In Vivo Magnetic Resonance Imaging of Coronary Thrombosis Using a Fibrin-Binding Molecular Magnetic Resonance Contrast Agent

doi:10.1161/01.CIR.0000134960.31304.87

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Circulation. 2004;110:1463-1466
Published online before print July 6, 2004, doi: 10.1161/01.CIR.0000134960.31304.87

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(Circulation. 2004;110:1463-1466.)
© 2004 American Heart Association, Inc.

Original Articles

In Vivo Magnetic Resonance Imaging of Coronary Thrombosis Using a Fibrin-Binding Molecular Magnetic Resonance Contrast Agent

René M. Botnar, PhD; Arno Buecker, MD; Andrea J. Wiethoff, PhD; Edward C. Parsons, Jr, PhD; Marcus Katoh, MD; George Katsimaglis, MD; Robert M. Weisskoff, PhD; Randall B. Lauffer, PhD; Philip B. Graham, PhD; Rolf W. Gunther, MD; Warren J. Manning, MD; Elmar Spuentrup, MD

From the Department of Medicine, Cardiovascular Division (R.M.B., G.K., W.J.M.), and Department of Radiology (W.J.M.), Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Mass; the Department of Radiology, Aachen Technical University, Aachen, Germany (A.B., M.K., R.W.G., E.S.); and EPIX Medical Inc, Cambridge, Mass (A.J.W., E.C.P., R.M.W., R.B.L., P.B.G.).

Correspondence to René M. Botnar, PhD, Beth Israel Deaconess Medical Center, Cardiovascular Division, Cardiac MR Center, 330 Brookline Ave, Boston, MA, 02215. E-mail rbotnar{at}bidmc.harvard.edu

Received January 19, 2004; de novo received March 23, 2004; revision received May 20, 2004; accepted May 20, 2004.

Background— The advent of fibrin-binding molecular magneticresonance (MR) contrast agents and advances in coronary MRItechniques offers the potential for direct imaging of coronarythrombosis. We tested the feasibility of this approach usinga gadolinium (Gd)-based fibrin-binding contrast agent, EP-2104R(EPIX Medical Inc), in a swine model of coronary thrombus andin-stent thrombosis.

Methods and Results— Ex vivo and in vivo sensitivity ofcoronary MR thrombus imaging was tested by use of intracoronarilydelivered Gd-DTPA–labeled fibrinogen thrombi (n=6). Aftersuccessful demonstration, in-stent coronary thrombosis was inducedby x-ray–guided placement of thrombogenic-coated, MR-lucentstents (n=5). After stent placement, 60 µmol of EP-2104Rwas injected via the left main coronary artery. Free-breathing,navigator-gated 3D coronary MR angiography and thrombus imagingwere performed (1) before and after stent placement and (2)before and after EP-2104R. Thrombi were confirmed by x-ray angiographyand autopsy. Fibrinogen thrombi: 5 of 6 intracoronarily deliveredGd-labeled fibrinogen clots ( ${approx}$ 250 µmol/L Gd) were visibleon MRI and subsequently confirmed by x-ray angiography. In-stentthrombi: in-stent thrombosis was observed in all stents afterEP-2104R. Four of 5 thrombi were confirmed by x-ray angiography.Chemical analysis of 2 thrombi demonstrated 99 to 147 µmol/LGd.

Conclusions— We demonstrate the feasibility of MRI ofcoronary thrombus and in-stent thrombosis using a novel fibrin-bindingmolecular MR contrast agent. Potential applications includedetection of coronary in-stent thrombosis or thrombus burdenin patients with acute coronary syndromes.

Key Words: thrombosis • coronary disease • magnetic resonance imaging

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