key: cord-1045911-pmojgaqk authors: Kronzer, Ellen; Robinson, Steven I.; Collins, Douglas A.; McBane, Robert D. title: Primary pulmonary artery sarcoma versus pulmonary thromboembolism: a multimodal imaging comparison date: 2021-05-07 journal: J Thromb Thrombolysis DOI: 10.1007/s11239-021-02464-w sha: 54610574cefb9eae08871ec6b7f45ef471f4bd90 doc_id: 1045911 cord_uid: pmojgaqk Primary pulmonary artery sarcoma (PPAS) is a rare malignancy that is commonly mistaken for pulmonary embolism due to similarities in clinical presentation and radiographic findings. Distinct radiographic findings to help differentiate between the two diseases are highlighted in the case presented. (1) Several nuances in various imaging modalities have been identified to help distinguish pulmonary artery sarcoma from pulmonary thromboembolic disease. (2) The wall eclipsing sign is considered pathognomonic for pulmonary artery sarcoma. (3) Positron emission tomography/computed tomography may help reduce time between diagnosis and treatment, which may ultimately prolong survival. (4) Providers should be well versed on the subtle differences on imaging to prevent future delays in diagnosis and treatment. • Pulmonary artery sarcoma is a rare malignancy which can be confused radiographically with pulmonary embolism. • Several clues on imaging can help distinguish these two entities including the "wall eclipsing sign", lobulated bulging margins, gadolineum enhancement during MRI imaging, and FDG uptake during PET imaging. • Prompt and accurate diagnosis may improve survival for resectable tumors. A 63-year-old female Jehovah's Witness was evaluated for a persistent dry cough, dyspnea, and pleuritic chest pain. Influenza, respiratory syncytial virus, and COVID-19 testing were negative. Chest x-ray was concerning for pneumonia; however, symptoms were unresponsive to antibiotics. Chest computed tomography (CT) with contrast revealed a large filling defect within the right lobar, upper and middle segmental pulmonary arteries with central calcification. She was initiated on apixaban for suspected pulmonary embolism, but her symptoms persisted. Repeat CT angiography 6 weeks later revealed proximal extension of the filling defect despite adherence to medical therapy (Figs. 1 and 2), prompting referral to the Mayo Clinic Gonda Vascular Center. Upon arrival to Mayo Clinic, patient was transitioned to enoxaparin. Further evaluation included a complete thrombophilia panel which was negative for congenital or acquired thrombotic propensity, including a negative D-dimer. Lower extremity venous ultrasound was negative for deep vein thrombosis. Positron emission tomography (PET) revealed an F-18 fluorodeoxyglucose (FDG) avid right hilar mass with a satellite lesion adjacent to the pleura (Fig. 3) . Cardiac magnetic resonance imaging (MRI) revealed a large mass within the right pulmonary artery extending into the right lobar segmental arteries with central gadolinium enhancement and interval enlargement of a paratracheal lymph node (Fig. 4) . Endobronchial ultrasound needle biopsy confirmed high grade pleomorphic primary pulmonary artery sarcoma. When multidisciplinary evaluation deemed primary surgical resection to be prohibitive due to patient refusal to receive blood product support, chemotherapy with doxorubicin, ifosfamide with mesna growth factor support was initiated. PET/CT at 3-month follow-up showed partial metabolic response with no evidence of new FDG avid metastatic disease. Cardiac MRI demonstrated decrease in tumor size. Primary pulmonary artery sarcoma (PPAS) is a rare and often fatal malignancy with an estimated global incidence of 0.001-0.03% [1] . Age of presentation ranges from 13 to 86 years old, though peak incidence occurs between ages 45-55 and a female predominance (2:1) [1, 2] . The prognosis of PPAS is poor with a survival period of 12-18 months from symptom onset and mean survival < 2 months without surgical intervention [3] . Its poor prognosis is heavily influenced by its frequent delay in diagnosis due to its tendency to mimic chronic thromboembolic disease in both clinical and radiologic findings [2] [3] [4] [5] . Nuanced clues on imaging studies can alert providers to the presence of PPAS and help distinguish this malignancy from pulmonary embolism. With these clues, early recognition may help expedite diagnosis and treatment (Table 1) . Pulmonary artery CT angiography has been found to be a useful tool in distinguishing between PPAS and pulmonary thromboembolic disease. While both can result in filling defects of the pulmonary arteries, PPAS can extend into the main