Ackermann, R. G., Finch, D. M., Babb, T. L., Engel, J. J., 1984. Increased glucose metabolism during long-duration recurrent inhibition of hippocampal pyramidal cells. J Neuroscience 4, 251-264.
Aguirre, G. K., Zarahan, E., D'Esposito, M., 1998. The variability of human,
BOLD hemodynamic responses. NeuroImage 8, 360-369.
Akgoren, N., 1994. Importance of nitric oxide for local increases of blood
flow in rat cerebellar cortex during electrical stimulation. Proc Natl Acad
Sci USA 91, 5903-5907.
Akgoren, N., Dalgaard, P., Lauritzen, M., 1996. Cerebral blood flow
increases evoked by electrical stimulation of rat cerebellar cortex: relation
to excitatory synaptic activity and nitric oxide synthesis. Brain Research
710, 204-214.
Akgoren, N., Lauritzen, M., 1999. Functional recruitment of red blood cells
to rat brain microcirculation accompanying increased neuronal activity in
cerebellar cortex. NeuroReport 10, 3257-3263.
Akgoren, N., Mathiesen, C., Rubin, I., Lauritzen, M., 1997. Laminar analysis
of activity-dependent increases of CBF in rat cerebellar cortex: dependence on
synaptic strength. Am J Physiol 273, H1166-H1176.
Ames, A. I., 2000. CNS energy metabolism as related to function. Brain
Research Reviews 34, 42-68.
Ances, B. M., Buerk, D. G., Greenberg, J. H., Detre, J. A., 2001. Temporal
dynamics of the partial presure of brain tissue oxygenation during functional
forepaw stimulation in rats. Neuroscience Letters 306, 106-110.
Ances, B. M., Detre, J. A., 2000. Early negativity enhanced BOLD fMRI using
short inter-stimulus intervals. Proceedings of the National Academy of
Sciences, USA 8, 495.
Attwell, D., Gibb, A., 2005. Neuroenergetics and the kinetic design of
excitatory synapses. Nature Neuroscience Reviews 6(11), 841-849.
Attwell, D., Iadecola, C., 2002. The neural basis of functional brain
imaging signals. Trends in Neuroscience 25(12), 621-625.
Attwell, D., Laughlin, S. B., 2001. An energy budget for signaling in the
grey matter of the brain. J Cerebral Blood Flow Metabolism 21,
1133-1145.
Bandettini, P. A., Wong, E. C., 1995. Effects of biophysical and physiologic
parameters on brain activation-induced R2* and R2 changes: simulations using a
deterministic diffusion model. Int J Imaging Sys Tech 6, 133-152.
Baramidze, D., Mchedlishvili, G., Gordeladze, Z., Levkovitch, Y., 1992.
Cerebral microcirculation: heterogeneity of pial arterial network controlling
microcirculation of cerebral cortex. International Journal of
Microcirculation: Clin Exp 11, 143-155.
Baron, J. C., Lebrun-Grandie, P., Collard, P., Crouzel, C., Mestelan, G.,
Bousser, M. G., 1981. Noninvasive measurement of blood flow, oxygen
consumption, and glucose utilization in the same brain regions in man by
positron emission tomography: concise communication. J Nucl Med 23,
391-399.
Beaulieu, C., Colonnier, M., 1985. A laminar analysis of the number of
round-asymmetrical and flat-symmetrical synapses on spines, dendritic trunks,
and cell bodies in area 17 of the cat. J Comp Neurol 231, 180-189.
Blamire, A. M., Ogawa, S., Ugurbil, K., Rothman, D. L., McCarthy, G.,
Ellermann, J., Hyder, F., Rattner, Z., Schulman, R. G., 1992. Dynamic mapping
of the human visual cortex by high-speed magnetic resonance imaging. Proceedings
of the National Academy of Sciences, USA 89, 11069-11073.
Bosmans, H., Wilms, G., Dymarkowski, S., Marchal, G., 2001. Basic principles
of MRA. European J Radiology 38, 2-9.
Boxerman, J. l., 1995. The intravascular contribution to fMRI signal change:
monte carlo modeling and diffusion-weighted studies in Vivo. Mag Res Med
34, 4-10.
Boynton, G. M., Demb, J. B., Glover, G. H., Heeger, D. J., 1999. Neuronal
basis of contrast discrimination. Vision Research 39, 257-269.
