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CardioVascular and Interventional Radiology
Published in: CardioVascular and Interventional Radiology 5/2009

01-09-2009 | Clinical Investigation

Whole-Body Magnetic Resonance Angiography at 3 Tesla Using a Hybrid Protocol in Patients with Peripheral Arterial Disease

Authors: Yousef W. Nielsen, Jonas P. Eiberg, Vibeke B. Logager, Torben V. Schroeder, Sven Just, Henrik S. Thomsen

Published in: CardioVascular and Interventional Radiology | Issue 5/2009

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Abstract

The purpose of this study was to determine the diagnostic performance of 3T whole-body magnetic resonance angiography (WB-MRA) using a hybrid protocol in comparison with a standard protocol in patients with peripheral arterial disease (PAD). In 26 consecutive patients with PAD two different protocols were used for WB-MRA: a standard sequential protocol (n = 13) and a hybrid protocol (n = 13). WB-MRA was performed using a gradient echo sequence, body coil for signal reception, and gadoterate meglumine as contrast agent (0.3 mmol/kg body weight). Two blinded observers evaluated all WB-MRA examinations with regard to presence of stenoses, as well as diagnostic quality and degree of venous contamination in each of the four stations used in WB-MRA. Digital subtraction angiography served as the method of reference. Sensitivity for detecting significant arterial disease (luminal narrowing ≥ 50%) using standard-protocol WB-MRA for the two observers was 0.63 (95%CI: 0.51–0.73) and 0.66 (0.58–0.78). Specificities were 0.94 (0.91–0.97) and 0.96 (0.92–0.98), respectively. In the hybrid protocol WB-MRA sensitivities were 0.75 (0.64–0.84) and 0.70 (0.58–0.8), respectively. Specificities were 0.93 (0.88–0.96) and 0.95 (0.91–0.97). Interobserver agreement was good using both the standard and the hybrid protocol, with κ = 0.62 (0.44–0.67) and κ = 0.70 (0.59–0.79), respectively. WB-MRA quality scores were significantly higher in the lower leg using the hybrid protocol compared to standard protocol (p = 0.003 and p = 0.03, observers 1 and 2). Distal venous contamination scores were significantly lower with the hybrid protocol (p = 0.02 and p = 0.01, observers 1 and 2). In conclusion, hybrid-protocol WB-MRA shows a better diagnostic performance than standard protocol WB-MRA at 3 T in patients with PAD.
Literature
1.
Ruehm SG, Goyen M, Barkhausen J et al (2001) Rapid magnetic resonance angiography for detection of atherosclerosis. Lancet 357(9262):1086–1091PubMedCrossRef
2.
Fenchel M, Scheule AM, Stauder NI et al (2006) Atherosclerotic disease: whole-body cardiovascular imaging with MR system with 32 receiver channels and total-body surface coil technology—initial clinical results. Radiology 238(1):280–291PubMedCrossRef
3.
Goyen M, Herborn CU, Kroger K et al (2003) Detection of atherosclerosis: systemic imaging for systemic disease with whole-body three-dimensional MR angiography—initial experience. Radiology 227(1):277–282PubMedCrossRef
4.
Goyen M, Herborn CU, Kroger K et al (2006) Total-body 3D magnetic resonance angiography influences the management of patients with peripheral arterial occlusive disease. Eur Radiol 16(3):685–691PubMedCrossRef
5.
Herborn CU, Goyen M, Quick HH et al (2004) Whole-body 3D MR angiography of patients with peripheral arterial occlusive disease. AJR 182(6):1427–1434PubMed
6.
Brennan DD, Johnston C, O’Brien J et al (2005) Contrast-enhanced bolus-chased whole-body MR angiography using a moving tabletop and quadrature body coil acquisition. AJR 185(3):750–755PubMed
7.
Goyen M, Quick HH, Debatin JF et al (2002) Whole-body three-dimensional MR angiography with a rolling table platform: initial clinical experience. Radiology 224(1):270–277PubMedCrossRef
8.
Hansen T, Wikstrom J, Eriksson MO et al (2006) Whole-body magnetic resonance angiography of patients using a standard clinical scanner. Eur Radiol 16(1):147–153PubMedCrossRef
9.
Meissner OA, Rieger J, Weber C et al (2005) Critical limb ischemia: hybrid MR angiography compared with DSA. Radiology 235(1):308–318PubMedCrossRef
10.
Pereles FS, Collins JD, Carr JC et al (2006) Accuracy of stepping-table lower extremity MR angiography with dual-level bolus timing and separate calf acquisition:hybrid peripheral MR angiography. Radiology 240(1):283–290PubMedCrossRef
