Your search keyword '"Meder, J.-F."' showing total 15 results

1. An update on brain imaging in transient ischemic attack.

Author

Souillard-Scemama R, Tisserand M, Calvet D, Jumadilova D, Lion S, Turc G, Edjlali M, Mellerio C, Lamy C, Naggara O, Meder JF, and Oppenheim C

Subjects

Humans, Neuroradiography trends, Brain diagnostic imaging, Brain pathology, Cerebral Angiography trends, Ischemic Attack, Transient diagnosis, Magnetic Resonance Angiography trends, Tomography, X-Ray Computed trends

Abstract

Neuroimaging is critical in the evaluation of patients with transient ischemic attack (TIA) and MRI is the recommended modality to image an ischemic lesion. The presence of a diffusion (DWI) lesion in a patient with transient neurological symptoms confirms the vascular origin of the deficit and is predictive of a high risk of stroke. Refinement of MR studies including high resolution DWI and perfusion imaging using either MRI or CT further improve the detection of ischemic lesions. Rapid etiological work-up includes non-invasive imaging of cervical and intracranial arteries to search for symptomatic stenosis/occlusion associated with an increased risk of stroke., (Copyright © 2015. Published by Elsevier Masson SAS.)

Published

2015

2. Advanced technologies applied to physiopathological analysis of central nervous system aneurysms and vascular malformations.

Author

Edjlali M, Roca P, Gentric JC, Trystram D, Rodriguez-Régent C, Nataf F, Chrétien F, Wieben O, Turski P, Meder JF, Naggara O, and Oppenheim C

Subjects

Central Nervous System Vascular Malformations diagnosis, Humans, Imaging, Three-Dimensional methods, Intracranial Aneurysm diagnosis, Prognosis, Rupture, Spontaneous, Shear Strength, Central Nervous System Vascular Malformations physiopathology, Hemodynamics physiology, Image Enhancement methods, Image Interpretation, Computer-Assisted methods, Intracranial Aneurysm physiopathology, Magnetic Resonance Angiography methods, Muscle, Smooth, Vascular physiopathology

Abstract

While depiction and definition of morphological and architectural characteristics of CNS vascular disorders remains the first step of an MR analysis, emerging imaging techniques offer new functional information that might help to characterize rupture risk of CNS vascular disorders. Two main orientations are suggested by recent studies: inflammation of the vessel wall and analysis of physical constraints of blood flow using 4D flow imaging (shear parietal). This paper will focus on radiological application of 4D flow imaging and inflammation imaging, in the characterization of potential prognostic markers of CNS vascular disorders. We will review the basic technical considerations of 4D flow MRA, inflammation imaging and discuss their applications in CNS vascular disorders: aneurysms, arteriovenous malformation, dural arteriovenous fistulas. We will illustrate their potential in the development of individual rupture risk criteria in brain vascular disorders., (Copyright © 2014 Éditions françaises de radiologie. All rights reserved.)

Published

2014

3. Imaging of cervical artery dissection.

Author

Ben Hassen W, Machet A, Edjlali-Goujon M, Legrand L, Ladoux A, Mellerio C, Bodiguel E, Gobin-Metteil MP, Trystram D, Rodriguez-Regent C, Mas JL, Plat M, Oppenheim C, Meder JF, and Naggara O

Subjects

Carotid Artery, Internal, Dissection etiology, Disease Progression, Follow-Up Studies, Humans, Image Enhancement, Image Interpretation, Computer-Assisted, Prognosis, Vertebral Artery Dissection etiology, Carotid Artery, Internal, Dissection diagnosis, Cerebral Angiography, Magnetic Resonance Angiography, Tomography, X-Ray Computed, Vertebral Artery Dissection diagnosis

Abstract

Cervical artery dissection (CAD) may affect the internal carotid and/or the vertebral arteries. CAD is the leading cause of ischemic stroke in patients younger than 45 years. Specific treatment (aspirin or anticoagulants) can be implemented once the diagnosis of CAD has been confirmed. This diagnosis is based on detection of a mural haematoma on ultrasound or on MRI. The diagnosis can be suspected on contrast-enhanced MRA (magnetic resonance angiography) or CT angiography, in case of long stenosis, sparing the internal carotid bulb, or suspended, at the junction of V2 and V3 segments of the vertebral artery, in patients with no signs of atheroma of the cervical arteries. MRI is recommended as the first line imaging screening tool, including a fat suppressed T1 weighted sequence, acquired in the axial or oblique plane at 1.5T, or 3D at 3T. Complete resolution of the lumen abnormality occurred in 80% of cases, and CAD recurrence is rare, encountered in less than 5% of cases. Interventional neuroradiology (angioplasty and/or stenting of the dissected vessel) may be envisaged in rare cases of haemodynamic effects with recurring clinical infarctions in the short-term.

