Measurement of cerebral white matter perfusion using pseudocontinuous arterial spin labeling 3T magneticresonance imaging - An experimental and theoretical investigation of feasibility

PLoS ONE

Volumn 8, Issue 12, 2013, Pages

  Wu, Wen Chau ^a,b   Lin, Shu Chi ^b   Wang, Danny J ^c   Chen, Kuan Lin ^b   Li, Ying Ding ^b  

^a NATIONAL TAIWAN UNIVERSITY   (Taiwan)

^b NATIONAL TAIWAN UNIVERSITY HOSPITAL   (Taiwan)

^c UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ADULT; ARTICLE; BRAIN FUNCTION; BRAIN PERFUSION; BRAIN REGION; BRAIN SIZE; COHORT ANALYSIS; COMPUTER SIMULATION; CONTROLLED STUDY; FEASIBILITY STUDY; FEMALE; FUNCTIONAL ASSESSMENT; GRAY MATTER; HUMAN; HUMAN EXPERIMENT; IMAGE ANALYSIS; MALE; MATHEMATICAL COMPUTING; NEUROIMAGING; NUCLEAR MAGNETIC RESONANCE IMAGING; PERFUSION WEIGHTED IMAGING; PSEUDOCONTINUOUS ARTERIAL SPIN LABELING; QUANTITATIVE ANALYSIS; RELIABILITY; SIGNAL NOISE RATIO; SPIN LABELING; THREE DIMENSIONAL IMAGING; WHITE MATTER;

ADULT; BRAIN; CEREBROVASCULAR CIRCULATION; COMPUTER SIMULATION; FEMALE; HEALTHY VOLUNTEERS; HUMANS; MAGNETIC RESONANCE ANGIOGRAPHY; MALE; REPRODUCIBILITY OF RESULTS; SIGNAL-TO-NOISE RATIO; SPIN LABELS; TIME FACTORS;

EID: 84891910738     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0082679     Document Type: Article

References (27)