Boynton, G. M., Engel, S. A., Glover, G. H., Heeger, D. J., 1996. Linear
systems analysis of functional magnetic resonance imaging in human V1. J
Neuroscience 16(13), 4207-4221.
Brand, A., 1998. Rat brain primary neurons immobilized in basement membrane
gel threads: an improved method for on-line 13C NMR spectroscopy of live cells.
Brain Research Protocols 3, 183-191.
Brewer, A. A., Press, W. A., Logothetis, N. K., Wandell, B. A., 2002. Visual
areas in macaque cortex measured using functional magnetic resonance imaging. Journal
of Neuroscience 22(23), 10416-10426.
Buxton, R. B., 2001. The Elusive Initial Dip. NeuroImage 13, 953-958.
Buxton, R. B., 2005. Quantifying CBF with Arterial Spin Labeling. J Mag
Res Imaging 22, 723-726.
Buxton, R. B., Uludag, K., Dubowitz, D. J., Liu, T. T., 2004. Modeling the
hemodynamic response to brain activation. NeuroImage 23, S220-S223.
Caesar, K., Akgoren, N., Mathiesen, C., Lauritzen, M., 1999. Modification of
activity-dependent increases in cerebellar bood flow by extracellular potassium
in anaesthetized rats. J Physiology 520(1), 281-292.
Calamante, F., thomas, D. L., Pel, G. S., Wiersma, J., Turner, R., 1999.
Measuring cerebral blood flow using magnetic resonance imaging techniques. J
Cerebral Blood Flow Metabolism 19, 701-735.
Cannestra, A. F., Pouratian, N., Bookheimer, S. Y., Martin, N. A., Becker,
D. P., Toga, A. W., 2001. Temporal spatial differences observed by functional
MRI and human intraoperative optical imaging. Cereb Cortex 11(7),
773-782.
Carmeliet, P., Tessier-Lavigne, M., 2005. Common mechanisms of nerve and
blood vessel wiring. Nature 436, 193-200.
Cauli, B., Tong, X.-K., Rancillac, A., Serluca, N., Lambolez, B., Rossier,
J., Hamel, E., 2004. Cortical GABA interneurons in neurovascular copuling:
relays for subcortical vasoactive pathways. Journal of Neuroscience
24(41), 8940-8949.
Chen, Q., Siewert, B., Bly, B. M., Warach, S., Edelman, R. R., 1997.
STAR-HASTE: perfusion imaging without magnetic susceptibility artifact. Magn
Reson Med 38(3), 404-8.
Chen, W., Cho, Y., Merkle, H., Ye, Y., Zhang, Y., Gong, G., Zhang, J.,
Ugurbil, K., 1999. In vitro and in vivo studies of 1H NMR visibility to detect
deoxyhemoglobin and deoxymyoblobin signals in myocardium. Mag Res Med
42, 1-5.
Choi, I.-Y., Gruetter, R., 2003. In vivo 13C NMR assessment of brain
glycogen concentration and turnover in the awake rat. Neurochemistry
International 43, 317-322.
Choi, I.-Y., Lee, S.-P., Kim, S.-G., Gruetter, R., 2001. In vivo
measurements of brain glucose transport using the reversible Michaelis-Menten
model and simultaneous measurements of cerebral blood flow changes during
hypoglycemia. J Cerebral Blood Flow Metabolism 21, 653-663.
de Zwart, J. A., Silva, A. C., van Gelderen, P., Kellman, P., Fukunaga, M.,
Chu, R., Koretsky, A. P., Frank, J. A., Duyn, J. H., 2005. Temporal dynamics of
the BOLD fMRI impulse response. NeuroImage 54, 667-677.
Devor, A., Ulbert, I., Dunn, A. K., Narayanan, S. N., Jones, S. R.,
Andermann, M. L., Boas, D. A., Dale, A. M., 2005. Coupling of the cortical
hemodynamic response to cortical and thalamic neuronal activity. Proceedings
of the National Academy of Sciences 102(10), 3822-3827.
Disbrow, E. A., Slutsky, D. A., Roberts, T., Krubitzer, L. A., 2000.
Functional MRI at 1.5 Tesla: a comparison of the blood oxygenation
level-dependent signal and electrophysiology. Proceedings of the National
Academy of Sciences, USA 97(17), 9718-9723.