Published

2014

4. Non-invasive diagnosis of intracranial aneurysms.

Author

Rodriguez-Régent C, Edjlali-Goujon M, Trystram D, Boulouis G, Ben Hassen W, Godon-Hardy S, Nataf F, Machet A, Legrand L, Ladoux A, Mellerio C, Souillard-Scemama R, Oppenheim C, Meder JF, and Naggara O

Subjects

Mass Screening, Risk Factors, Subarachnoid Hemorrhage etiology, Cerebral Angiography, Intracranial Aneurysm diagnosis, Magnetic Resonance Angiography, Tomography, X-Ray Computed

Abstract

Patients need to be examined for intracranial aneurysms if they have had a subarachnoid hemorrhage. The preferred technique in this situation is CT angiography. Screening can be done for familial forms or for elastic tissue disorders, for which the first line investigation is magnetic resonance angiography. These non-invasive methods have now taken over from conventional angiography that was reserved for the pretreatment phase. A good technical knowledge of these imaging methods, their artifacts and misleading images enables reliable detection of intracranial aneurysms and for an accurate report to be returned to clinicians., (Copyright © 2014 Éditions françaises de radiologie. Published by Elsevier Masson SAS. All rights reserved.)

Published

2014

5. [Grading of adults primitive glial neoplasms using arterial spin-labeled perfusion MR imaging].

Author

Canale S, Rodrigo S, Tourdias T, Mellerio C, Perrin M, Souillard R, Oppenheim C, and Meder JF

Subjects

Adult, Aged, Brain Neoplasms blood supply, Cerebrovascular Circulation, Female, Glioma blood supply, Humans, Male, Middle Aged, Neoplasm Grading, Spin Labels, Brain Neoplasms pathology, Glioma pathology, Magnetic Resonance Angiography

Abstract

Purpose: We investigated the relationship between tumor blood-flow measurement based on perfusion-imaging by arterial spin-labeling (ASL) and histopathologic findings in adults' primitive glial tumours., Patients and Methods: Thus, 40 primitive brain tumors (8 low-grade and 32 high-grade gliomas according to the Sainte-Anne classification) were imaged using pulsed (n=19) or continuous (n=21) ASL. Relative cerebral blood flow (rCBF=tumoral blood flow/normal cerebral blood flow) between high- and low-grade gliomas were compared., Results: Using pulsed ASL, differences in mean rCBF were observed in high- and low-grade gliomas although no significant (respectively 1.95 and 1.5). Using continuous ASL, mean rCBF were significantly higher for high-grade than for low-grade gliomas (P<0.05). High-grade gliomas could be discriminated using a CBF threshold of 1.18, with a sensitivity of 88%, specificity of 60%, predictive positive value of 88%, and predictive negative value of 60%., Conclusion: ASL-based perfusion provides a quantitative, non-invasive alternative to dynamic susceptibility contrast perfusion MR methods for evaluating CBF. ASL is a suitable method for gliomas initial staging and could be useful to identify intermediate tumoral evolution., (Copyright © 2011 Elsevier Masson SAS. All rights reserved.)

Published

2011

6. Added value of high-resolution MR imaging in the diagnosis of vertebral artery dissection.

Author

Naggara O, Louillet F, Touzé E, Roy D, Leclerc X, Mas JL, Pruvo JP, Meder JF, and Oppenheim C

Subjects

Adult, Aged, Aged, 80 and over, Contrast Media, Female, Humans, Male, Middle Aged, Reproducibility of Results, Sensitivity and Specificity, Algorithms, Image Enhancement methods, Magnetic Resonance Angiography methods, Meglumine, Organometallic Compounds, Vertebral Artery Dissection pathology

