eprintid: 1508 rev_number: 8 eprint_status: archive userid: 35 dir: disk0/00/00/15/08 datestamp: 2013-03-05 14:57:29 lastmod: 2013-03-12 09:32:21 status_changed: 2013-03-05 14:57:29 type: article metadata_visibility: show creators_name: Tsaftaris, Sotirios A. creators_name: Zhou, Xiangzhi creators_name: Tang, Richard creators_name: Li, Debiao creators_name: Dharmakumar, Rohan creators_id: sotirios.tsaftaris@imtlucca.it creators_id: creators_id: creators_id: creators_id: title: Detecting Myocardial Ischemia at Rest with Cardiac Phase-Resolved BOLD CMR ispublished: pub subjects: QA75 subjects: RC divisions: CSA full_text_status: none keywords: acute coronary syndrome; coronary artery disease; ischemia; BOLD; MRI note: Published online before print December 18, 2012. abstract: Background—Fast, noninvasive identification of ischemic territories at rest (prior to tissue-specific changes) and assessment of functional status can be valuable in the management of severe coronary artery disease. This study investigated the utility of cardiac phase-resolved Blood-Oxygen-Level-Dependent (CP-BOLD) CMR in detecting myocardial ischemia at rest secondary to severe coronary artery stenosis. Methods and Results—CP-BOLD, standard-cine, and T2-weighted images were acquired in canines (n=11) at baseline and within 20 minutes of ischemia induction (severe LAD stenosis) at rest. Following 3-hours of ischemia, LAD stenosis was removed and T2-weighted and late-gadolinium-enhancement (LGE) images were acquired. From standard-cine and CP-BOLD images, End-Systolic (ES) and End-Diastolic (ED) myocardium were segmented. Affected and remote sections of the myocardium were identified from post-reperfusion LGE images. S/D, quotient of mean ES and ED signal intensities (on CP-BOLD and standard-cine), was computed for affected and remote segments at baseline and ischemia. Ejection fraction (EF) and segmental wall-thickening (sWT) were derived from CP-BOLD images at baseline and ischemia. On CP-BOLD images: S/D was greater than 1 (remote and affected territories) at baseline; S/D was diminished only in affected territories during ischemia and the findings were statistically significant (ANOVA, post-hoc p<0.01). The dependence of S/D on ischemia was not observed in standard-cine images. Computer simulations confirmed the experimental findings. ROC analysis showed that S/D identifies affected regions with similar performance (AUC:0.87) as EF (AUC:0.89) and sWT (AUC:0.75). Conclusions—Preclinical studies and computer simulations showed that CP-BOLD CMR could be useful in detecting myocardial ischemia at rest. Patient studies are needed for clinical translation. date: 2012-12 date_type: published publication: Circulation: Cardiovascular Imaging publisher: American Heart Association id_number: 10.1161/CIRCIMAGING.112.976076 refereed: TRUE issn: 1941-9651 official_url: http://dx.doi.org/10.1161/CIRCIMAGING.112.976076 citation: Tsaftaris, Sotirios A. and Zhou, Xiangzhi and Tang, Richard and Li, Debiao and Dharmakumar, Rohan Detecting Myocardial Ischemia at Rest with Cardiac Phase-Resolved BOLD CMR. Circulation: Cardiovascular Imaging. ISSN 1941-9651 (2012)