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Near‐contiguous spin echo imaging using matched‐phase RF and its application in velocity‐selective arterial spin labeling
Author(s) -
Zun Zungho,
Hargreaves Brian A.,
Pauly John,
Zaharchuk Greg
Publication year - 2014
Publication title -
magnetic resonance in medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.696
H-Index - 225
eISSN - 1522-2594
pISSN - 0740-3194
DOI - 10.1002/mrm.24866
Subject(s) - cerebral blood flow , multislice , nuclear magnetic resonance , radio frequency , blood flow , signal (programming language) , materials science , biomedical engineering , physics , medicine , radiology , telecommunications , computer science , cardiology , programming language
Purpose The minimum slice spacing in multislice imaging is limited by inter‐slice crosstalk due to an imperfect slice profile. This study sought to minimize the slice spacing using matched‐phase RF pulses and demonstrate its application in cerebral blood flow imaging using velocity‐selective arterial spin labeling. Methods A spin‐echo matched‐phase 90°–180° RF pair was designed using Shinnar‐Le Roux algorithm in order to improve the slice profile of longitudinal magnetization, which plays a more critical role in creating interslice crosstalk than transverse magnetization. Both transverse and longitudinal slice profiles were compared between matched‐phase RF and sinc‐based RF pulses in simulations and measurements. Velocity‐selective arterial spin labeling was performed in normal volunteers using both RF pulses and standard deviation of cerebral blood flow time series was calculated to examine ASL signal stability. Results Using designed matched‐phase RF, the longitudinal slice profile was sharpened without signal‐to‐noise ratio loss. In velocity‐selective arterial spin labeling imaging, the temporal standard deviation of cerebral blood flow measurements was reduced from 48 mL/100 g/min to 32 mL/100 g/min by 33% using matched‐phase RF pulses, and as a result, cerebral blood flow image quality improved. Conclusion This study reports that near‐contiguous multislice imaging can be achieved using matched‐phase RF pulses without compromising signal‐to‐noise ratio and signal stability. Magn Reson Med 71:2043–2050, 2014. © 2013 Wiley Periodicals, Inc .

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