Abstract

Background and Purpose: The optimal imaging method for the diagnosis of VAD remains undefined. Our aim was to evaluate the added value of HR-MR imaging for the diagnosis of VAD., Materials and Methods: We retrospectively extracted 35 consecutive patients suspected of having acute VAD who had the following: 1) a focal lumen abnormality of the VA on CE-MRA, 2) HR-MR imaging during the initial hospital stay, and 3) clinical and imaging follow-up within 6 months. Two neurologists classified patients as either VAD (group A) or non-VAD (group B) by reviewing all the available data at hospital discharge, except HR-MR imaging data. On HR-MR imaging, 2 radiologists searched for signs of acute VAD. The 2 classifications were compared. In case of discordance, CE-MRA follow-up and axial fat-suppressed T1WI, used to obtain supportive evidence for or against VAD, were considered as the standard of reference., Results: In 4/18 patients in group A, HR-MR imaging did not demonstrate any signs of acute VAD and perivertebral signal-intensity changes were attributed to venous plexus, with an unchanged lumen on follow-up. In 4/17 patients in group B, HR-MRI demonstrated a mural hematoma, with lumen normalization on follow-up CE-MRA., Conclusions: Our results encourage the use of HR-MR imaging as a second-line diagnostic tool in the event of suspicion of acute VAD and doubtful findings on standard imaging.

Published

2010

7. Perfusion-weighted MR imaging studies in brain hypervascular diseases: comparison of arterial input function extractions for perfusion measurement.

Author

Ducreux D, Buvat I, Meder JF, Mikulis D, Crawley A, Fredy D, TerBrugge K, Lasjaunias P, and Bittoun J

Subjects

Adolescent, Adult, Child, Female, Humans, Male, Middle Aged, Prospective Studies, Blood Volume, Cerebrovascular Circulation, Cerebrovascular Disorders diagnosis, Cerebrovascular Disorders physiopathology, Magnetic Resonance Angiography

Abstract

Background and Purpose: Brain hypervascular diseases are complex and induce hemodynamic disturbances on brain parenchyma, which are difficult to accurately evaluate by using perfusion-weighted (PWI) MR imaging. Our purpose was to test and to assess the best AIF estimation method among 4 patients with brain hypervascular disease and healthy volunteers., Methods: Thirty-three patients and 10 healthy volunteers underwent brain perfusion studies by using a 1.5T MR imaging scanner with gadolinium-chelate bolus injection. PWI was performed with the indicator dilution method. AIF estimation methods were performed with local, regional, regional scaled, and global estimated arterial input function (AIF), and PWI measurements (cerebral blood volume [CBV] and cerebral blood flow [CBF]) were performed with regions of interest drawn on the thalami and centrum semiovale in all subjects, remote from the brain hypervascular disease nidus. Abnormal PWI results were assessed by using Z Score, and evaluation of the best AIF estimation method was performed by using a no gold standard evaluation method., Results: From 88% to 97% of patients had overall abnormal perfusion areas of hypo- (decreased CBV and CBF) and/or hyperperfusion (increased CBV and CBF) and/or venous congestion (increased CBV, normal or decreased CBF), depending on the AIF estimation method used for PWI computations. No gold standard evaluation of the 4 AIF estimates found the regional and the regional scaled methods to be the most accurate., Conclusion: Brain hypervascular disease induces remote brain perfusion abnormalities that can be better detected by using PWI with regional or regional scaled AIF estimation methods.

Published

2006

8. [Dynamic MRA in the evaluation of intracranial vascular diseases].

Author

Gauvrit JY, Oppenheim C, Savage J, Nataf F, Reyns N, Pruvo JP, Meder JF, and Leclerc X

Subjects

Adult, Aged, Angiography, Digital Subtraction, Contrast Media, Female, Humans, Imaging, Three-Dimensional, Male, Middle Aged, Cerebrovascular Disorders diagnosis, Magnetic Resonance Angiography methods

Abstract

Conventional catheter angiography (CCA) remains the gold standard for the evaluation of most intracranial vascular malformations. MRA techniques such as Time of Flight, Phase Contrast or 3D contrast-enhanced MRA, provide anatomic evaluation but without hemodynamic information. Recently developed, dynamic MRA is based on dynamic acquisition of images and image subtraction; these two principal characteristics produce images comparable to those obtained by CCA. The purpose of this review is to explain the principles, advantages and drawbacks of this technique in the evaluation of arteriovenous malformations, arteriovenous fistulas, aneurysms and venous thrombosis.