Duong, T. Q., Kim, D.-S., Ugurbil, K., Kim, S.-G., 2001. Localized cerebral
blood flow response at sub-millimeter columnar resolution. Proceedings of
the National Academy of Sciences, USA 95, 11489-11492.
Duong, T. Q., Silva, A. C., Lee, S.-P., Kim, S.-G., 2000. Functional MRI of
calcium-dependent synaptic activity: cross correlation with CBF and BOLD
measurements. Mag Reson Med 45, 382-392.
Duong, T. Q., Yacoub, E., Adriany, G., Hu, X., Ugurbil, K., Vaughan, J. T.,
Merkle, H., Kim, S. G., 2002. High-resolution, spin-echo BOLD, and CBF fMRI at
4 and 7 T. Magn Reson Med 48(4), 589-93.
Duvernoy, H. M., Delon, S., Vannson, J. L., 1981. Cortical blood vessels of
the human brain. Brain Research Bulletin 7, 519-579.
Duyn, J. H., 1995. Effects of large vessels in functional magnetic resonance
imaging at 1.5 T. Int J Imaging Sys Tech 6, 245-252.
Eriksson, G., Peterson, A., Iverfeldt, K., Walum, E., 1995. Sodium-dependent
glutamate uptake as an activator of oxidative metabolism in primary astrocyte
cultures from newborn rat. GLIA 15, 152-156.
Fabricius, M., Akgoren, N., Dirnagl, U., Lauritzen, M., 1997. Laminar
analysis of cerebral blood flow in cortex of rats by laser-doppler flowmetry: a
pilot study. J Cerebral Blood Flow Metabolism 17, 1326-1336.
Fonta, C., Imbert, M., 2002. Vascularization in the primate visual cortex
during development. Cerebral Cortex 12, 199-211.
Fox, P. T., A, M. M., Raichle, M. E., Miezen, F. M., Allman, J. M., Van
Essen, D. C., 1986. Mapping human visual cortex with positron emission
tomography. Nature 323, 806-809.
Fox, P. T., Raichle, M. E., 1986. Focal physiological uncoupling of cerebral
blood flow and oxidative metabolism during somatosensory stimulation in human
subjects. Proc Natl Acad Sci USA 83, 1140-1144.
Fox, P. T., Raichle, M. E., Mintun, M. A., Dence, C., 1988. Nonoxidative
glucose consumption during focal physiologic neural activity. Science
241, 462-464.
Frahm, J., 1994. Brain or vein - oxygenation or flow? On signal physiology
in functional MRI of human brain activation. NMR in Biomedicine 7,
45-53.
Friston, K. J., 2000. Nonlinear responses in fMRI: the balloon model,
volterra kernels, and other hemodynamics. NeuroImage 12, 466-477.
Friston, K. J., 2005. A theory of cortical responses. Phil Trans R Soc
Lond B 360, 815-836.
Gati, J. S., Menon, R. S., Ugurbil, K., Rutt, B. K., 1997. Experimental
determination of the BOLD field strength dependence in vessels and tissue. Mag
Reson Med 38(2), 296-302.
Gorno-Tempini, M. L., Hutton, C., Josephs, O., Deichmann, R., Price, C.,
Turner, R., 2002. Echo time dependence of BOLD contrast nad susceptibility
artifacts. NeuroImage 15, 136-142.
Gratton, G., Goodman-Wood, M. R., Fabiana, M., 2001. Comparison of neuronal
and hemodynamic measures of the brain response to visual stimulation: an
optical imaging study. Human Brain Mapping 13, 13-25.
Gruetter, R., 2002. In vivo 13C NMR studies of compartmentalized cerebral
carbohydrate metabolism. Neurochemistry International 41, 143-154.
Gruetter, R., 2003. Glycogen: the forgotten cerebral energy store. J
Neuroscience Research 74, 179-183.
Gruetter, R., Seaquist, E. R., Kim, S., Ugurbil, K., 1998. Localized in vivo
13C-NMR of glutamate metabolism in the human brain: initial results at 7 Tesla.
Dev Neurosci 20, 380-388.
Gruetter, R., Seaquist, E. R., Ugurbil, K., 2001. A mathematical model of
compartmentalized neurotransmitter metabolism in the human brain. Am J
Physiol Endocrinol Metab 281, E100-E112.
Gruetter, R., Ugurbil, K., Seaquist, E. R., 2000. Effect of acute hyperglycemia
on visual cortical activation as measured by functional MRI. J Neurosci Res
62, 279-285.
