ButtsK.PaulyJ. (1997). “Isotropic diffusion-weighted and spiral-navigated interleaved EPI for routine imaging of acute stroke.”Maen Reson Med38(5): 741–9.
2.
ChiouJ. Y.AhnC. B. (2003). “A simple simultaneous geometric and intensity correction method for echo-planar imaging by EPI-based phase modulation.”IEEE Trans Med Imagine22(2): 200–5.
3.
FrostigR. D.LiekeE. E. (1990). “Cortical functional architecture and local coupling between neuronal activity and the microcirculation revealed by in vivo high-resolution optical imaging of intrinsic signals.”Proc Natl Acad Sci U S A87(16): 6082–6.
4.
GatiJ. S.MenonR. S. (1997). “Experimental determination of the BOLD field strength dependence in vessels and tissue.”Maga Reson Med38(2): 296–302.
5.
GloverG. H. and LeeA. T. (1995). “Motion artifacts in fMRI: comparison of 2DFT with PR and spiral scan methods.”Magn Reson Med33(5): 624–35.
6.
HuX. and LeT. H. (1996). “Artifact reduction in EPI with phase-encoded reference scan.”Magn Reson Med36(1): 166–71.
7.
KrugerG.KastrupA.. (2001). “Neuroimaging at 1.5 T and 3.0 T: comparison of oxygenation-sensitive magnetic resonance imaging.”Magn Reson Med45(4): 595–604.
8.
Luk-PatG. T. and NishimuraD. G. (2001). “Reducing off-resonance distortion by echo-time interpolation.”Magn Reson Med45(2): 269–76.
9.
MansfieldP. (1977). “Multi-planar image formation using NMR spin echoes.”Journal of Physics C, Solid State Physics10: L55–8.
10.
MenonR. S.OgawaS. (1993). “4 Tesla gradient recalled echo characteristics of photic stimulation-induced signal changes in the human primary visual cortex.”Magn Reson Med30(3): 380–6.
11.
MuftulerT.NalciogluO. (2002). “Type II Errors in Statistical Analysis of fMRI: A Comparative Study of 3T versus 1.5T Results”. Proc. ISMRM, Hawaii (2002).
12.
OgawaS.LeeT. M. (1993). The sensitivity of magnetic resonance image signals of a rat brain to changes in the cerebral venous blood oxygenation. Maen Reson Med29(2): 205–10.
13.
OgawaS.LeeT. M. (1990). “Brain magnetic resonance imaging with contrast dependent on blood oxygenation.”Proc Natl Acad Sci U S A87(24): 9868–72.
14.
OgawaS.LeeT. M. (1990). “Oxygenation-sensitive contrast in magnetic resonance image of rodent brain at high magnetic fields.”Magn Reson Med14(1): 68–78.
15.
OgawaS.MenonR. S. (1993). “Functional brain mapping by blood oxygenation level-dependent contrast magnetic resonance imaging: A comparison of signal characteristics with a biophysical model.”Biophys J64: 803–812.
16.
PriceR. R.AllisonJ. (2002). “Practical aspects of functional MRI (NMR Task Group #8).”Med Phys29(8): 1892–912.
17.
PruessmannK. P.WeigerM. (1999). “SENSE: sensitivity encoding for fast MRT.”Magn Reson Med42(5): 952–62.
18.
SakumaH.TakedaK. (1999). “Fast magnetic resonance imaging of the heart.”Eur J Radiol29(2): 101–13.
19.
SodicksonD. K. and ManningW. J. (1997). “Simultaneous acquisition of spatial harmonics (SMASH): fast imaging with radiofrequency coil arrays.”Magn Reson Med38(4): 591–603.
20.
SpielmanD. M. and PaulyJ. M. (1995). “Spiral imaging on a smallbore system at 4.7T.”Magnetic Resonance in Medicine34: 580–5.
21.
ThulbornK. R.WatertonJ. C. (1982). “Oxygenation dependence of the transverse relaxation time of water protons in whole blood at high field.”Biochim Biophvs Acta714(2): 265–70.
22.
TurnerR.JezzardP. (1993). “Functional mapping of the human visual cortex at 4 and 1.5 tesla using deoxygenation contrast EPI.”Magn Reson Med29(2): 277–9.
23.
WiesmannF.GatehouseP. D. (1998). “Comparison of fast spiral, echo planar, and fast low-angle shot MRI for cardiac volumetry at .5T.”J Magn Reson Imaging8(5): 1033–9.
24.
YangY.WenH. (1999). “Comparison of 3D BOLD functional MRI with spiral acquisition at 1.5 and 4.0 T.”Neuroimage9(4): 446–51.