Published

2005

9. [Cerebral arteriovenous malformations: value of the non invasive vascular imaging techniques].

Author

Leclerc X, Gauvrit JY, Trystram D, Reyns N, Pruvo JP, and Meder JF

Subjects

Contrast Media administration & dosage, Gadolinium, Humans, Sensitivity and Specificity, Angiography, Digital Subtraction, Cerebral Angiography, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Intracranial Arteriovenous Malformations diagnosis, Magnetic Resonance Angiography, Tomography, X-Ray Computed

Abstract

Imaging evaluation of cerebral arteriovenous malformations (AVM) requires selective visualization of the different compartments of the malformation in order to select the therapeutic management. Conventional angiography remains the reference to analyze intracranial vessel conspicuity but non-invasive methods constitute an excellent alternative. Among these techniques, CT angiography is rarely used because of the need to inject iodinated contrast material and because of irradiation. MR angiography provides useful information and can be performed using several techniques: time of flight with or without contrast material injection, phase contrast, three-dimensional (3D) gradient echo acquisition after contrast material injection and, more recently, MR digital subtraction angiography. The purpose of this review article is to summarize the different non-invasive techniques for vascular imaging and to analyze the usefulness of these techniques for the assessment of brain AVMs.

Published

2004

10. MR perfusion imaging in proliferative angiopathy.

Author

Ducreux D, Meder JF, Fredy D, Bittoun J, and Lasjaunias P

Subjects

Adolescent, Adult, Blood Flow Velocity physiology, Blood Volume physiology, Brain Ischemia diagnosis, Carotid Artery, Internal abnormalities, Carotid Artery, Internal pathology, Cerebellum blood supply, Cerebral Cortex blood supply, Contrast Media administration & dosage, Deglutition Disorders etiology, Diagnosis, Differential, Dominance, Cerebral physiology, Embolization, Therapeutic, Female, Follow-Up Studies, Fourier Analysis, Gadolinium DTPA, Humans, Intracranial Arteriovenous Malformations therapy, Male, Middle Aged, Regional Blood Flow physiology, Sensitivity and Specificity, Epilepsy etiology, Image Enhancement, Image Processing, Computer-Assisted, Intracranial Arteriovenous Malformations diagnosis, Magnetic Resonance Angiography

Abstract

Seizures, which may be the main expression of cerebral arteriovenous malformations (CAVM) can be difficult to control medically. Our goal was to use perfusion-weighted imaging (PWI) in correlation with clinical data to detect abnormal areas of the cerebrum related to a particular type of CAVM (proliferative angiopathy) and to study the pathophysiology. We use PWI, with a bolus injection of contrast medium, to investigate seven patients with proliferative angiopathy and fits producing language disturbance. Perfusion parameters were calculated using the first-pass moment theory. Five patients had perimalformative and/or contralateral abnormal areas with relative hyperperfusion (cerebral blood volume +20.7+/-16.2%, blood flow 92.5+/-68.8 ml/min/100 g). Areas of hypoperfusion and venous congestion were detected in two patients. One patient who underwent MRI after a severe focal deficit had no significant haemodynamic abnormality.

Published

2004

11. [A critical appraisal of diagnostic imaging techniques in asymptomatic carotid stenosis].

Author

Leclerc X, Gauvrit JY, Meder JF, and Pruvo JP

Subjects

Humans, Ultrasonography, Carotid Stenosis diagnostic imaging, Carotid Stenosis pathology, Magnetic Resonance Angiography, Tomography, Spiral Computed

Abstract

Asymptomatic stenosis of the internal carotid artery requires a non-invasive imaging work-up. The objectives include the quantification of the degree of stenosis, the analysis of the atherosclerotic plaque and the consequences of this stenosis on the brain tissue. Previous studies showed the reliability of MR angiography and spiral CT for the assessment of the arterial lumen. However, the consensus is based on the association of ultrasonography and MRA because of the non-invasive approach of these examinations that allow a complete evaluation of both the extracranial and the intracranial vessels. Recent advances in MRI will probably allow to simultaneously analyze the arterial wall in order to detect the plaques at risk and to optimize the therapeutic approach.

Published

2004

12. [Normal results].