Haacke, E. M., Lai, S., Yablonskiy, D. A., Lin, W., 1995. In vivo validation
of the BOLD mechanism: a review of signal changes in gradient echo functional
MRI in the presence of flow. Int J Imaging Sys Tech 6, 153-163.
Hansen, K. A., David, S. V., Gallant, J. L., 2004. Parametric reverse
correlation reveals spatial linearity of retinotopic human V1 BOLD response. Neuroimage
23, 233-241.
Harrison, R. V., Harel, N., Panesar, J., Mount, R. J., 2002. Blood capillary
distribution correlates with hemodynamic-based functional imaging in cerebral
cortex. Cerebral Cortex 12, 225-233.
Hathout, G. M., Kirlew, K. A. T., So, G. J. K., Hamilton, D. R., Zhang, J.
X., Sinha, U., Sinha, S., Sayre, J., Gozal, D., Harper, R. M., Lufkin, R. B.,
1994. MR imaging signal response to sustained stimulation in human visual
cortex. J Mag Res Imaging 4, 537-543.
Heeger, D. J., Huk, A. C., Geisler, W. S., Albrecht, D. G., 2000. Spikes
versus BOLD: what does neuroimaging tell us about neuronal activity? Nature
Neurosci 3(7), 631-633.
Heeger, D. J., Ress, D., 2002. What does fMRI tell us about neuronal
activity? Nature 3, 142-151.
Hendry, S. H. C., Huntsman, M.-M., Vinuela, A., Mohler, H., de Blas, A. L.,
Jonew, E. G., 1994. GABAa receptor subunit immunoreactivity in primate visual
cortex: distribution in macaques and humans and regulation by visual input in
adulthood. Journal of Neuroscience 14(4), 2383-2401.
Hess, 2000. New insights into BOLD response by optical recording. J
Neuroscience 20(9), 3328-3338.
Hoogenraad, F. G. C., Pouwels, P. J. W., Hofman, M. B. M., Reichenbach, J.
R., Sprenger, M., Haacke, E. M., 2001. Quantitative differentiation between
BOLD models in fMRI. Magnetic Resonance in Medicine 45, 233-246.
Hoppel, B. E., Weisskiff, R. M., Thulborn, K. R., Moore, J. B., Kwong, K.
K., Rosen, B. R., 1993. Measurement of regional blood oxygenation and cerebral
hemodynamics. Mag Res Med 30, 715-723.
Howseman, A. M., Bowtell, R. W., 1999. Functional magnetic resonance
imaging: imaging techniques and contrast mechanisms. Phil Trans R Soc Lond B
354, 1179-1194.
Huettel, S. A., McCarthy, G., 2000. Evidence for a refractory period in the
hemodynamic response to visual stimuli as measured by MRI. NeuroImage
11, 547-553.
Huettel, S. A., McCarthy, G., 2001. Regional differences in the refractory
period of the hemodynamic response: an event-related fMRI study. NeuroImage
14, 967-976.
Huettel, S. A., McKeown, M. J., Song, A. W., Hart, S., Spencer, D. D.,
Allison, T., McCarthy, G., 2004. Linking hemodynamic and electrophysiological
measures of brain activity: evidence from functional MRI and intracranial field
potentials. Cereb Cortex 14, 165-173.
Hulvershorn, J., Bloy, L., Gualtieri, E. E., Leigh, J. S., Elliott, M. A.,
2005. Spatial sensitivity and temporal response of spin echo and gradient echo
bold contrast at 3T using peak hemodynamic activation time. NeuroImage
24, 216-223.
Husain, F. T., Tagamets, M.-A., Fromom, S. J., Braun, A. R., Horwitz, B.,
2004. Relating neuronal dynamics for auditory object processing to neuroimaging
activity: a computational modeling and an fMRI study. NeuroImage 21,
1701-1720.
Hyder, F., Patel, A. B., Gjedde, A., Rothman, D. L., Behar, K. L., Shulman,
R. G., 2006. Neuronal-glial glucose oxidation and glutamatergic-GABAergic
function. Journal of Cerebral Blood Flow & Metabolism, 1-13.
Hyder, F., Rothman, D. L., Shulman, R. G., 2002. Total neuroenergetics
support localized brain activity: implications for the interpretation of fMRI. Proc
Natl Acad Sci USA 99(16), 10771-10776.
