A 48-year-old man presented headaches in the last two months, and no neurological deficits.
The computed tomography (CT) scan revealed an intraparenchymal hemorrhage localized in right frontal lobe11. Borden JA, Wu JK, Shucart WA. A proposed classification for spinal and cranial dural arteriovenous fistulous malformations and implications for treatment. J Neurosurg 1995;82:166-179..
The magnetic resonance (MR) showed the lesion included middle frontal gyrus, fronto-orbital region and gyrus rectus (Fig 1).
(A – C) Magnetic Resonance (MR) images axial view; T1, T2 and Flair sequences respectively. The image presents a hyperintense lesion in both T1 and T2 images, and a hypointense peripheric halo in T2, suggesting a subacute evolution. T2 and FLAIR images had a peripheric hypersinal due to edema, contributing to the mass effect and a discrete compression of the frontal horn of the lateral ventricle. (D) T1 sequence, sagital view. (E – H) Digital Angiography. The DAVF involves the right frontopolar artery and a dural vein of the anterior fossa. There is drainage to the falcine parasagital vein and from this to the superior sagital sinus. (E and G) Right Internal Carotid Angiography: note red arrow pointing the anomalous shunt and blue arrow showing anomalous drainage vessels. (F and H) Angiography post-surgery: no shunt or anomalous draining vessels.
Diagnostic cerebral angiography (DCA) demonstrated intracranial dural arteriovenous fistulas (DAVF) classified as Borden IA22. Cognard C, Gobin YP, Pierot L, et al. Cerebral dural arteriovenous fistulas: clinical and angiographic correlation with a revised classification of venous drainage. Radiology 1995;194:671-680.−55. Reul J, Thron A, Laborde G, Bruckmann H. Dural arteriovenous malformations at the base of the anterior cranial fossa: report of nine cases. Neuroradiology 1993;35:388-393. , a single fistula with venous drainage directly into dural venous sinus or meningeal vein and antegrade flow (Fig 1).
The DAVF was occluded after a right fronto temporoparietal craniotomy, and a DCA, one year after the procedure, showed no residual fistula (Fig 2).
REFERENCES
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1Borden JA, Wu JK, Shucart WA. A proposed classification for spinal and cranial dural arteriovenous fistulous malformations and implications for treatment. J Neurosurg 1995;82:166-179.
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2Cognard C, Gobin YP, Pierot L, et al. Cerebral dural arteriovenous fistulas: clinical and angiographic correlation with a revised classification of venous drainage. Radiology 1995;194:671-680.
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3Davies MA, TerBrugge K, Willinsky R, Coyne T, Saleh J, Wallace MC. The validity of classification for the clinical presentation of intracranial dural arteriovenous fistulas. J Neurosurg 1996;85:830-837.
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4Gomez J, Amin AG, Gregg L, Gailloud P. Classification schemes of cranial dural arteriovenous fistulas. Neurosurg Clin N Am 2012;23:55-62.
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5Reul J, Thron A, Laborde G, Bruckmann H. Dural arteriovenous malformations at the base of the anterior cranial fossa: report of nine cases. Neuroradiology 1993;35:388-393.
Publication Dates
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Publication in this collection
May 2013
History
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Received
7 Nov 2012 -
Received
11 Dec 2012 -
Accepted
18 Dec 2012