Author

Meder JF, Brami-Zylberberg F, Oppenheim C, Méary E, Martinez-Lozano F, Delvat D, and Frédy D

Subjects

Arteries pathology, Brain blood supply, Humans, Image Enhancement, Microcirculation pathology, Reference Values, Veins pathology, Brain pathology, Magnetic Resonance Angiography, Magnetic Resonance Imaging

Abstract

THE TECHNIQUE: Today, magnetic resonance imaging (MRI) is the exploration of choice for a number of central nervous system disorders. This technique, which does not use ionising rays, examines the encephalus in all its dimensions. Various sequences are used to study the cerebral parenchyma: specific sequences in T1, with or without injection of a contrast product, specific sequence in T2, and FLAIR sequence. THE RESULTS OBTAINED: The diffusion and perfusion imaging respectively reveal the movement of the water molecules and the cerebral microcirculation. Visualisation of the arteries and veins is non-invasive with magnetic resonance angiographical techniques. Study of the chemical composition of tissues (magnetic resonance spectroscopy) and of cerebral activation (functional activation imaging) will not be addressed.

Published

2002

13. [Radioanatomy of cerebral arteriovenous malformations].

Author

Meder JF, Nataf F, Delvat D, Ghossoub M, Trystram D, Nagi S, Mérienne L, Godon-Hardy S, and Frédy D

Subjects

Diagnosis, Differential, Humans, Intracranial Aneurysm diagnostic imaging, Intracranial Aneurysm pathology, Intracranial Arteriovenous Malformations diagnostic imaging, Prognosis, Cerebral Angiography, Intracranial Arteriovenous Malformations diagnosis, Magnetic Resonance Angiography

Abstract

New imaging modalities permit detailed knowledge of the anatomy of cerebral arteriovenous malformations. Magnetic resonance imaging (MRI) provides morphological data, size and topography of the nidus, anatomic relationship, as well as dynamic information particularly with the use of MR angiography. Selective and hyperselective cerebral angiography provide information about the angioarchitecture and search for associated vascular abnormalities such as aneurysms. It is therefore possible to distinguish malformations associated with a high risk of hemorrhage and to define the indications for radiosurgery.

Published

1998

14. Perfusion-weighted MR imaging studies in brain hypervascular diseases: comparison of arterial input function extractions for perfusion measurement

Author

Ducreux, D., Buvat, I., Meder, J. F., David Mikulis, Crawley, A., Fredy, D., Terbrugge, K., Lasjaunias, P., Bittoun, J., Department of Neuroradiology, Université Paris-Sud - Paris 11 (UP11)-Hôpital Bicêtre, Laboratoire d'Imagerie Fonctionnelle (LIF), Université Pierre et Marie Curie - Paris 6 (UPMC)-IFR14-IFR49-Institut National de la Santé et de la Recherche Médicale (INSERM), Medical Imaging Department, Toronto Western Hospital, DIMF, Université Paris Descartes - Paris 5 (UPD5)-Centre Hospitalier Sainte-Anne, Unite de recherche en résonance magnétique médicale (U2R2M), Université Paris-Sud - Paris 11 (UP11)-Hôpital Bicêtre-Centre National de la Recherche Scientifique (CNRS), Université Paris-Sud - Paris 11 ( UP11 ) -Hôpital Bicêtre, Laboratoire d'Imagerie Fonctionnelle ( LIF ), Université Pierre et Marie Curie - Paris 6 ( UPMC ) -IFR14-IFR49-Institut National de la Santé et de la Recherche Médicale ( INSERM ), Université Paris Descartes - Paris 5 ( UPD5 ) -Centre Hospitalier Sainte-Anne, Unite de recherche en résonance magnétique médicale ( U2R2M ), Université Paris-Sud - Paris 11 ( UP11 ) -Hôpital Bicêtre-Centre National de la Recherche Scientifique ( CNRS ), and Saidi, Vanessa