Janz, C., Heinrich, S. P., Kornmayer, J., Bach, M., Hennig, J., 2001.
Coupling of neural activity and BOLD fMRI response: new insights by combination
of fMRI and VEP experiments in transition from single events to continuous
stimulation. Mag Reson Med 46(3), 482-486.
Janz, C., Schmitt, C., Kornmayer, J., Speck, O., Hennig, J., 2001.
Decoupling of the short-term hemodynamic response and the blood oxygen
concentration. NMR in Biomedicine 14, 402-407.
Jones, R. A., 1999. Origin of the signal undershoot in BOLD studies of the
visual cortex. NMR in Biomedicine 12, 299-308.
Jueptner, M., Weiller, C., 1995. Review: does measurement of regional
cerebral blood flow reflect synaptic activity? - Implications for PET and fMRI.
NeuroImage 2, 148-156.
Kim, S.-G., Rostrup, E., Larsson, H. B. W., Ogawa, S., Paulson, O. B., 1999.
Determination of relative CMRO2 from CBF and BOLD changes: significant increase
of oxygen consumption rate during visual stimulateion. Mag Res Med 41,
1152-1161.
Kim, S.-G., Tsekos, N., 1997. Perfusion Imaging by a Flow-sensitive
Alternating Inversion Recovery (FAIR) Technique: Application to Functional
Brain Imaging. Mag Reson Med 37, 425-435.
Kim, S.-G., Ugurbil, K., 1997. Functional magnetic resonance imaging of the
human brain. J Neurosci Methods 74, 229-243.
Kim, S. G., Ugurbil, K., 1997. Comparison of blood oxygenation and cerebral
blood flow effects in fMRI: estimation of relative oxygen consumption change. Magn
Reson Med 38(1), 59-65.
Kleinbongard, P., Schulz, R., Rassaf, T., Lauer, T., Dejam, A., Jax, T.,
Kumara, i., Gharini, P., Kabanova, S., Ozuyaman, B., Schnurch, H.-G., Godecke,
A., Weber, A.-A., Robenek, M., Robenek, H., Bloch, W., Rosen, P., Kelm, M.,
2006. Red blood cells express a functional endothelial nitric oxide synthase. Blood
107(7), 2943-2951.
Klip, A., Hawkins, M., 2005. Desperately seeking sugar: glial cells as
hypoglycemia sensors. Journal of Clinical Investigation 115(12),
2403-3405.
Kruger, G., Glover, G. H., 2001. Physiological noise in
oxygenation-sensitive magnetic resonance imaging. Mag Res Med 46,
631-637.
Kruger, G., Kastrup, A., Glover, G. H., 2001. Neuroimaging at 1.5 T and 3.0
T: comparison of oxygenation-sensitive magnetic resonance imaging. Mag Res
Med 45, 595-640.
Kruger, G., Kastrup, A., Takahashi, A., Glover, G. H., 1999. Simiultaneous
monitoring of dynamic changes in cerebral blood flow and oxygenation during
sustained activation of the human visual cortex. NeuroReport 10,
2939-2943.
Laurienti, P. J., Field, A. S., Burdette, J. H., Maldjian, J. A., Yen,
Y.-F., Moody, D. M., 2002. Dietary caffeine consumption modulates fMRI
measures. NeuroImage 17, 751-757.
Lauritzen, M., 2001. Relationship of spikes, synaptic activity, and local
changes of cerebral blood flow. J Cerebral Blood Flow Metabolism 21,
1367-1383.
Lee, A. T., Glover, G. H., Meyer, C. H., 1995. Discrimination of large
venous vessels in time-course spiral blood-oxygen-level-dependent
magnetic-resonance functional neuroimaging. Magnetic Resonance in Medicine
33, 745-754.
Lee, S.-P., Duong, T. Q., Yang, G., Iadecola, C., Kim, S.-G., 2001. Relative
changes of cerebral arterial and venous blood volumes during increased cerebral
blood flow: implications for BOLD fMRI. Mag Res Med 45, 791-800.
Leite, F. P., Tsao, D., Vanduffel, W., Fize, D., Sasake, Y., Wald, L. L.,
Dale, A. M., Kwong, K. K., Orban, G. A., Rosen, B. R., Tootell, R. B. H.,
Mandeville, J. B., 2002. Repeated fMRI using iron oxide contrast agent in
awake, behaving macaques at 3 Tesla. NeuroImage 16, 283-294.
