Giant thrombosed venous aneurysm in the calf: MRI characteristics and the target sign

Nogueira-Barbosa, Marcello Henrique; Engel, Edgard Eduard; Simao, Marcelo Novelino; Santos, Antonio Carlos dos; Elias Junior, Jorge

doi:10.1590/S1807-59322010000300017

LETTER TO THE EDITOR

Giant thrombosed venous aneurysm in the calf: MRI characteristics and the target sign

Marcello Henrique Nogueira-Barbosa^I; Edgard Eduard Engel^II; Marcelo Novelino Simao^I; Antonio Carlos dos Santos^I; Jorge Elias Junior^I

^IDiagnostic Imaging Division, Hospital das Clínicas da Faculdade de Medicina de Ribeirão Preto, Universidade de São Paulo - Ribeirao Preto/SP, Brazil

^IIBiomechanics, Medicine and Rehabilitation of the Locomotor System, Faculdade de Medicina de Ribeirão Preto, Universidade de São Paulo - Ribeirao Preto/SP, Brazil. Email: marcello@fmrp.usp.br. Tel.: 55 16 3602.2640

INTRODUCTION

Primary venous aneurysms are not as common as arterial aneurysms. Venous aneurysms have been described in the popliteal, jugular and saphenous veins but are rarely observed in other veins such as the visceral veins.^1-3

A popliteal venous aneurysm (PVA) is occasionally characterized by local signs and symptoms and notably may cause fatal complications, such as pulmonary embolism and other thromboembolic episodes, if it remains undiagnosed or untreated.

Although many cases of popliteal venous aneurysms have been reported, to date, there have been no previous descriptions of the MRI features of PVAs. The present case study describes a giant thrombosed venous aneurysm in the calf that simulated a soft tissue mass in its clinical presentation. The thrombosed venous aneurysm presentation, as observed via MRI, showed characteristics that could represent potential pitfalls resulting in a misinterpretation of the lesion as a peripheral nerve tumor.

CASE REPORT

A 24-year-old woman presented with calf pain over a period of ten days. Upon physical examination, a calf mass was observed, and the patient was subsequently referred to an emergency unit. There were no respiratory or cardiovascular complaints.

The X-ray images revealed a nonspecific soft tissue prominence in the middle third of the calf, and ultrasound revealed a heterogeneous, predominantly hypoechoic, soft tissue mass (Figure 1).

Furthermore, analysis of the MRI images revealed a soft tissue tumor with a tubular structure entering and exiting the mass (Figure 2). Retrospective evaluation of the ultrasound images also demonstrated that the mass was contiguous with a hypoechoic tubular structure. The transition between the lesion and this tubular structure of the neurovascular bundle had a contour aspect suggestive of a lesion that originated from the respective neurovascular element (Figures 1, 2A and 2B).

A discrete target sign was identified in the tumoral lesion on the T2-weighted images that was characterized by a very bright periphery and relatively low signal in the central region. The pre- and post-contrast T1-weighted images showed a marked target pattern both with and without fat saturation (figures 2 and 3).

Surgery was then performed to biopsy the soft tissue mass, and the resulting intra-operative evaluation suggested a giant thrombosed venous aneurysm, which was confirmed pathologically.

The low-signal central region observed in the MRI images correlated well with the area of the central thrombi that was verified by histology (figure 4). Both the T2-weighted fat-saturated fast spin-echo and the T2* echo gradient images of the soft tissue lesion had a thin low-signal rim related to the magnetic susceptibility of hemosiderin. It is also important to note that, because of the hemosiderin deposition, the T2* echo gradient images revealed the target sign significantly better than the T2-weighted fat-saturated fast spin echo.

