351. Case Report: The Tall Tail Heart: Angioleiomyoma – The Christ Hospital

CardioNerds meet with fellows from The Christ Hospital, Drs. Hanad Bashir, Hyunsoo Chung, and Dalia Aziz to discuss the following case that highlights angioleiomyoma: A 60-year-old woman with a past medical history significant for breast cancer (on tamoxifen) presented as a transfer to our facility for a clot-in-transit. She had initially presented to the outside hospital after progressive dyspnea on exertion and recent syncope. She was found on an echocardiogram to have a right atrial mass spanning into the right ventricle. CTA of the chest and abdomen/pelvis demonstrated extensive thrombus burden spanning from the IVC into the right ventricle. She was transferred to our facility for intervention. Endovascular attempts were unsuccessful, at which point she underwent surgical thrombectomy. Gross examination of the mass revealed a cylindrical shape, homogeneous tan color, rubbery soft tissue, measuring 25.5 cm in length and 2.3 cm in diameter. Histology confirmed the presence of angioleiomyoma. A second, smaller mass (5.2cm long and 4mm in diameter) was removed from under the tricuspid valve, with histology consistent with leiomyoma. Estrogen receptor and progesterone receptor staining were strongly positive, leading to the discontinuation of tamoxifen. Given the presence of uterine fibroids identified on the CT scan, there was concern about a uterine origin. A hysterectomy is planned for her in the near future. Expert commentary is provided by Dr. Wojciech Mazur. Episode audio was edited by student Dr. Adriana Mares. US Cardiology Review is now the official journal of CardioNerds! Submit your manuscript here. CardioNerds Case Reports PageCardioNerds Episode PageCardioNerds AcademyCardionerds Healy Honor Roll CardioNerds Journal ClubSubscribe to The Heartbeat Newsletter!Check out CardioNerds SWAG!Become a CardioNerds Patron! Case Media - The Tall Tail Heart: Angioleiomyoma – The Christ Hospital Pearls - The Tall Tail Heart: Angioleiomyoma – The Christ Hospital Although evaluation of cardiac mass by echocardiography can provide information such as size, location, and morphology, adjunctive cross-sectional imaging may be used depending on the need for further temporal resolution (CT) or tissue characterization via cardiac MRI (CMR). If suspicious for elevated metabolic activity, there should be consideration of FDG-PET. Tamoxifen (a selective estrogen receptor modulator) is an agent used for breast cancer therapy. However, its use has been associated with endometrial hyperplasia, uterine fibroids, endometrial and uterine malignancy. Increased risk of malignancy has been seen more often in post-menopausal women and is dose and time-dependent. Clot in transient is a mobile thrombus, typically within the right heart structures. It is estimated to occur in 4-18% of patients with pulmonary embolism and is associated with elevated morbidity and mortality. Treatment includes surgical embolectomy, endovascular embolectomy, systemic thrombolysis, catheter-directed thrombolysis, or systemic anticoagulation. Angioleiomyoma is a rare benign pericystic tumor that most commonly affects the extremities. There are case reports of other affected sites, including the uterus. Invasion into the cardiac structures is exceedingly rare. The only established treatment for angioleiomyoma is surgical resection. Show Notes - The Tall Tail Heart: Angioleiomyoma – The Christ Hospital Syncope Syncope is a transient loss of consciousness secondary to reduced blood flow to the brain. Often, certain presentations are mislabeled as syncope, such as seizure disorders, posttraumatic loss of consciousness, and cataplexy. An organized diagnostic approach should be used to reduce hospital admissions and medical costs and increase diagnostic accuracy. Syncope can be divided into five general subgroups. 1) Neurally mediated reflex syncope (carotid sinus syndrome, vasovagal) 2) Orthostatic syncope 3) Cardiac arrhythmias 4) Structural cardiac and pulmonary causes 5) Cerebrovascular disorders. Initial evaluation should include thorough H&P, including orthostatic vitals and ECG. If diagnosis remains uncertain after initial evaluation, patients’ syncope should be risk stratified into three groups: high, intermediate, and low risk. Additionally, the 2017 ACC/AHA/HRS guidelines stratify patient risk based on short-term (<30 days) and long-term (>30 days) morbidity and mortality based on initial examination and history. Patients presenting with high-risk and short-term syncope features should be immediately hospitalized for further diagnostic testing and treatment. High-risk features are usually indicative of underlying cardiovascular causes that could lead to sudden death; this includes but is not limited to life-threatening arrhythmias and acute