Case Report

Schwannomatozis of the Chest Wall: FDG PET Findings

10.4274/mirt.353

  • Seyfettin Ilgan
  • Erkan Dikmen
  • Cihan Genco Çetinkanat
  • Mehmet Dakak
  • Adem Güngör

Received Date: 23.05.2012 Accepted Date: 08.08.2012 Mol Imaging Radionucl Ther 2014;23(2):64-66 PMID: 24963448

Authors present a rare case of bifocal schwannoma of thoracic wall showing metabolic activity on FDG PET images. A 43-year-old male with palpable mass on lateral chest wall was referred for F-18 FDG PET/CT imaging for differential diagnosis. His medical history and basic laboratory results were unremarkable. PET/CT images revealed a mild FDG uptake in the solid soft tissue mass in the left lateral chest wall that was growing outside of the thorax. It was located in 7th intercostal space and adjacent ribs were intact. Incidentally, second mass lesion was detected in the right posterior seventh intercostal space protruding to the pleural space and showing higher FDG uptake on PET/CT images. The lesions were surgically removed at the same session for definite diagnosis and treatment. Histopathologic evaluation of both lesions revealed benign schwannoma.

Keywords: Neurilemmoma,schwannoma,chest wall,18F-FDG,Positron-emission tomography

Introduction

Benign tumors of thoracic wall are uncommon lesions and may originate from bone, cartilage, blood vessels, fat or nerves. Schwannomas, also known as neurilemomas or neurinomas are slow-growing, encapsulated neurogenic tumours and are usually found as a solitary lesion in the extremities, and head and neck regions. Chest wall schwannoma is rare and usually found as asymptomatic solitary lesions growing towards the pleural space in the posterior mediastinum. They arise from spinal nerve roots and intercostal nerves and typically occur in patients between the second to fifth decades. Most neural tumors of the chest arise in the mediastinum; fewer than 10% of originate peripherally from intercostal nerves. Surgical treatment is indicated only if they are symptomatic are bulky or exhibit rapid growth. On the other hand, malignant schwannomas are high-grade sarcomas that most commonly arise in young and middle-aged adults. These tumors are observed as a fast growing mass, mainly in the trunk and proximal parts of the extremities. Though quite rare it has a tendency for systemic spread, especially to the lungs, which ultimately causes death in the majority of patients (1,2). Authors present a rare case of bifocal schwannoma of the thoracic wall showing metabolic activity on FDG PET images.


Case Report

A 43-year-old male with slowly growing, painless palpable mass on lateral chest wall was referred for F-18 FDG PET/CT imaging to rule out possible malignancy. His medical history and basic laboratory results were unremarkable. Following six hours of fasting (serum glucose 86 mg/dL), the patient was injected with 540.2 MBq (14.6 mCi) of F-18 FDG intravenously. Images were obtained using a dedicated GE Discovery ST integrated PET/CT camera after an hour waiting period without intravenous contrast. PET/CT images revealed a mildly hypermetabolic (SUVmax: 3.1) mass lesion in the left lateral chest wall that was growing outside of the thorax (Figure 1). It was located in 7th intercostal space and adjacent ribs were intact. Incidentally, second mass lesion was seen in the right posterior hemithorax protruding to the 7th intercostal pleural space and showing higher FDG uptake (SUVmax: 5.6) on PET/CT images.

This second mass lesion on the contralateral posterior chest wall is shown in (arrows) Figure 2. Despite similar CT characteristics, lesion was growing towards pleural space without erosion of the adjacent rib, most likely of a chest wall origin. Whole-body FDG PET images were otherwise normal. Surgical excision was recommended to rule out possible malignancy. The lesions were surgically removed at the same session for definite diagnosis and treatment. Histopathologic evaluation of both lesions revealed benign schwannoma.


Literature Review and Discussion

Non-enhanced CT appearance of schwannomas has been described as a well-circumscribed homogeneous mass of soft-tissue density with attenuation slightly less than or equal to that of muscle. Although it has been suggested that CT findings of inhomogeneities suggest malignancy, benign schwannomas can also be nonhomogeneous on CT examination (3). At MR, schwannomas have signal intensity equal to or greater than muscle on T1 weighted images. However, the radiologic features of benign and malignant chest wall tumors frequently overlap. Neither CT nor MRI are considered sufficiently accurate to differentiate benign from malignant nerve sheath tumors (3,4).

On the other hand FDG PET could differentiate malignant peripheral nerve sheath tumors (PNST) from benign ones with high accuracy. It has been reported that a SUVmax threshold of 6.1 g/mL differentiated malignant from benign PNST with a sensitivity and specificity of 94% and 91%, respectively. Decreasing this threshold to 4.5 g/mL would have increased the sensitivity to 100% but reduced the specificity to 83% (5). However, FDG PET might have limited value in distinguishing schwannomas from malignant PNSTs, because reported FDG uptake by schwannomas is quite variable, with a SUVmax range of 1.9-12. Even SUVmax values as high as 6.0 cannot exclude schwannoma from the differential diagnosis (6,7,8,9). Surgical treatment still remains the standard way of diagnosis and treatment in patients with equivocal findings.


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