DISCUSSION

Popliteal venous aneurysm is considered a rare condition, but it is a potentially fatal vascular disorder. The true incidence of this type of aneurysm may be underestimated in the literature because there is a group of patients who are known to be asymptomatic. Physician awareness, in addition to access to an ultrasound examination, may allow for an early diagnosis prior to the occurrence of any thromboembolic or other major complication. These aneurysms are more common in females and occur more frequently in people over 40 years of age.^4-7

A retrospective analysis of 25 patients identified that 24% of cases involved pulmonary embolism, and 76% of PVAs were discovered during an investigation for chronic venous disease.⁷With the widespread use of venous duplex scanning, PVAs are increasingly found in patients with deep or superficial vein insufficiency.

Previously, popliteal venous aneurysms have been reported to mimic soft tissue popliteal masses.^8,9In this case study, the thrombosed venous aneurysm also presented clinically as a mass.

The thrombosed venous aneurysm in the calf showed a target sign on both the T2-weighted and T1-weighted images. In this case, the low-signal central region was correlated to the area of the central thrombi verified during the histological analysis. It is interesting to note that the pre-contrast T1-weighted images already showed a marked target pattern. Moreover, due to hemosiderin deposition, the T2* echo gradient images better demonstrated the target sign than the T2-weighted fat-saturated fast spin echo.

Neurogenic neoplasms represent approximately 10% to 12% of all benign soft-tissue neoplasms, while the most common peripheral nerve tumors are neurofibromas and schwannomas.^10,11The MRI diagnosis of a peripheral nerve tumor may be suggested by the lesion location along a typical nerve distribution,^12,13and the identification of a fusiform mass with an entering and exiting nerve is considered one of the most important imaging features suggestive of a peripheral nerve neoplasm.^11,14,15 This sign has been reported in 88.2% to 94% of cases of benign peripheral nerve tumors.^12,13

Analysis of MRI images has revealed that the signal intensity of peripheral nerve sheath tumors (PNSTs) may be nonspecific. Heterogeneity may be present and in such cases would reflect hypocellularity, hypercellularity, fibrous tissue, xanthomatous changes, cystic degeneration, necrosis and hemorrhage.^11,12-14,16

In some cases of neurofibroma and schwannoma, it is possible to detect a characteristic target pattern on the T2-weighted images using a bright signal (myxomatous tissue) at the lesion periphery and a low to intermediate signal at the central region (fibrocollagenous tissue). Although it has not been precisely identified, this target sign has been described as typical of peripheral nerve neoplasms.^11,17A target sign may also be present in benign peripheral nerve tumors imaged using high-resolution ultrasound.¹⁸

The imaging aspect of normal veins and of thrombosic veins on MRI is extremely variable, with many factors contributing to the signal intensity of the vessels.¹⁹Precise anatomical landmarks eventually may be necessary to unequivocally differentiate the vessels from the nerve in the same neurovascular bundle.

The thrombosed venous aneurysm in the calf described here presented as a soft tissue mass in continuity with an element from the neurovascular bundle and also showed a target sign upon MRI analysis. Therefore, these signs could not be considered separately from clinical information and from other imaging signs; otherwise, they may lead to an incorrect diagnosis of a benign peripheral nerve tumor. The authors emphasize that cautious evaluation of the anatomical landmarks from the neurovascular bundle and the comparative analysis of the pre- and post-contrast images are important to avoid such diagnostic confusion. The T2* echo gradient images may also be important in demonstrating the magnetic susceptibility related to blood product degradation.