Leopold, D. A., Murayama, Y., Logothetis, N. K., 2003. Very slow activity
fluctuations in monkey visual cortex: implications for functional brain
imaging. Cerebral Cortex 13, 422-433.
Lindauer, U., 2000. No evidence for early decrease in blood oxygenation in
rat whisker cortex in response to functional activation. NeuroImage
Online.
Liu, T. T., Behzadi, Y., Restom, K., Uludag, K., Lu, K., Buracas, G. T.,
Dubowitz, D. J., Buxton, R. B., 2004. Caffeine alters the temporal dynamics of
the visual BOLD response. NeuroImage 23, 1402-1413.
Liu, T. T., Wong, e. C., 2005. A signal processing model for arterial spin
labeling functional MRI. NeuroImage 24, 207-215.
Logothetis, N. K., Pauls, J., Augath, M., Trinath, T., Oeltermann, A., 2001.
Neurophysiological investigation of the basis of the fMRI signal. Nature
412(6843), 150-157.
Lu, H., Golay, X., Pekar, J. J., van Zijl, P. C. M., 2003. Functional
magnetic resonance imaging based on changes in vascular space occupancy. Mag
Reson Med 50(2), 263-274.
Luypaert, R., Boujraf, S., Sourbron, S., Osteaux, M., 2001. Diffusion and
perfusion MRI: basic physics. European J Radiology 38, 19-27.
Magistretti, P. J., 2000. Cellular bases of functional brain imaging:
insights from neuron-glia metabolic coupling. Brain Research 886,
108-112.
Magistretti, P. J., Sorg, O., Yu, N., Martin, J.-L., Pellerin, L., 1993.
Neurotransmitters regulate energy metabolism in astrocytes: implications for
the metabolic trafficking between neural cells. Dev Neurosci 15,
306-312.
Mandelkow, H., Logothetis, N. K. (2000). Annual Report. Tuebigen, Max Planck
Institute for Biological Cybernetics: 117
ff.
Marcar, V. L., Loenneker, T., Straessle, A., Girard, F., Martin, E., 2004.
What the little differences between men and women tells us about the BOLD
response. Magnetic Resonance Imaging 22, 913-919.
Martin, W. R. W., Powers, W. J., Raichle, M. E., 1987. Cerebral blood volume
measured with inhaled C15O positron emission tomography. J Cerebral Blood
Flow Metabolism 7, 421-426.
Marty, N., Dallaporta, M., Foretz, M., Emery, M., Tarussio, D., Bady, I.,
Binnert, C., Beermann, F., Thorens, B., 2005. Regulation of glucagon secretion
by glucose transporter type 2 (glut2) and astrocyte-dependent glucose sensors. Journal
of Clinical Investigation 115(12), 3545-3553.
Mathiesen, C., Caesar, K., Akgoren, N., Lauritzen, M., 1998. Modification of
activity-dependent increases of cerebral blood flow by excitatory synaptic
activity and spikes in rat cerebellar cortex. J Physiology 512(2),
555-566.
McClure, K. D., McClure, S. M., Richter, M. C., Richter, W., 2005. The
kinetics of the BOLD response depend on inter-stmulus time. NeuroImage
27, 817-823.
McLaughlin, D., Shapley, R. M., Shelley, M., Wielaard, D. J., 2000. A
neuronal network model of macaque primary visual cortex (V1): orientation
selectivity and dynamics in the input layer 4Ca. Proceedings of the National
Academy of Sciences, USA 97(14), 8087-8092.
Menon, R. S., 1995. BOLD based functional MRI at 4 Tesla includes a capillary
bed contribution; Echo-Planar Imaging correlates with previous optical imaging
using intrinsic signals. Mag Res Med 33, 453-459.
Metea, M. R., Newman, E. A., 2006. Glial cells dilate and constrict blood
vessels: a mechanism of neurovascular coupling. J Neuroscience 26(11),
2862-2870.
Miki, A., Raz, J., van Erp, T. G. M., Liu, C.-S. J., Haselgrove, J. C., Liu,
G. T., 2000. Reproducibility of visual activation in functional MR imaging and
effects of postprocessing. AJNR Am J Neuroradiol 21, 910-915.
Mildner, T., Norris, D. G., Schwartzbauer, C., Wiggins, C. J., 2001. A
qualitative test of the balloon model for BOLD-based MR signal changes at 3T. Mag
Reson Med 46, 891-899.