1. Nöth U, Meadows GE, Kotajima F, Deichmann R, Corfield DR et al. (2006) Cerebral vascular response to hypercapnia: determination with perfusion MRI at 1.5 and 3.0 Tesla using a pulsed arterial spin labeling technique. J Magn Reson Imaging 24: 1229-1235. doi:10.1002/jmri.20761. PubMed: 17094105. (Pubitemid 44871865)
2. Paulson OB, Hasselbalch SG, Rostrup E, Knudsen GM, Pelligrino D (2010) Cerebral blood flow response to functional activation. J Cereb Blood Flow Metab 30: 2-14. doi:10.1038/jcbfm.2009.188. PubMed: 19738630.
3. Denuelle M, Fabre N, Payoux P, Chollet F, Geraud G (2008) Posterior cerebral hypoperfusion in migraine without aura. Cephalalgia 28: 856-862. doi:10.1111/j.1468-2982.2008.01623.x. PubMed: 18513260.
4. Tosun D, Mojabi P, Weiner MW, Schuff N (2010) Joint analysis of structural and perfusion MRI for cognitive assessment and classification of Alzheimer's disease and normal aging. NeuroImage 52: 186-197. doi:10.1016/j.neuroimage.2010.04.033. PubMed: 20406691.
5. Scheef L, Manka C, Daamen M, Kühn KU, Maier W et al. (2010) Resting-state perfusion in nonmedicated schizophrenic patients: a continuous arterial spin-labeling 3.0-T MR study. Radiology 256: 253-260. doi:10.1148/radiol.10091224. PubMed: 20505069.
6. Wiest R, von Bredow F, Schindler K, Schauble B, Slotboom J et al. (2006) Detection of regional blood perfusion changes in epileptic seizures with dynamic brain perfusion CT-a pilot study. Epilepsy Res 72: 102-110. doi:10.1016/j.eplepsyres.2006.07.017. PubMed: 17118628. (Pubitemid 44879894)
7. Pinkham A, Loughead J, Ruparel K, Wu WC, Overton E et al. (2011) Resting quantitative cerebral blood flow in schizophrenia measured by pulsed arterial spin labeling perfusion MRI. Psychiatry Res 194: 64-72. doi:10.1016/j. pscychresns.2011.06.013. PubMed: 21831608.
8. Momjian S, Owler BK, Czosnyka Z, Czosnyka M, Pena A et al. (2004) Pattern of white matter regional cerebral blood flow and autoregulation in normal pressure hydrocephalus. Brain 127: 965-972. doi:10.1093/brain/awh131. PubMed: 15033897. (Pubitemid 38623034)
9. De Keyser J, Steen C, Mostert JP, Koch MW (2008) Hypoperfusion of the cerebral white matter in multiple sclerosis: possible mechanisms and pathophysiological significance. J Cereb Blood Flow Metab 28: 1645-1651. doi:10.1038/jcbfm.2008.72. PubMed: 18594554.
10. Detre JA, Zhang W, Roberts DA, Silva AC, Williams DS et al. (1994) Tissue specific perfusion imaging using arterial spin labeling. NMR Biomed 7: 75-82. doi:10.1002/nbm.1940070112. PubMed: 8068529.
11. Yen YF, Field AS, Martin EM, Ari N, Burdette JH et al. (2002) Testretest reproducibility of quantitative CBF measurements using FAIR perfusion MRI and acetazolamide challenge. Magn Reson Med 47: 921-928. doi:10.1002/mrm.10140. PubMed: 11979571.
12. Wu WC, Jiang SF, Yang SC, Lien SH (2011) Pseudocontinuous arterial spin labeling perfusion magnetic resonance imaging-a normative study of reproducibility in the human brain. NeuroImage 56: 1244-1250. doi: 10.1016/j.neuroimage.2011.02.080. PubMed: 21385620.
13. van Gelderen P, de Zwart JA, Duyn JH (2008) Pittfalls of MRI measurement of white matter perfusion based on arterial spin labeling.Magn Reson Med 59: 788-795. doi:10.1002/mrm.21515. PubMed: 18383289. (Pubitemid 351501944)
14. van Osch MJ, Teeuwisse WM, van Walderveen MA, Hendrikse J, Kies DA et al. (2009) Can arterial spin labeling detect white matter perfusion signal? Magn Reson Med 62: 165-173. doi:10.1002/mrm.22002. PubMed: 19365865.
15. Roberts DA, Detre JA, Bolinger L, Insko EK, Leigh JS Jr. (1994) Quantitative magnetic resonance imaging of human brain perfusion at 1.5 T using steady-state inversion of arterial water. Proc Natl Acad SciU S A 91: 33-37. doi:10.1073/pnas.91.1.33. PubMed: 8278387. (Pubitemid 24018637)
16. Asllani I, Borogovac A, Brown TR (2008) Regression algorithm correcting for partial volume effects in arterial spin labeling MRI. Magn Reson Med 60: 1362-1371. doi:10.1002/mrm.21670. PubMed:18828149.
17. Ye FQ, Berman KF, Ellmore T, Esposito G, van Horn JD et al. (2000) H(2)(15)O PET validation of steady-state arterial spin tagging cerebralblood flow measurements in humans. Magn Reson Med 44: 450-456.doi:10.1002/1522- 2594(200009)44:3. PubMed: 10975898.
18. Garcia DM, de Bazelaire C, Alsop D (2005) Pseudo-continuous flow driven adiabatic inversion for arterial spin labeling. Proc Intl Soc Magn Reson Med 13. p. 37.
19. Wu WC, Fernández-Seara M, Detre JA, Wehrli FW, Wang J (2007) A theoretical and experimental investigation of the tagging efficiency of pseudocontinuous arterial spin labeling. Magn Reson Med 58: 1020-1027. doi:10.1002/mrm.21403. PubMed: 17969096. (Pubitemid 350074370)
20. Haacke EM, Brown RW, Thompson MR, Venkatesan R (1999) Magnetic Resonance Imaging: Physical Principles and Sequence Design. New York: J. Wiley & Sons.
21. Buxton RB, Frank LR, Wong EC, Siewert B, Warach S et al. (1998) A general kinetic model for quantitative perfusion imaging with arterial spin labeling. Magn Reson Med 40: 383-396. doi:10.1002/mrm. 1910400308. PubMed: 9727941. (Pubitemid 28391899)
22. Parkes LM, Tofts PS (2002) Improved accuracy of human cerebral blood perfusion measurements using arterial spin labeling: accounting for capillary water permeability. Magn Reson Med 48: 27-41. doi: 10.1002/mrm.10180. PubMed: 12111929. (Pubitemid 34721585)
23. Yang Y, Frank JA, Hou L, Ye FQ, McLaughlin AC et al. (1998) Multislice imaging of quantitative cerebral perfusion with pulsed arterial spin labeling. Magn Reson Med 39: 825-832. doi:10.1002/mrm. 1910390520. PubMed: 9581614. (Pubitemid 28189155)
24. Gonzalez-At JB, Alsop DC, Detre JA (2000) Cerebral perfusion and arterial transit time changes during task activation determined with continuous arterial spin labeling. Magn Reson Med 43: 739-746. doi: 10.1002/(SICI)1522-2594(200005) 43:5. PubMed: 10800040. (Pubitemid 30244274)
25. Ye FQ, Frank JA, Weinberger DR, McLaughlin AC (2000) Noise reduction in 3D perfusion imaging by attenuating the static signal in arterial spin tagging (ASSIST). Magn Reson Med 44: 92-100. doi: 10.1002/1522-2594(200007)44:1. PubMed: 10893526. (Pubitemid 30439843)
26. Garcia DM, Duhamel G, Alsop DC (2005) Efficiency of inversion pulses for background suppressed arterial spin labeling. Magn Reson Med 54: 366-372. doi:10.1002/mrm.20556. PubMed: 16032674. (Pubitemid 41033553)
27. Ashburner J (2007) A fast diffeomorphic image registration algorithm. NeuroImage 38: 95-113. doi:10.1016/j.neuroimage.2007.07.007. PubMed: 17761438. (Pubitemid 47440133)