What levels of precision are achievable for quantification of perfusion and capillary permeability surface area product using ASL?

Magnetic Resonance in Medicine

Volumn 58, Issue 2, 2007, Pages 281-289

  Carr, John P ^a   Buckley, David L ^a   Tessier, Jean ^b   Parker, Geoff J M ^a  

^a UNIVERSITY OF MANCHESTER   (United Kingdom)

^b ASTRAZENECA   (United Kingdom)

Author keywords

ASL; FAIR; Perfusion; Permeability; Two compartment model

Indexed keywords

MECHANICAL PERMEABILITY; RATS; SENSITIVITY ANALYSIS;

ARTERIAL SPIN LABELING; COEFFICIENT OF VARIATION; EXPERIMENTAL APPROACHES; EXPERIMENTAL VERIFICATION; FAIR; ORDERS OF MAGNITUDE; PERFUSION; TWO-COMPARTMENT MODELS;

SIGNAL TO NOISE RATIO;

ACCURACY; ANALYTIC METHOD; ARTICLE; BRAIN PERFUSION; CAPILLARY PERMEABILITY; COMPARTMENT MODEL; MEASUREMENT; QUANTITATIVE ANALYSIS; SENSITIVITY AND SPECIFICITY; SIGNAL NOISE RATIO; SIMULATION; SPIN LABELING;

EID: 34547951883     PISSN: 07403194     EISSN: 15222594     Source Type: Journal    
DOI: 10.1002/mrm.21317     Document Type: Article

References (39)