coronary syndrome. Risk stratification also determines the selection of diagnostic tests. When underlying cardiac etiology is suspected, diagnostic tests such as echocardiography, CT angiography, cardiac magnetic resonance, electrophysiology study, exercise stress testing, and coronary angiography may be valuable in establishing timely diagnosis in high-risk patients. Choice of study modality varies greatly based on patient presentation and risk factors. In contrast to patients presenting with high-risk syncope, low-risk patients are discharged home with re-assurance and follow-up. Strategy for Intracardiac Masses First, take into account the patient's age at the time of presentation, as certain medical conditions like rhabdomyomas and fibromas are more commonly observed among pediatric patients. Second, assess the likelihood from an epidemiological perspective and consider the clinical probability. For instance, if a patient has recently experienced an anterior wall myocardial infarction and exhibits an akinetic ventricular apex, the presence of a cardiac mass during echocardiography could indicate the possibility of an intracardiac thrombus. Third, factor in the location of the tumor. If the mass is detected on the valves, potential diagnoses to consider include thrombus or vegetation. While masses within the heart chambers might still indicate thrombus, it's also important to contemplate other possibilities, such as myxomas, lymphomas, and metastases. Fourth, delve into the tissue characteristics of the mass using additional diagnostic imaging methods like cardiac magnetic resonance imaging. Imaging Modalities for Intracardiac Masses Transthoracic echocardiography (TTE) is readily available and non-invasive. Transesophageal echocardiography (TEE) offers insights into size, shape, attachment site, extension, and hemodynamic effects. Ultrasound-enhancing agents in echocardiography help differentiate various masses. Thrombi and benign tumors display a non or low-enhancing pattern. Malignancies and highly vascular tumors display a hyperenhancing pattern. Doppler velocities aid in assessing the hemodynamic impact. Cardiac MRI (CMR) is invaluable in the assessment of cardiac masses. In addition to anatomy, dimensions, and mass consistency, using different signal sequences like T1, T2, early and late gadolinium enhancement differentiate tissue characteristics and unveil fatty presence, necrosis, bleeding, inflammation, and vascularity within a mass. Cardiac CT provides high spatial and temporal resolution, multiplanar image reconstruction, and rapid acquisition. The broad field of view allows for the evaluation of the chest, lung tissue, vascular structures, and potential masses within the chest. Cardiac CT can be used to detect calcifications within the mass, although it has less soft tissue resolution compared with CMR. FDG-PET/CT can help gauge tumors' metabolic activity. When CT alone doesn't decisively determine benign or malignant nature, PET/CT steps in, aiding in malignancy diagnosis and guiding biopsy locations, staging, and cancer therapy planning. Cardiac tumors Cardiac tumors can be categorized into primary and secondary tumors. Secondary tumors, arising from metastasis, are more prevalent and often stem from cancers like melanoma, breast, or lung cancer. Secondary tumors can lead to issues like pericardial effusion with or without cardiac tamponade, myocardial infiltration, obstruction, or embolization. Primary tumors include benign (about 80%) and malignant (about 20%) types. Malignant tumors are mainly sarcomas, such as angiosarcomas and rhabdomyosarcomas. Benign tumors encompass myxomas, gelatinous masses with scattered myxoma cells; papillary fibroelastomas, frond-like masses typically on valves; lipomas, composed of fat cells; fibromas, containing fibroblasts and mostly found in the left ventricle; and rhabdomyomas, made of maldeveloped cardiac myocytes and often seen in ventricles. Other rare tumors include Purkinje cell tumors. However, the latter three mentioned are more common in children. Clot-in-transit Clot-in-transit (CIT) is the presence of mobile echogenic material in the right atrium or ventricle as seen on ultrasound. Right heart clots are classified into three types based on their morphology:Type A (common and carries a high risk of pulmonary embolization)Type B (assumed to originate from the atrium or ventricle) Type C (rare and migratory, resembling cardiac myxomas) Intervention options for CIT include catheter-based thrombolysis, systemic (IV) thrombolysis, surgical/endovascular embolectomy, and anticoagulation therapy. Catheter-based thrombolysis involves high-frequency ultrasound exposure, catheter-directed thrombolysis, mechanical thrombectomy, and endovascular clot suction. It has a high success rate but may not work for bulky thrombi.