pulmonary trunk and right ventricular outflow tract, tends to occupy the entire lumen with local aneurysmal dilatation, and may form characteristic acute angles with the vessel wall [1] [2] [3] [4] [5] [6] . PPAS tumors also typically have lobulated, bulging margins proximally whereas pulmonary thromboemboli typically have straight, cup-shaped margins [1, 2, [4] [5] [6] . Furthermore, approximately 90% of PPAS lesions involve ≥ 2 parts of pulmonary arteries; most commonly affecting the lobar pulmonary artery (85%), followed thereafter by the right pulmonary artery (71%), left pulmonary artery (65%), and right ventricular outflow tract (10%) [1] . The "wall eclipsing sign" on CT angiography may be helpful in distinguishing PPAS from thromboembolic disease [7] . This sign is defined as the presence of the following three findings: a low-density intraluminal mass of the pulmonary trunk, left pulmonary artery, or right pulmonary artery with near complete occlusion; proximal protrusion of the mass toward the right ventricular outflow tract; and eclipsing of one or both walls of the involved artery before the lesion infiltrates beyond the artery. In one study, this sign was assessed in 12 patients with PPAS compared to 156 patients with chronic pulmonary thromboembolic (CPTE) disease with pulmonary hypertension and 426 patients with acute pulmonary embolism. The "wall eclipsing sign" was present in all PPAS patients, but none of the patients with either acute or chronic thromboembolic disease [7] . Gadolinium enhanced MRI may also be useful to differentiate between PPAS and pulmonary thromboembolic disease. Enhancement of a lesion on gadolinium-MRI is consistent with tumor [1] . PPAS tumors tend to display a heterogeneous delayed enhancement pattern with a gradual rise in time-signal intensity curves, as well as a higher T2 signal intensity compared to PTE [1, 2, 4, 5] . MRI also provides valuable information regarding the pulmonary artery intima. A study done by Ming-Xi Liu et al. observed increased intimal thickening adjacent to PAS tumors with indistinct margins secondary to intimal invasion, a feature not identified with CPTE disease. While calcification may be present in thrombotic disease, it typically signifies a chronic process [1] . FDG PET/CT may be helpful to determine the presence of malignancy. Similar to evaluating a lesion for enhancement on gadolinium-MRI, FDG uptake on PET/CT can be used to differentiate between PPAS and PTE as FDG activity will be more intense in PPAS compared to thromboembolic disease [2, 3] . FDG PET/CT can also facilitate reducing the time between diagnosis and treatment when utilized as part of the diagnostic work-up [8] . Tueller et al. group described a series of patients in which FDG PET/CT was used to simultaneously diagnose PPAS and provide initial staging, ultimately accelerating the timeline for curative resection. In conclusion, primary pulmonary artery sarcomas are often mistaken for pulmonary thromboembolic disease given their similarities in clinical presentation and radiologic findings; however, there are subtle imaging characteristics that can help differentiate the two entities. Recognizing these radiologic features may expedite patient diagnosis and subsequent treatment. Radical surgical resection is the mainstay treatment for PPAS and early diagnosis is key in prolonging survival. Of the chemotherapy trials that have been performed, few have shown any definite response. Perioperative chemotherapy may provide some survival benefit, but studies are limited. For those with inoperable PPAS as seen in our patient, palliative chemo-and radiotherapy should be considered [9] . Funding No funding to report. Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Differential diagnosis of pulmonary artery sarcoma and central chronic pulmonary thromboembolism using CT and MR images Pulmonary artery sarcoma: case report and review of the literature Pulmonary artery sarcoma-multimodality imaging Difficulties in establishing a timely diagnosis of pulmonary artery sarcoma misdiagnosed as chronic thrombo-embolic pulmonary disease: a case report Primary pulmonary artery sarcoma: a close associate of pulmonary embolism-20-year observational analysis An intimal sarcoma of pulmonary artery mimicking pulmonary embolism: a case report and literature review The wall eclipsing sign on pulmonary artery computed tomography angiography is pathognomonic for pulmonary artery sarcoma FDG-PET in diagnostic work-up of pulmonary artery sarcomas Presentation and management of pulmonary artery sarcoma The above authors have nothing to disclose.