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Size‐optimized 32‐channel brain arrays for 3 T pediatric imaging

2011; Wiley; Volume: 66; Issue: 6 Linguagem: Inglês

10.1002/mrm.22961

1522-2594

Boris Keil, Vijay Alagappan, Azma Mareyam, Jennifer A. McNab, Kyoko Fujimoto, Veneta Tountcheva, Christina Triantafyllou, Daniel D. Dilks, Nancy Kanwisher, Weili Lin, P. Ellen Grant, Lawrence L. Wald,

Functional Brain Connectivity Studies

Abstract Size‐optimized 32‐channel receive array coils were developed for five age groups, neonates, 6 months old, 1 year old, 4 years old, and 7 years old, and evaluated for pediatric brain imaging. The array consisted of overlapping circular surface coils laid out on a close‐fitting coil‐former. The two‐section coil former design was obtained from surface contours of aligned three‐dimensional MRI scans of each age group. Signal‐to‐noise ratio and noise amplification for parallel imaging were evaluated and compared to two coils routinely used for pediatric brain imaging; a commercially available 32‐channel adult head coil and a pediatric‐sized birdcage coil. Phantom measurements using the neonate, 6‐month‐old, 1‐year‐old, 4‐year‐old, and 7‐year‐old coils showed signal‐to‐noise ratio increases at all locations within the brain over the comparison coils. Within the brain cortex the five dedicated pediatric arrays increased signal‐to‐noise ratio by up to 3.6‐, 3.0‐, 2.6‐, 2.3‐, and 1.7‐fold, respectively, compared to the 32‐channel adult coil, as well as improved G‐factor maps for accelerated imaging. This study suggests that a size‐tailored approach can provide significant sensitivity gains for accelerated and unaccelerated pediatric brain imaging. Magn Reson Med, 2011. © 2011 Wiley Periodicals, Inc.