11.
Schmitt R, Coblenz G, Cherevatyy O et al (2005) Comprehensive MR angiography of the lower limbs:a hybrid dual-bolus approach including the pedal arteries. Eur Radiol 15(12):2513–2524PubMedCrossRef
12.
Tongdee R, Narra VR, McNeal G et al (2006) Hybrid peripheral 3D contrast-enhanced MR angiography of calf and foot vasculature. AJR 186(6):1746–1753PubMedCrossRef
13.
Nael K, Ruehm SG, Michaely HJ et al (2007) Multistation whole-body high-spatial-resolution MR angiography using a 32-channel MR system. AJR 188(2):529–539PubMedCrossRef
14.
Berg F, Bangard C, Bovenschulte H et al (2008) Feasibility of peripheral contrast-enhanced magnetic resonance angiography at 3.0 Tesla with a hybrid technique: comparison with digital subtraction angiography. Invest Radiol 43(9):642–649PubMedCrossRef
15.
Levey AS, Bosch JP, Lewis JB et al (1999) A more accurate method to estimate glomerular filtration rate from serum creatinine: a new prediction equation. Modification of Diet in Renal Disease Study Group. Ann Intern Med 130(6):461–470PubMed
16.
Altman DG (2000) Diagnostic tests. In: Altman DG, Machin D, Bryant TN, Gardner MJ (eds) Statistics with confidence. Blackwell BMJ Books, Oxford, pp 105–119
17.
Rasmus M, Bremerich J, Egelhof T et al (2008) Total-body contrast-enhanced MRA on a short, wide-bore 1.5-T system: intra-individual comparison of Gd-BOPTA and Gd-DOTA. Eur Radiol 18(10):2265–2273PubMedCrossRef
18.
Goyen M, Herborn CU, Vogt FM et al (2003) Using a 1 M Gd-chelate (gadobutrol) for total-body three-dimensional MR angiography: preliminary experience. J Magn Reson Imaging 17(5):565–571PubMedCrossRef
19.
Nikolaou K, Kramer H, Grosse C et al (2006) High-spatial-resolution multistation MR angiography with parallel imaging and blood pool contrast agent: initial experience. Radiology 241(3):861–872PubMedCrossRef
20.
Habibi R, Krishnam MS, Lohan DG et al (2008) High-spatial-resolution lower extremity MR angiography at 30 T: contrast agent dose comparison study. Radiology 248(2):680–692PubMedCrossRef
21.
Lohan DG, Tomasian A, Krishnam M et al (2008) MR angiography of lower extremities at 3 T: presurgical planning of fibular free flap transfer for facial reconstruction. AJR 190(3):770–776PubMedCrossRef
22.
Lapeyre M, Kobeiter H, Desgranges P et al (2005) Assessment of critical limb ischemia in patients with diabetes: comparison of MR angiography and digital subtraction angiography. AJR 185(6):1641–1650PubMedCrossRef
23.
Morasch MD, Collins J, Pereles FS et al (2003) Lower extremity stepping-table magnetic resonance angiography with multilevel contrast timing and segmented contrast infusion. J Vasc Surg 37(1):62–71PubMedCrossRef
24.
Herborn CU, Vogt FM, Waltering KU et al (2004) Optimization of contrast-enhanced peripheral MR angiography with mid-femoral venous compression (VENCO). Rofo 176(2):157–162PubMed
25.
Alexandrova NA, Gibson WC, Norris JW et al (1996) Carotid artery stenosis in peripheral vascular disease. J Vasc Surg 23(4):645–649PubMedCrossRef
26.
27.
Wachtell K, Ibsen H, Olsen MH et al (1996) Prevalence of renal artery stenosis in patients with peripheral vascular disease and hypertension. J Hum Hypertens 10(2):83–85PubMed
28.
Prince MR, Chabra SG, Watts R et al (2002) Contrast material travel times in patients undergoing peripheral MR angiography. Radiology 224(1):55–61PubMedCrossRef
29.
Eiberg JP, Madycki G, Hansen MA et al (2002) Ultrasound imaging of infrainguinal arterial disease has a high interobserver agreement. Eur J Vasc Endovasc Surg 24(4):293–299PubMedCrossRef
30.
Glagov S, Weisenberg E, Zarins CK et al (1987) Compensatory enlargement of human atherosclerotic coronary arteries. N Engl J Med 316(22):1371–1375PubMedCrossRef
Metadata
Title
Whole-Body Magnetic Resonance Angiography at 3 Tesla Using a Hybrid Protocol in Patients with Peripheral Arterial Disease
Authors
Yousef W. Nielsen
Jonas P. Eiberg
Vibeke B. Logager
Torben V. Schroeder
Sven Just
Henrik S. Thomsen
Publication date
01-09-2009
Publisher
Springer-Verlag
Published in
CardioVascular and Interventional Radiology / Issue 5/2009
Print ISSN: 0174-1551
Electronic ISSN: 1432-086X
DOI
https://doi.org/10.1007/s00270-009-9549-z

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