Application of 4-Dimensional Digital Subtraction Angiography for Dural Arteriovenous Fistulas

Three-dimensional reconstruction of digital subtraction angiography (3D-DSA) is a useful imaging modality for assessing complex cerebrovascular lesions. However, due to the importance of flow over time in certain vascular lesions, 3D-DSA is of less value as it lacks the temporal resolution. Dural ar...

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Bibliographic Details
Published in:World neurosurgery 2016-12, Vol.96, p.24-30
Main Authors: Srinivasan, Visish M., Chintalapani, Gouthami, Duckworth, Edward A.M., Kan, Peter
Format: Article
Language:English
Subjects:
3D angiography
Angiography, Digital Subtraction - methods
Central Nervous System Vascular Malformations - diagnostic imaging
Central Nervous System Vascular Malformations - surgery
Cerebral Angiography - methods
Digital subtraction angiogram
Dural arteriovenous fistula
Endovascular Procedures
Female
Four-Dimensional Computed Tomography
Humans
Imaging, Three-Dimensional
Male
Middle Aged
Neurosurgical Procedures
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Summary:Three-dimensional reconstruction of digital subtraction angiography (3D-DSA) is a useful imaging modality for assessing complex cerebrovascular lesions. However, due to the importance of flow over time in certain vascular lesions, 3D-DSA is of less value as it lacks the temporal resolution. Dural arteriovenous fistulas (AVFs) are complex lesions in which an arteriovenous shunt exists between meningeal arteries and a dural venous sinus or cortical vein. Traditional 2D-DSA, especially with superselective injections of feeding arteries, is currently the gold standard for assessment, but overlapping of opacified vessels can complicate interpretation. A novel imaging technique, 4D-DSA, merges 3D reconstructions of multiple temporal series. It offers a unique perspective on complex cerebrovascular lesions and may offer several advantages in the assessment of dural AVF. 4D-DSA images were acquired in 5 patients who presented with dural AVFs. All relevant clinical data, imaging, and procedural/operative reports were reviewed retrospectively. 4D-DSA images were reconstructed on a separate 3D workstation and compared to 2D and 3D-DSA images in an offline fashion. In all 5 cases, 4D-DSA proved to be useful in lesion assessment and treatment planning. This included observation (n = 2), microsurgery (n = 1), and endovascular embolization (n = 2). In the small series of patients in which it has been evaluated, 4D-DSA offers several advantages in assessing dural AVFs. The ability to see and manipulate feeding arteries in 3D combined with temporal resolution was useful in assessment and treatment planning. Continued experience with this imaging technique will be needed to identify its optimal use.
ISSN:1878-8750
1878-8769
DOI:10.1016/j.wneu.2016.05.021