MR ANGIOGRAPHY OF LOWER-EXTREMITY ARTERIAL-DISEASE - PRELIMINARY EXPERIENCE

被引：39

作者：

YUCEL, EK

DUMOULIN, CL

WALTMAN, AC

机构：

[1] Department of Radiology, Massachusetts General Hospital, Boston, Massachusetts, 02114

[2] GE Research and Development Center, Schenectady, New York

来源：

JMRI-JOURNAL OF MAGNETIC RESONANCE IMAGING | 1992年 / 2卷 / 03期

关键词：

ANEURYSM; FEMORAL; MR; POPLITEAL; ARTERIES; EXTREMITIES; STENOSIS OR OBSTRUCTION; COMPARATIVE STUDIES; VASCULAR STUDIES;

D O I：

10.1002/jmri.1880020309

中图分类号：

R8 [特种医学]; R445 [影像诊断学];

学科分类号：

1002 ; 100207 ; 1009 ;

摘要：

Nineteen patients underwent magnetic resonance (MR) angiography for evaluation of lower-extremity arterial disease. The underlying conditions included atherosclerotic occlusive disease in 12 patients, femoral or popliteal aneurysms in four, and bypass graft stenoses or occlusion in four. In the patients with occlusive disease, the iliac and femoropopliteal vessels were classified as patent, moderately stenotic, severely stenotic, or occluded. Fifteen of 16 occlusions (accuracy = 94%) were correctly classified. In the one missed case, there was a long delay between MR angiography and x-ray angiography and it is likely that the occlusion occurred during the interval. Three of five severe stenoses were correctly classified with MR angiography. In two cases of iliac artery stenosis, there was a signal void at the point of maximal stenosis, which on the basis of anatomic features could be recognized as severe stenosis rather than an occlusion. Three of four moderate stenoses were correctly classified. Correlation with x-ray angiography or surgery demonstrated the ability of MR angiography to accurately depict the status of runoff vessels.

引用

页码：303 / 309

页数：7

共 18 条

[1]

Mattle HP, Kent KC, Edelman RR, Atkinson DJ, Skillman JJ, Evaluation of the extracranial carotid arteries: correlation of magnetic resonance angiography, duplex ultra‐sonography, and conventional angiography, J Vasc Surg, 13, pp. 838-844, (1991)

[2]

Masaryk AM, Ross JS, DiCello MC, Modic MT, Paranandi L, Masaryk TJ, 3DFT MR angiography of the carotid bifurcation: potential and limitations as a screening examination, Radiology, 179, pp. 797-804, (1991)

[3]

Masaryk TJ, Modic MT, Ross JS, Et al., Intracranial circulation: preliminary clinical results with three‐dimensional (volume) MR angiography, Radiology, 171, pp. 793-799, (1989)

[4]

Ross JS, Masaryk TJ, Modic MT, Ruggieri PM, Haacke EM, Selman WR, Intracranial aneurysms: evaluation by MR angiography, AJR, 155, pp. 159-165, (1990)

[5]

Edelman RR, Wentz KU, Mattle HP, Et al., Intracerebral arteriovenous malformations: evaluation with selective MR angiography and venography, Radiology, 173, pp. 831-837, (1989)

[6]

Marchal G, Bosmans H, Van Fraeyenhoven L, Et al., Intracranial vascular lesions: optimization and clinical evaluation of three‐dimensional time‐of‐flight MR angiography, Radiology, 175, pp. 443-448, (1990)

[7]

Pernicone JR, Siebert JE, Potchen EJ, Pera A, Dumoulin CL, Souza SP, Three dimensional phase contrast MR angiography in the head and neck, AJNR, 11, pp. 457-466, (1990)

[8]

Huston J, Rufenacht DA, Ehman RL, Wiebers DO, Intracranial aneurysms and vascular malformations: comparison of time‐of‐flight and phase‐contrast MR angiography, Radiology, 181, pp. 721-730, (1991)

[9]

Nussel F, Wegmuller H, Huber P, Comparison of magnetic resonance angiography, magnetic resonance imaging, and conventional angiography in cerebral arteriovenous malformation, Neuroradiology, 33, pp. 56-61, (1991)

[10]

Kent KC, Edelman RR, Kim D, Steinman TI, Porter DH, Skillman JJ, Magnetic resonance imaging: a reliable test for the evaluation of proximal atherosclerotic renal arterial stenosis, J Vasc Surg, 13, pp. 311-318, (1991)

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