Literature DB >> 19953506

Arterial transit time effects in pulsed arterial spin labeling CBF mapping: insight from a PET and MR study in normal human subjects.

Maolin Qiu1, R Paul Maguire, Jagriti Arora, Beata Planeta-Wilson, David Weinzimmer, Jinghua Wang, Yuenan Wang, Hyeonjin Kim, Nallakkandi Rajeevan, Yiyun Huang, Richard E Carson, R Todd Constable.   

Abstract

Arterial transit time (ATT), a key parameter required to calculate absolute cerebral blood flow in arterial spin labeling (ASL), is subject to much uncertainty. In this study, ASL ATTs were estimated on a per-voxel basis using data measured by both ASL and positron emission tomography in the same subjects. The mean ATT increased by 260 +/- 20 (standard error of the mean) ms when the imaging slab shifted downwards by 54 mm, and increased from 630 +/- 30 to 1220 +/- 30 ms for the first slice, with an increase of 610 +/- 20 ms over a four-slice slab when the gap between the imaging and labeling slab increased from 20 to 74 mm. When the per-slice ATTs were employed in ASL cerebral blood flow quantification and the in-slice ATT variations ignored, regional cerebral blood flow could be significantly different from the positron emission tomography measures. ATT also decreased with focal activation by the same amount for both visual and motor tasks (approximately 80 ms). These results provide a quantitative relationship between ATT and the ASL imaging geometry and yield an assessment of the assumptions commonly used in ASL imaging. These findings should be considered in the interpretation of, and comparisons between, different ASL-based cerebral blood flow studies. The results also provide spatially specific ATT data that may aid in optimizing the ASL imaging parameters.

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Year:  2010        PMID: 19953506      PMCID: PMC2867043          DOI: 10.1002/mrm.22218

Source DB:  PubMed          Journal:  Magn Reson Med        ISSN: 0740-3194            Impact factor:   4.668


  50 in total

1.  Perfusion analysis using dynamic arterial spin labeling (DASL).

Authors:  E L Barbier; A C Silva; H J Kim; D S Williams; A P Koretsky
Journal:  Magn Reson Med       Date:  1999-02       Impact factor: 4.668

2.  CBF changes during brain activation: fMRI vs. PET.

Authors:  Ching-Mei Feng; Shalini Narayana; Jack L Lancaster; Paul A Jerabek; Thomas L Arnow; Fang Zhu; Li Hai Tan; Peter T Fox; Jia-Hong Gao
Journal:  Neuroimage       Date:  2004-05       Impact factor: 6.556

3.  Whole-brain 3D perfusion MRI at 3.0 T using CASL with a separate labeling coil.

Authors:  S Lalith Talagala; Frank Q Ye; Patrick J Ledden; Scott Chesnick
Journal:  Magn Reson Med       Date:  2004-07       Impact factor: 4.668

4.  RF excitation profiles with FAIR: impact of truncation of the arterial input function on quantitative perfusion.

Authors:  M L Lipton; C A Branch; J Hrabe; D P Lewis; J A Helpern
Journal:  J Magn Reson Imaging       Date:  2001-02       Impact factor: 4.813

5.  Four-phase single-capillary stepwise model for kinetics in arterial spin labeling MRI.

Authors:  Ka-loh Li; Xiaoping Zhu; Nola Hylton; Geon-Ho Jahng; Michael W Weiner; Norbert Schuff
Journal:  Magn Reson Med       Date:  2005-03       Impact factor: 4.668

6.  Quantification of perfusion fMRI using a numerical model of arterial spin labeling that accounts for dynamic transit time effects.

Authors:  Luis Hernandez-Garcia; Gregory R Lee; Alberto L Vazquez; Chun-Yu Yip; Douglas C Noll
Journal:  Magn Reson Med       Date:  2005-10       Impact factor: 4.668

7.  Quantification of relative cerebral blood flow change by flow-sensitive alternating inversion recovery (FAIR) technique: application to functional mapping.

Authors:  S G Kim
Journal:  Magn Reson Med       Date:  1995-09       Impact factor: 4.668

8.  A theoretical and experimental comparison of continuous and pulsed arterial spin labeling techniques for quantitative perfusion imaging.

