Perfusion imaging of cerebral arteriovenous malformations: a study comparing quantitative continuous arterial spin labeling and dynamic contrast-enhanced magnetic resonance imaging at 3 T

Perfusion imaging of cerebral arteriovenous malformations: a study comparing quantitative continuous arterial spin labeling and dynamic contrast-enhanced magnetic resonance imaging at 3 T

Abstract Assessment of hemodynamics in arteriovenous malformations (AVMs) is important for estimating the risk of bleeding as well as planning and monitoring therapy. In tissues with perfusion values significantly higher than cerebral cortex, continuous arterial spin labeling (CASL) permits both ade...

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Bibliographic Details
Published in:Magnetic resonance imaging Vol. 29; no. 9; pp. 1157 - 1164
Main Authors: Lüdemann, Lutz, Jedrzejewski, Grzegorz, Heidenreich, Jens, Han, Eric T, Bruhn, Harald
Format: Journal Article
Language:English
Published: Netherlands Elsevier Inc 01-11-2011
Subjects:
Adult
Arteriovenous malformations
ASL
AVM
Brain - pathology
CASL
Cerebrovascular Circulation
Continuous arterial spin labeling
Contrast Media - pharmacology
DCE-MRI
Dynamic contrast-enhanced MRI
Female
Hemodynamics
Humans
Intracranial Arteriovenous Malformations - pathology
Magnetic Resonance Imaging - methods
Male
Models, Statistical
Perfusion
Perfusion Imaging - methods
Radiology
Spin Labels
Dynamic contrast-enhanced MRI
DCE-MRI
Arteriovenous malformations
AVM
CASL
ASL
Continuous arterial spin labeling
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Summary:Abstract Assessment of hemodynamics in arteriovenous malformations (AVMs) is important for estimating the risk of bleeding as well as planning and monitoring therapy. In tissues with perfusion values significantly higher than cerebral cortex, continuous arterial spin labeling (CASL) permits both adequate representation and quantification of perfusion. Thirteen patients who had cerebral AVMs were examined with two magnetic resonance imaging (MRI) techniques: perfusion imaging using a CASL technique with two delay times, 800 and 1200 ms, and T2 -weighted dynamic contrast-enhanced MRI ( T2 -DCE-MRI). The signal-to-noise ratio obtained in our study with the CASL technique at 3 T was sufficient to estimate perfusion in gray matter. Both nidal and venous perfusion turned out larger by factors of 1.71±2.01 and 2.48±1.51 in comparison to T2 -DCE-MRI when using CASL at delay times of 800 and 1200 ms, respectively. Moreover, the venous and nidal perfusion values of the AVMs measured at T2 -DCE-MRI did not correlate with those observed at CASL. Evaluation of average perfusion values yielded significantly different results when using a shorter versus a longer delay time. Average gray matter perfusion was 15.8% larger when measured at delay times of w =800 ms versus w =1200 ms, while nidal perfusion was 15.7% larger and venous perfusion was 34.6% larger, respectively. In conclusion, the extremely high perfusion within an AVM could be successfully quantified using CASL. A shorter postlabeling delay time of w =800 ms seems to be more appropriate than a longer time of w =1200 ms because of possible inflow of unlabeled spins at the latter.
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ISSN:0730-725X
1873-5894
DOI:10.1016/j.mri.2011.07.026