1. Coffman SW, Leon SM, Gupta SK. Popliteal venous aneurysms: report of an unusual presentation and literature review. Ann Vasc Surg. 2000;14:286-90.
2. Bilotta W, Walker H, McDonald DJ, Sundaram M. Case report 651: Thrombosed, leaking popliteal aneurysm. Skeletal Radiol. 1991;20:71-2.
3. Sfyroeras GS, Antoniou GA, Drakou AA, Karathanos C, Giannoukas AD. Visceral Venous Aneurysms: Clinical Presentation, Natural History and Their Management: A Systematic Review. Eur J Vasc Endovasc Surg. 2009. article in press, epub ahead of print.
4. Chahlaoui J, Julien M, Nadeau P, Bruneau L, Roy P, Sylvestre J. Popliteal venous aneurysm: a source of pulmonary embolism. Am J Roentgenol. 1981;136:415-6.
5. Jack C, Sharma R, Vermuri RB. Popliteal venous aneurysms as a source of pulmonary embolism in a male: a case report. Angiology. 1984;35:54-7.
6. Ross GJ, Violi L, Barber LW, Vujic I. Popliteal venous aneurysm. Radiology. 1988;168:721-2.
7. Sessa C, Nicolini P, Perrin M, Farah I, Magne JL, Guidicelli H. Management of symptomatic and asymptomatic popliteal venous aneurysms: a retrospective analysis of 25 patients and review of the literature. J Vasc Surg. 2000;32:902-12.
8. Tsolakis JA, Kakkos SK, Panagiotopoulus E. Popliteal venous aneurysm mimicking a soft tissue tumour. A case report. Int Angiol. 1999;18:74-6.
9. Herrera L J, Davis JW, Livesay JJ. Popliteal Vein Aneurysm Presenting as a Popliteal Mass. Tex Heart Inst J. 2006;33:246-8.
10. Kransdorf MJ. Benign soft-tissue tumors in a large referral population: distribution of specific diagnoses by age, sex, and location. AJR. 1995;164:395-402.
11. Murphey MD, Smith WS, Smith SE, Kransdorf MJ, and Temple HT. From the Archives of the AFIP: Imaging of Musculoskeletal Neurogenic Tumors: Radiologic-Pathologic Correlation. RadioGraphics. 1999;19:1253-80.
12. Cerofolini E, Landi A, DeSantis G, Maiorana A, Canossi G, Romagnoli R. MR of benign peripheral nerve sheath tumors. J Comput Assist Tomogr. 1991;15:593-7.
13. Li CS, Huang GS, Wu HD, Chen WT, Shih LS, Lii JM, et al. Differentiation of soft tissue benign and malignant peripheral nerve sheath tumors with magnetic resonance imaging. Clinical Imaging. 2008;32:121-7.
14. Pilavaki M, Chourmouzi D, Kiziridou A, Skordalaki A, Zarampoukas T, Drevelengas A. Imaging of peripheral nerve sheath tumors with pathologic correlation Pictorial review. European Journal of Radiology. 2004;52:229-39.
15. Reynolds DL, Jacobson JA, Inampudi P, Jamadar DA, Ebeahim FS, Hayes CW. Sonographic Characteristics of Peripheral Nerve Sheath Tumors. AJR. 2004;182:741-4.
16. Jee WH, Oh SN, McCauley T, Ryu KN, Suh JS, Lee JH, et al. Extraaxial Neurofibromas Versus Neurilemmomas: Discrimination with MRI. AJR. 2004;183:629-33.
17. Suh JS, Abenoza P, Galloway HR, Everson LI and Griffiths HJ. Peripheral (extracranial) nerve tumors: correlation of MR imaging and histologic findings. Radiology. 1992;183:341-6.
18. Gruber H, Glodny B, Bendix N, Tzankov A, Peer S. High-resolution ultrasound of peripheral neurogenic tumors. European Radiology. 2007;17:2880-8.
19. Bradley WG Jr, Waluch V, Lai K-S, Fernandez EJ, Spalter C. The appearance of rapidly flowing blood on magnetic resonance images. AJR. 1984;143:1167-74.

Publication Dates

Publication in this collection
12 Apr 2010
Date of issue
2010

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Coffman SW, Leon SM, Gupta SK. Popliteal venous aneurysms: report of an unusual presentation and literature review. Ann Vasc Surg. 2000;14:286-90.

[2] 2. Bilotta W, Walker H, McDonald DJ, Sundaram M. Case report 651: Thrombosed, leaking popliteal aneurysm. Skeletal Radiol. 1991;20:71-2.