Subjects

Adult, Male, MESH: Blood Volume, Adolescent, MESH : Magnetic Resonance Angiography, MESH : Male, MESH : Prospective Studies, MESH: Magnetic Resonance Angiography, MESH : Cerebrovascular Disorders, MESH : Child, MESH : Adolescent, MESH: Child, Humans, MESH : Middle Aged, MESH : Female, Prospective Studies, [ SDV.IB ] Life Sciences [q-bio]/Bioengineering, Child, [SDV.IB] Life Sciences [q-bio]/Bioengineering, MESH: Adolescent, MESH : Blood Volume, Blood Volume, MESH: Middle Aged, MESH: Humans, MESH : Humans, Brain, MESH: Adult, MESH: Cerebrovascular Circulation, Middle Aged, MESH : Adult, MESH: Prospective Studies, MESH: Male, Cerebrovascular Disorders, Cerebrovascular Circulation, MESH : Cerebrovascular Circulation, Female, MESH: Cerebrovascular Disorders, [SDV.IB]Life Sciences [q-bio]/Bioengineering, MESH: Female, Magnetic Resonance Angiography

Abstract

BACKGROUND AND PURPOSE: Brain hypervascular diseases are complex and induce hemodynamic disturbances on brain parenchyma, which are difficult to accurately evaluate by using perfusion-weighted (PWI) MR imaging. Our purpose was to test and to assess the best AIF estimation method among 4 patients with brain hypervascular disease and healthy volunteers. METHODS: Thirty-three patients and 10 healthy volunteers underwent brain perfusion studies by using a 1.5T MR imaging scanner with gadolinium-chelate bolus injection. PWI was performed with the indicator dilution method. AIF estimation methods were performed with local, regional, regional scaled, and global estimated arterial input function (AIF), and PWI measurements (cerebral blood volume [CBV] and cerebral blood flow [CBF]) were performed with regions of interest drawn on the thalami and centrum semiovale in all subjects, remote from the brain hypervascular disease nidus. Abnormal PWI results were assessed by using Z Score, and evaluation of the best AIF estimation method was performed by using a no gold standard evaluation method. RESULTS: From 88% to 97% of patients had overall abnormal perfusion areas of hypo- (decreased CBV and CBF) and/or hyperperfusion (increased CBV and CBF) and/or venous congestion (increased CBV, normal or decreased CBF), depending on the AIF estimation method used for PWI computations. No gold standard evaluation of the 4 AIF estimates found the regional and the regional scaled methods to be the most accurate. CONCLUSION: Brain hypervascular disease induces remote brain perfusion abnormalities that can be better detected by using PWI with regional or regional scaled AIF estimation methods.

15. Three-dimensional dynamic MR digital subtraction angiography using sensitivity encoding for the evaluation of intracranial arteriovenous malformations: A preliminary study

Author

Gauvrit, J. -Y, Leclerc, X., Catherine Oppenheim, Munier, T., Trystram, D., Rachdi, H., Nataf, F., Pruvo, J. -P, and Meder, J. -F

Subjects

Adult, Intracranial Arteriovenous Malformations, Male, Imaging, Three-Dimensional, Brain, Angiography, Digital Subtraction, Humans, Female, Middle Aged, Magnetic Resonance Angiography

Abstract

BACKGROUND AND PURPOSE: Our aim was to develop 3D dynamic MR digital subtraction angiography with high temporal resolution without sacrificing spatial resolution by using sensitivity encoding for the evaluation of cerebral arteriovenous malformations. METHODS: Nineteen patients with 19 angiographically proven arteriovenous malformations (16 supratentorial and 3 infratentorial) were assessed by conventional catheter angiography and 3D dynamic MR digital subtraction angiography. A 3D contrast-enhanced gradient-echo sequence with sensitivity encoding based on a parallel imaging technique was performed and acquired 20 dynamic images, repeated 18 times every 1.7 seconds. Three-dimensional dynamic MR digital subtraction angiograms were analyzed independently by two radiologists in a blinded fashion with regard to arteriovenous malformation nidus and venous drainage. Conventional catheter angiography was used as reference. RESULTS: All MR imaging examinations were assessable. Interobserver agreement was excellent for the detection of nidus and for the evaluation of nidus size (κ = 1 and 0.875, respectively) but moderate for the visualization of the venous drainage (κ = 0.56). All nidi detected on conventional catheter angiography were clearly depicted on 3D dynamic MR digital subtraction angiography. The evaluation of the size of the nidus by both techniques was similar. On 3D dynamic MR angiograms, veins were correctly analyzed in 17 of 19 arteriovenous malformations. CONCLUSION: Our preliminary study demonstrates that 3D dynamic MR digital subtraction angiography using sensitivity encoding with a high spatial resolution is appropriate for the assessment of arteriovenous malformations.