Authors:  E C Wong; R B Buxton; L R Frank
Journal:  Magn Reson Med       Date:  1998-09       Impact factor: 4.668

9.  Quantitative basal CBF and CBF fMRI of rhesus monkeys using three-coil continuous arterial spin labeling.

Authors:  Xiaodong Zhang; Tsukasa Nagaoka; Edward J Auerbach; Robbie Champion; Lei Zhou; Xiaoping Hu; Timothy Q Duong
Journal:  Neuroimage       Date:  2006-11-27       Impact factor: 6.556

10.  Cerebral blood flow measurement using fMRI and PET: a cross-validation study.

Authors:  Jean J Chen; Marguerite Wieckowska; Ernst Meyer; G Bruce Pike
Journal:  Int J Biomed Imaging       Date:  2008
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  30 in total

1.  Comparison of relative cerebral blood flow maps using pseudo-continuous arterial spin labeling and single photon emission computed tomography.

Authors:  Peiying Liu; Jinsoo Uh; Michael D Devous; Bryon Adinoff; Hanzhang Lu
Journal:  NMR Biomed       Date:  2011-12-02       Impact factor: 4.044

2.  Venous oxygenation mapping using velocity-selective excitation and arterial nulling.

Authors:  Jia Guo; Eric C Wong
Journal:  Magn Reson Med       Date:  2012-01-31       Impact factor: 4.668

3.  Complex relationships between cerebral blood flow and brain atrophy in early Huntington's disease.

Authors:  J Jean Chen; David H Salat; H Diana Rosas
Journal:  Neuroimage       Date:  2011-09-16       Impact factor: 6.556

4.  Association between cardiovagal baroreflex sensitivity and baseline cerebral perfusion of the hippocampus.

Authors:  Jitanan Laosiripisan; Takashi Tarumi; Mitzi M Gonzales; Andreana P Haley; Hirofumi Tanaka
Journal:  Clin Auton Res       Date:  2015-08-18       Impact factor: 4.435

5.  Cerebral arterial bolus arrival time is prolonged in multiple sclerosis and associated with disability.

Authors:  David Paling; Esben Thade Petersen; Daniel J Tozer; Daniel R Altmann; Claudia A M Wheeler-Kingshott; Raju Kapoor; David H Miller; Xavier Golay
Journal:  J Cereb Blood Flow Metab       Date:  2013-09-18       Impact factor: 6.200

Review 6.  Characterizing Resting-State Brain Function Using Arterial Spin Labeling.

Authors:  J Jean Chen; Kay Jann; Danny J J Wang
Journal:  Brain Connect       Date:  2015-10-06

Review 7.  State-of-the-art MRI techniques in neuroradiology: principles, pitfalls, and clinical applications.

Authors:  Magalie Viallon; Victor Cuvinciuc; Benedicte Delattre; Laura Merlini; Isabelle Barnaure-Nachbar; Seema Toso-Patel; Minerva Becker; Karl-Olof Lovblad; Sven Haller
Journal:  Neuroradiology       Date:  2015-04-10       Impact factor: 2.804

Review 8.  Comparison of cerebral blood flow measurement with [15O]-water positron emission tomography and arterial spin labeling magnetic resonance imaging: A systematic review.

Authors:  Audrey P Fan; Hesamoddin Jahanian; Samantha J Holdsworth; Greg Zaharchuk
Journal:  J Cereb Blood Flow Metab       Date:  2016-03-04       Impact factor: 6.200

9.  Cerebral blood flow with [15O]water PET studies using an image-derived input function and MR-defined carotid centerlines.

Authors:  Edward K Fung; Richard E Carson
Journal:  Phys Med Biol       Date:  2013-02-27       Impact factor: 3.609

10.  Alterations in cerebral oxygen metabolism after traumatic brain injury in children.

Authors:  Dustin K Ragan; Robert McKinstry; Tammie Benzinger; Jeffrey R Leonard; Jose A Pineda
Journal:  J Cereb Blood Flow Metab       Date:  2012-09-12       Impact factor: 6.200
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