Molecular magnetic resonance imaging of coronary thrombosis and pulmonary emboli with a novel fibrin-targeted contrast agent

E Spuentrup, A Buecker, M Katoh, A J Wiethoff, E C Parsons, R M Botnar, R M Weisskoff, P B Graham, W J Manning, R W Gunther

Research output: Contribution to journalArticlepeer-review

130 Citations (Scopus)

Abstract

Background-The differential diagnosis of acute chest pain is challenging, especially in patients with normal ECG findings, and may include coronary thrombosis or pulmonary emboli. The aim of this study was to investigate the novel fibrin- specific contrast agent EP-2104R for molecular targeted MR imaging of coronary thrombosis and pulmonary emboli. Methods and Results-Fresh clots were engineered ex vivo from human blood and delivered in the lungs and coronary arteries of 7 swine. Subsequent molecular MR imaging was performed with a navigator-gated free-breathing and cardiac-triggered 3D inversion-recovery black-blood gradient-echo sequence before and after systemic administration of 7.5 mu mol/kg EP-2104R. Two swine served as the control group. MR images were analyzed by 2 investigators, and contrast-to-noise ratio and gadolinium concentration in the clots were assessed. Before contrast media application, no thrombi were visible. After contrast administration, all 32 pulmonary emboli, 3 emboli in the right heart, and 5 coronary thrombi were selectively visualized as white spots with a mean contrast-to-noise ratio of 32 +/- 19. The average gadolinium concentration from all 3 types of thrombi was 144 +/- 79 mu mol/L. Conclusions-Molecular MR imaging with the fibrin- targeted contrast-agent EP-2104R allows selective visualization of acute coronary, cardiac, and pulmonary thrombi
Original languageEnglish
Pages (from-to)1377 - 1382
Number of pages6
JournalCirculation (Baltimore)
Volume111
Issue number11
DOIs
Publication statusPublished - 22 Mar 2005

Fingerprint

Dive into the research topics of 'Molecular magnetic resonance imaging of coronary thrombosis and pulmonary emboli with a novel fibrin-targeted contrast agent'. Together they form a unique fingerprint.

Cite this