PT - JOURNAL ARTICLE AU - Ilaria Lobascio AU - Gabriella Captur AU - Veronica Culotta AU - Redha Boubertakh AU - Andras Eke AU - Hui Xue AU - Charlotte Manisty AU - Peter Kellman AU - James C Moon TI - 013 Free-breathing MOCO LGE leads to better image quality and faster scanning times in clinical practice AID - 10.1136/heartjnl-2017-311399.13 DP - 2017 Apr 01 TA - Heart PG - A10--A11 VI - 103 IP - Suppl 1 4099 - http://heart.bmj.com/content/103/Suppl_1/A10.short 4100 - http://heart.bmj.com/content/103/Suppl_1/A10.full SO - Heart2017 Apr 01; 103 AB - Objectives Late gadolinium enhancement (LGE) sequences have evolved. Free-breathing, motion-corrected LGE (MOCO-LGE)1,2 has several potential advantages over breath held LGE (bh-LGE)3 including minimal user input for the LGE short axis (SA) stack and no need for breath-holds. We hypothesised that the use of MOCO-LGE would be faster, cheaper and easier for clinical scanning, increasing throughput.Methods 200 consecutive clinical patients underwent bh-LGE or MOCO-LGE at 1.5T. Image quality (Figure 1), scan time, patient throughput (change-over time) and reader confidence were compared. LGE image quality was evaluated qualitatively (adaption of previously reported method)4 and quantitatively (assessing image texture heterogenity using grayscale lacunarity, λ).Abstract 013 Figure 1 Adapted Quality Scoring Method for LGE images in CMR: 10 criteria; range of scores 0 (optimal quality) to 31 (poorest quality).Abstract 013 Figure 2 Example images from a single patient showing bh-LGE image (left) with corresponding MOCO-LGE (right).Results MOCO-LGE image quality was better than bh-LGE qualitatively (lower score better: 0.56±1.2 vs 1.93±0.83, p<0.0001) especially in clinically vulnerable patients eg. atrial fibrillation , poor breath-holding, low ejection fraction (0.59 vs 3.05, p=0.0001). Excellent image quality (score=0) was also more common (78% vs 27%, p<0.0001). Quantitative image quality was superior with MOCO-LGE (lower score better: blood pool lambda bh-LGE 0.38±0.11 vs MOCO-LGE 0.28±0.08, p<0.0001). MOCO-LGE led to greater diagnostic confidence (blinded review: basic analytic, retained diagnostic and “Omary” correction methods, respectively p=0.005; p=0.018, p<0.001). Although patient change-over time did not differ significantly between scan protocols, total LGE imaging time was 1.6 times shorter with MOCO-LGE compared to bh-LGE (5.23 vs 8.84 minutes, p<0.0001).Conclusion MOCO-LGE is superior to bh-LGE in a clinical service, with better image quality, easier interpretation and faster scanning times.References. Maria JLedesma-Carbayo, Peter Kellman, Andrew EArai, et al. Motion corrected free-breathing delayed-enhancement imaging of myocardial infarction using nonrigid registration. JMRI Published Online First : 20 Jul 2007.References2. Peter Kellman, Andrew EArai. Cardiac imaging techniques for physicians: Late enhancement. JMRI Published Online First : 17 Aug 2012.3. Piehler KM, Wong TC, Puntil KS, et al. Free-breathing, motion-corrected late gadolinium enhancement is robust and extends risk stratification to vulnerable patients. Circ Cardiovasc Imaging 2013;6(3):423-32.4. Vincenzo Klinke, Stefano Muzzarelli, Nathalie Lauriers, et al. Quality assessment of cardiovascular magnetic resonance in the setting of the European CMR registry: description and validation of standardized criteria. J Cardiovasc Magn Reson 2013;15:55.