in the general population is as follows: 75% in the LA, 23% in the right atrium and only 2% in the ventricle. In 50% of the familial forms multiple locations are present and around 10% has a ventricular myxoma[10]. Careful inspection of all heart chambers is necessary since multiple tumour locations can be present, even if one is thrilled and satisfied by a single spectacular finding. Recidives are often asymptomatic and are mostly detected by echocardiographic follow up studies. Eur J Echocardiography, Vol. 4, issue 4, December 2003 Downloaded from http://ehjcimaging.oxfordjournals.org/ at Pennsylvania State University on March 3, 2014 Figure 1. Apical axis view: mass in LA protruding through mitral valve. 338 K. Hermans et al. Eur J Echocardiography, Vol. 4, issue 4, December 2003 References [1] Molina JE, Edwards JE, Ward HB. Primary cardiac tumors: experience at the university of Minnesota. Thorax Cardiovasc Surg 1990; 38: 183–190. [2] Pucci A, Gagliardotto P, Zanini C, Pansini S, di Summa M, Mollo F. Histopathologic and clinical characterization of cardiac myxoma: review of 53 cases from a single institution. Am Heart J 2000; 140(1): 134–138. [3] Gonzales A, Altieri PI, Marquez E, Cox RA, Castillo M. Massive pulmonary embolism associated with a right ventricular myxoma. Am J Med 1980; 69: 795–798. [4] Carney JA, Hruska LS, Beauchamp GD, Gordon H. Dominant inheritance of the complex of myxomas, spotty pigmentation, and endocrine overactivity. Mayo Clin Proc 1986; 61: 165–172. [5] Edwards A, Bermudez C, Piwonka G et al. Carney’s syndrome: complex myxomas. Report of four cases and review of the literature. Cardiovasc Surg 2002; 10(3): 264–275. [6] Fogt F, Zimmerman RL, Hartmann CJ, Brown CA, Narula N. Genetic alterations of Carney complex are not present in sporadic cardiac myxomas. Int J Mol Med 2002; 9(1): 59–60. [7] Etxebeste J, Arrillaga L, Basurto J, Gonzalez J, Andraca L, Ortis De Salazar A. Multiple recurrent local myxoma. Echocardiography 1998; 15(3): 257–258. [8] Roldan FJ, Varras-Barron J, Espinola-Zavaleta N, Keims C, Romero-Cardenaz A. Recurrent myxoma implanted in the left atrial appendage. Echocardiography 2000; 17(2): 169–171. [9] Duveau D, Baron O, Jegou B. Multiple and recurrent cardiac myxomas. Is it a familial disease? Chirurgie 1993–1994; 119(6– 7): 357–361. [10] Markel ML, Waller BF, Armstrong WF. Cardiac myxoma: a review. Medicine 1987; 66: 114–125. [11] Reynen K. Cardiax myxomas. N Engl J Med 1995; 333(24): 1610–1617. [12] Prichard RW. Tumors of the heart: review of the subject and report of one hundred and fifty cases. Arch Pathol 1951; 51: 98–128. [13] Hall RJ, Cooley DA, McAllister HA Jr, Frazier OH. Neoplastic heart disease. In: Hurst JW (Ed.), The heart, arteries and veins. 7th Edition, McGraw-Hill, New York, 1990: 1382–1403. [14] Malekzadeh S, Roberts WC. Growth rate of left atrial myxoma. Am J Cardiol 1998; 64: 1175–1176. [15] Goldstein DJ, Oz MC, Michler RE. Radical excisional therapy and total cardiac transplantation for recurrent atrial myxoma. Ann Thorac Surg 1995; 60(4): 1105–1107. [16] Gowdamarajan A, Michler RE. Therapy for primary cardiac tumors: is there a role for heart transplantation. Curr Opin Cardiol 2000; 15(2): 121–125. Downloaded from http://ehjcimaging.oxfordjournals.org/ at Pennsylvania State University on March 3, 2014 Semiannual echocardiographic follow up studies are therefore indicated for all cases[11]. The symptomatology in recurrent myxomas is the same as in general non-recurrent myxomas. Location, size and mobility are determinants of the clinical features. One or more symptoms of the typical triad (embolism, obstructed ventricular filling, general symptoms) can be present. Small tumour particles or thrombus formation on the tumour surface can explain the embolic events that occur in 30–40% of myxoma patients[12,13]. No tumour fragments were found in the histological examinations following acute lower limb ischaemia in our patient. Furthermore, no more embolic events occurred after the start of anticoagulation suggesting the tumour surface to be thrombogenic. It is our opinion that long-term anticoagulation is warranted in inoperable patients to prevent thrombo-embolic events. Myxomas often give signs of obstructed ventricular filling, mimicking thereby a mitral or tricuspid valve stenosis. Production and release of interleukin 6 by the tumour cells give rise to aspecific symptoms such as fatigue, weight loss, fever and arthralgia. The speed of tumour growth can be calculated by echocardiographic studies or by the interval between the first and the second operations. It is estimated that myxomas grow 0.15 mm in a month or 18 mm in a year. The same calculations made for tumour mass give a growth of 1.2 g in a month or 14 g in a year[14]. The first recurrence in this case (30 30 mm), not visualized earlier, occurred after 5 months. Thus, in this particular patient a growth of 6 mm in a month can be estimated for the first recurrence. The standard therapy for cardiac myxomas and recurrent myxomas is surgical resection. Chemotherapy and radiation therapy are disappointing. Radical excisional therapy and total cardiac transplantation have been reported[15]. The role of orthotopic heart transplantation remains unclear, even in malignant heart tumours[16]. In our opinion, anticoagulation therapy is warranted to prevent thrombo-embolic events in inoperative patients.