1. Li K-L, Zhu X, Hylton N, Jahng G-H, Weiner MW, Schuff N. Four-phase single-capillary stepwise model for kinetics in arterial spin labeling MRI. Magn Reson Med 2005;51:511-518.
2. Parkes LM, Tofts PS. Improved accuracy of human cerebral blood perfusion measurements using arterial spin labeling: accounting for capillary water permeability. Magn Reson Med 2002;48:27-41.
3. Detre JA, Leigh JS, Williams DS, Koretsky AP. Perfusion imaging. Magn Reson Med 1992;23:37-45.
4. Detre JA, Zhang W, Roberts DA, Silva AC, Williams DS, Grandis DJ, Koretsky AP, Leigh JS. Tissue specific perfusion imaging using arterial spin labeling. NMR Biomed 1994;7:75-82.
5. Kwong KK, Chesler DA, Weisskoff RM, Donahue KM, Davis TL, Ostergaard L, Campbell TA, Rosen BR. MR perfusion studies with T1-weighted echo planar imaging. Magn Reson Med 1995;34:878-887.
6. Buxton RB, Frank LR, Wong EC, Siewert B, Warach S, Edelman RR. A general kinetic model for quantitative perfusion imaging with arterial spin labeling. Magn Reson Med 1998;40:383-396.
7. Silva AC, Williams DS, Koretsky AP. Evidence for the exchange of arterial spin-labeled water with tissue water in rat brain from diffusion-sensitized measurements of perfusion. Magn Reson Med 1997;38:232-237.
8. Silva AC, Zhang W, Williams DS, Koretsky AP. Estimation of water extraction fractions in rat brain using magnetic resonance measurement of perfusion with arterial spin labeling. Magn Reson Med 1997;37:58-68.
9. Ewing JR, Cao Y, Fenstermacher J. Single-coil arterial spin-tagging for estimating cerebral blood flow as viewed from the capillary: relative contributions of intra- and extravascular signal. Magn Reson Med 2001;46:465-475.
10. Donahue KM, Burstein D, Mannin WJ, Gary ML. Studies of Gd-DTPA relaxivity and proton exchange rates in tissue. Magn Reson Med 1994;32:66-76.
11. Judd R.M, Reeder S.B, May-Newman K. Effects of water exchange on measurement of myocardial perfusion using paramagnetic contrast agents. Magn Reson Med 1999;41:334-342.
12. St Lawrence KS, Frank JA, McLaughlin AC. Effect of restricted water exchange on cerebral blood flow values calculated with arterial spin tagging: a theoretical investigation. Magn Reson Med 2000;44:440-449.
13. Zhou J, Wilson DA, Ulatowski JA, Traystman RJ, van Zijl PC. Two-compartment exchange model for perfusion quantification using arterial spin tagging. J Cereb Blood Flow Metab 2001;21:440-455.
14. 1 contrast agents: accuracy, precision, and water exchange. Magn Reson Med 1996;36:858-867.
15. Koh TS, Zeman V, Darko J, Lee T-Y, Milosevic MF, Haider M, Warde P, Yeung WT. The inclusion of capillary distribution in the adiabatic tissue homogeneity model of blood flow. Phys Med Biol 2001;46:1519-1538.
16. Kim S. Quantification of relatibe blood flow change by how-sensitive alternating inversion recovery (FAIR) technique: application to functional mapping. Magn Reson Med 1995;34:293-301.
17. Pell GS, Lewis DP, Branch CA. Pulsed arterial spin labeling using TurboFLASH with suppression of intravascular signal. Magn Reson Med 2003;49:341-350.
18. Pell GS, Thomas DL, Lythgoe MF, Calamante F, Howseman AM, Gadian DG, Ordidge RJ. Implementation of quantitative FAIR perfusion imaging with a short repetition time in time-course studies. Magn Reson Med 1999;41:829-840.
19. Pell GS, King MD, Proctor E, Thomas DL, Lythgoe MF, Gadian DG, Ordidge RJ. Comparative study of the FAIR technique of perfusion quantification with the hydrogen clearance method. J Cereb Blood Flow Metab 2003;23:689-699.
20. Pell GS, Lewis DP, Ordidge RJ, Branch CA. TurboFLASH FAIR imaging with optimized inversion and imaging profiles. Magn Reson Med 2004;51:46-54.
21. Keilholz-George SD, Knight-Scott J, Berr SS. Theoretical analysis of the effect of imperfect slice profiles on tagging schemes for pulsed arterial spin labeling MRI. Magn Reson Med 2001;46:141-148.
22. Warnking JM, Pike GB. Bandwidth-modulated adiabatic RF pulses for uniform selective saturation and inversion. Magn Reson Med 2004;52:1190-1199.
23. Schepers J, Garwood M, van der Sanden B, Nicolay K. Improved subtraction by adiabatic FAIR perfusion imaging. Magn Reson Med 2002;47:330-336.
24. Zhan W, Gu H, Silbersweig DA, Stern E, Yang Y. Inversion profiles of adiabatic inversion pulses for flowing spins: the effects on labeling efficiency and labeling accuracy in perfusion imaging with pulsed arterial spin-labeling. Magn Reson Imaging 2002;20:487-494.
25. Yongbi MN, Yang YH, Frank JA, Duyn JH. Multislice perfusion imaging in human brain using the C-FOCI inversion pulse: comparison with hyperbolic secant. Magn Reson Med 1999;42:1098-1105.
26. Zhou J, Susumu M, Van Zijl PC. FAIR excluding radiation damping (FAIRER). Magn Reson Med 1998;40:712-719.
27. Lee S-P, Silva AC, Kim S-G. Comparison of diffusion-weighted high-resolution CBF and spin-echo BOLD fMRI at 9.4 T. Magn Reson Med 2002;47:736-741.
28. Parkes LM, Rashid W, Chard DT, Tofts PS. Normal cerebral perfusion measurements using arterial spin labeling: reproducibility, stability, and age and gender effects. Magn Reson Med 2004;51:736-743.
29. Moffat B, Chenevert T,Hall D, Rehemtulla A, Ross B. Continuous arterial spin labeling using a train of adiabatic inversion pulses. J Magn Reson Imaging 2005;21:290-296.
30. Tsekos NV ZF, Merkle H, Nagayama M, Iadecola C, Kim SG. Quantitative measurements of cerebral blood flow in rats using the FAIR technique: correlation with previous iodoantipyrine autoradiographic studies. Magn Reson Med 1998;39:564-573.
31. Thomas DL, Lythgoe MF, Calamante F, Gadian DG, Ordidge RJ. Simultaneous noninvasive measurement of CBF and CBV using double-echo FAIR (DEFAIR). Magn Reson Med 2001;45:853-863.
32. Ewing JR, Wei L, Knight RA, Pawa S, Nagaraja TN, Brusca T, Divine GW, Fenstermacher JD. Direct comparison of local cerebral blood flow rates measured by MRI arterial spin-tagging and quantitative autoradiography in a rat model of experimental cerebral ischemia. J Cereb Blood Flow Metab 2003;23:198-209.
33. Weber MA, Gunther M, Lichy MP, Delorme S, Bongers A, Thilmann C, Essig M, Zuna I, Schad LR, Debus J, Schlemmer HP. Comparison of arterial spin-labeling techniques and dynamic susceptibility-weighted contrast-enhanced MRI in perfusion imaging of normal brain tissue. Invest Radiol 2003;38:712-718.
34. Sun YP, Schmidt NO, Schmidt K, Doshi S, Rubin JB, Mulkern RV, Carroll R, Ziu M, Erkmen K, Poussaint TY, Black P, Albert M, Burstein D, Kieran MW. Perfusion MRI of U87 brain tumors in a mouse model. Magn Reson Med 2004;51:893-899.
35. Warmuth C, Gunther M, Zimmer C. Quantification of blood flow in brain tumors: Comparison of arterial spin labeling and dynamic susceptibility-weighted contrast-enhanced MR imaging. Radiology 2003;228:523-532.
36. Silva AC, Kim SG, Garwood M. Imaging blood flow in brain tumors using arterial spin labeling. Magn Reson Med 2000;44:169-173.
37. Ewing JR, Brown SL, Kolozsvary A, Butt S, Cao Y, Kim JH. Magnetic resonance imaging of perfusion in rat cerebral 9L tumor after nicotinamide administration. Int J Radiat Oncol Biol Phys 1999;43:627-633.
38. Wong EC, Buxton RB, Frank LR. A theoretical and experimental comparison of continuous and pulsed arterial spin labeling techniques for quantitative perfusion imaging. Magn Reson Med 1998;40:348-355.
39. Lu HZ, Clingman C, Golay X, van Zijl PCM. Determining the longitudinal relaxation time (T-1) of blood at 3.0 tesla. Magn Reson Med 2004;52:679-682.