[3] 3. Sfyroeras GS, Antoniou GA, Drakou AA, Karathanos C, Giannoukas AD. Visceral Venous Aneurysms: Clinical Presentation, Natural History and Their Management: A Systematic Review. Eur J Vasc Endovasc Surg. 2009. article in press, epub ahead of print.

[4] 4. Chahlaoui J, Julien M, Nadeau P, Bruneau L, Roy P, Sylvestre J. Popliteal venous aneurysm: a source of pulmonary embolism. Am J Roentgenol. 1981;136:415-6.

[5] 5. Jack C, Sharma R, Vermuri RB. Popliteal venous aneurysms as a source of pulmonary embolism in a male: a case report. Angiology. 1984;35:54-7.

[6] 6. Ross GJ, Violi L, Barber LW, Vujic I. Popliteal venous aneurysm. Radiology. 1988;168:721-2.

[7] 7. Sessa C, Nicolini P, Perrin M, Farah I, Magne JL, Guidicelli H. Management of symptomatic and asymptomatic popliteal venous aneurysms: a retrospective analysis of 25 patients and review of the literature. J Vasc Surg. 2000;32:902-12.

[8] 8. Tsolakis JA, Kakkos SK, Panagiotopoulus E. Popliteal venous aneurysm mimicking a soft tissue tumour. A case report. Int Angiol. 1999;18:74-6.

[9] 9. Herrera L J, Davis JW, Livesay JJ. Popliteal Vein Aneurysm Presenting as a Popliteal Mass. Tex Heart Inst J. 2006;33:246-8.

[10] 10. Kransdorf MJ. Benign soft-tissue tumors in a large referral population: distribution of specific diagnoses by age, sex, and location. AJR. 1995;164:395-402.

[11] 11. Murphey MD, Smith WS, Smith SE, Kransdorf MJ, and Temple HT. From the Archives of the AFIP: Imaging of Musculoskeletal Neurogenic Tumors: Radiologic-Pathologic Correlation. RadioGraphics. 1999;19:1253-80.

[12] 12. Cerofolini E, Landi A, DeSantis G, Maiorana A, Canossi G, Romagnoli R. MR of benign peripheral nerve sheath tumors. J Comput Assist Tomogr. 1991;15:593-7.

[13] 13. Li CS, Huang GS, Wu HD, Chen WT, Shih LS, Lii JM, et al. Differentiation of soft tissue benign and malignant peripheral nerve sheath tumors with magnetic resonance imaging. Clinical Imaging. 2008;32:121-7.

[14] 14. Pilavaki M, Chourmouzi D, Kiziridou A, Skordalaki A, Zarampoukas T, Drevelengas A. Imaging of peripheral nerve sheath tumors with pathologic correlation Pictorial review. European Journal of Radiology. 2004;52:229-39.

[15] 15. Reynolds DL, Jacobson JA, Inampudi P, Jamadar DA, Ebeahim FS, Hayes CW. Sonographic Characteristics of Peripheral Nerve Sheath Tumors. AJR. 2004;182:741-4.

[16] 16. Jee WH, Oh SN, McCauley T, Ryu KN, Suh JS, Lee JH, et al. Extraaxial Neurofibromas Versus Neurilemmomas: Discrimination with MRI. AJR. 2004;183:629-33.

[17] 17. Suh JS, Abenoza P, Galloway HR, Everson LI and Griffiths HJ. Peripheral (extracranial) nerve tumors: correlation of MR imaging and histologic findings. Radiology. 1992;183:341-6.

[18] 18. Gruber H, Glodny B, Bendix N, Tzankov A, Peer S. High-resolution ultrasound of peripheral neurogenic tumors. European Radiology. 2007;17:2880-8.

[19] 19. Bradley WG Jr, Waluch V, Lai K-S, Fernandez EJ, Spalter C. The appearance of rapidly flowing blood on magnetic resonance images. AJR. 1984;143:1167-74.

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Giant thrombosed venous aneurysm in the calf: MRI characteristics and the target sign

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