PURPOSE: To propose a new noncontrast-enhanced flow-independent angiography sequence based on balanced steady-state free precession (bSSFP) that produces reliable vessel contrast despite the reduced blood flow in the extremities. MATERIALS AND METHODS: The proposed technique addresses a variety of factors that can compromise the exam success including insufficient background suppression, field inhomogeneity, and large volumetric coverage requirements. A bSSFP sequence yields reduced signal from venous blood when long repetition times are used. Complex-sum bSSFP acquisitions decrease the sensitivity to field inhomogeneity but retain phase information, so that data can be processed with the Iterative Decomposition of Water and Fat with Echo Asymmetry and Least-Squares Estimation (IDEAL) method for robust fat suppression. Meanwhile, frequent magnetization preparation coupled with parallel imaging reduces the muscle and long-T(1) fluid signals without compromising scan efficiency. RESULTS: In vivo flow-independent peripheral angiograms with reliable background suppression and high spatial resolution are produced. Comparisons with phase-sensitive bSSFP angiograms (that yield out-of-phase fat and water signals, and exploit this phase difference to suppress fat) demonstrate enhanced vessel depiction with the proposed technique due to reduced partial-volume effects and improved venous suppression. CONCLUSION: Magnetization-prepared complex-sum bSSFP with IDEAL fat/water separation can create reliable flow-independent angiographic contrast in the lower extremities.
PURPOSE: To propose a new noncontrast-enhanced flow-independent angiography sequence based on balanced steady-state free precession (bSSFP) that produces reliable vessel contrast despite the reduced blood flow in the extremities. MATERIALS AND METHODS: The proposed technique addresses a variety of factors that can compromise the exam success including insufficient background suppression, field inhomogeneity, and large volumetric coverage requirements. A bSSFP sequence yields reduced signal from venous blood when long repetition times are used. Complex-sum bSSFP acquisitions decrease the sensitivity to field inhomogeneity but retain phase information, so that data can be processed with the Iterative Decomposition of Water and Fat with Echo Asymmetry and Least-Squares Estimation (IDEAL) method for robust fat suppression. Meanwhile, frequent magnetization preparation coupled with parallel imaging reduces the muscle and long-T(1) fluid signals without compromising scan efficiency. RESULTS: In vivo flow-independent peripheral angiograms with reliable background suppression and high spatial resolution are produced. Comparisons with phase-sensitive bSSFP angiograms (that yield out-of-phase fat and water signals, and exploit this phase difference to suppress fat) demonstrate enhanced vessel depiction with the proposed technique due to reduced partial-volume effects and improved venous suppression. CONCLUSION: Magnetization-prepared complex-sum bSSFP with IDEAL fat/water separation can create reliable flow-independent angiographic contrast in the lower extremities.
Authors: Garry E Gold; Eric Han; Jeff Stainsby; Graham Wright; Jean Brittain; Christopher Beaulieu Journal: AJR Am J Roentgenol Date: 2004-08 Impact factor: 3.959
Authors: Brian A Hargreaves; Neal K Bangerter; Ann Shimakawa; Shreyas S Vasanawala; Jean H Brittain; Dwight G Nishimura Journal: Magn Reson Imaging Date: 2006-01-10 Impact factor: 2.546
Authors: Scott B Reeder; Angel R Pineda; Zhifei Wen; Ann Shimakawa; Huanzhou Yu; Jean H Brittain; Garry E Gold; Christopher H Beaulieu; Norbert J Pelc Journal: Magn Reson Med Date: 2005-09 Impact factor: 4.668
Authors: Emanuel Kanal; A James Barkovich; Charlotte Bell; James P Borgstede; William G Bradley; Jerry W Froelich; Tobias Gilk; J Rod Gimbel; John Gosbee; Ellisa Kuhni-Kaminski; James W Lester; John Nyenhuis; Yoav Parag; Daniel J Schaefer; Elizabeth A Sebek-Scoumis; Jeffrey Weinreb; Loren A Zaremba; Pamela Wilcox; Leonard Lucey; Nancy Sass Journal: AJR Am J Roentgenol Date: 2007-06 Impact factor: 3.959
Authors: Samuel W Fielden; John P Mugler; Klaus D Hagspiel; Patrick T Norton; Christopher M Kramer; Craig H Meyer Journal: Magn Reson Med Date: 2014-04-17 Impact factor: 4.668
Authors: Samuel W Fielden; John P Mugler; Klaus D Hagspiel; Patrick T Norton; Christopher M Kramer; Craig H Meyer Journal: J Magn Reson Imaging Date: 2013-09-04 Impact factor: 4.813
Authors: Kie Tae Kwon; Holden H Wu; Taehoon Shin; Tolga Cukur; Michael Lustig; Dwight G Nishimura Journal: Magn Reson Med Date: 2013-07-01 Impact factor: 4.668
Authors: Kie Tae Kwon; Adam B Kerr; Holden H Wu; Bob S Hu; Jean H Brittain; Dwight G Nishimura Journal: Magn Reson Med Date: 2014-09-09 Impact factor: 4.668