Mildner, T., Norris, D. G., Schwarzbauer, C., Wiggins, C., 2001. A
qualitative test of the balloon model for BOLD-based MR signal changes at 3T. Magnetic
Resonance in Medicine 46, 891-899.
Moradi, F., Liu, L. C., Cheng, K., Waggoner, R. A., Tanaka, K., Ioannides,
A. A., 2003. Consistent and precise localization of brain activity in human
primary visual cortex by MEG and fMRI. NeuroImage 18, 595-609.
Nedergaard, M., Ransom, B., Goldman, S. A., 2003. New roles for astrocytes:
redefining the functional architecture of the cortex. Trends in Neuroscience
26(10), 523.
Nie, F., Wong-Riley, M. T., 1995. Double labeling of GABA and cytochrome
oxidase in the macaque visual cortex: quantitative EM analysis. Journal of
Comparative Neurology 356(1), 115-131.
Obata, T., Liu, T. T., Miller, K. L., Luh, W.-M., Wong, E. C., Frank, L. R.,
Buxton, R. B., 2004. Discrepancies between BOLD and flow dynamics in primary
and supplementary motor areas: application of the balloon model to the
interpretation of BOLD transients. NeuroImage 21, 144-153.
Ogawa, S., Lee, T.-M., Stepnoski, R., Chen, W., Zhu, X.-H., Ugurbil, K.,
2000. An approach to probe some neural systems interaction by functional MRI at
neural time scale down to milliseconds. Proc Natl Acad Sci USA 97(20),
11026-11031.
Ogawa, S., Lee, T. M., Kay, A. R., Tank, D. W., 1990. Brain magnetic
resonance imaging with contrast dependent on blood oxygenation. Proceedings
of the National Academy of Sciences, USA 87, 9868-9872.
Ogawa, S., Menon, R. S., Tank, D. W., Kim, S.-G., Merkle, H., Ellerman, J.
M., Ugurbil, K., 1993. Functional brain mapping by blood oxygenation
level-dependent contrast magnetic resonance imaging. A comparison of signal
characteristics with a biophysical model. Biophysical Journal 64(3),
803-912.
Ogawa, S., Tank, D. W., Menon, R. S., Ellermann, J., Kim, S.-G., Merkle, H.,
Ugurbil, K., 1992. Intrinsic signal changes accompanying sensory stimulation:
functional brain mapping with magnetic resonance imaging. Proceedings of the
National Academy of Sciences, USA 89, 5951-5955.
Oz, G., Henry, P.-G., Seaquist, E. R., Gruetter, R., 2003. Direct,
noninvasive measuremetn of brain glycogen metabolism in humans. Neurochemistry
International 43, 323-329.
Parkes, L. M., Schwarzbach, J. V., Bouts, A. A., Deckers, R. H. R., Pullens,
P., Kerskens, C. M., Norris, D. G., 2005. Quantifying the spatial resolution of
the gradient echo and spin echo BOLD response at 3 Tesla. Magnetic Resonance
in Medicine 54, 1465-1472.
Pellerin, L., Magistretti, P. J., 1994. Glutamate uptake into astrocytes
stimulates aerobic glycolysis: a mechanism coupling neuronal activity to
glucose utilization. Proc Natl Acad Sci USA 91, 10625-10629.
Pfeuffer, J., Adriany, G., Shmuel, A., Yacoub, E., Van de Moortele, P.-F.,
Hu, X., Ugurbil, K., 2002. Perfusion-based high-resolution functional imaging
in the human brain at 7 Tesla. Magnetic Resonance in Medicine 47,
903-911.
Pfeuffer, J., McCullough, J. C., Van de Moortele, P.-F., Ugurbil, K., Hu,
X., 2003. Spatial dependence of the nonlinear BOLD response at short stimulus
duration. NeuroImage 18, 990-1000.
Pfeuffer, J., Van de Moortele, P. F., Ugurbil, K., Hu, X., Glover, G. H.,
2002. Correction of physiologically induced global off-resonance effects in
dynamic echo-planar and spiral functional imaging. Magn Reson Med 47(2),
344-53.
Phillippides, A., Husbands, P., O'Shea, M., 2000. Four-dimensional neuronal
signaling by nitric oxide: a computational analysis. J Neuroscience
20(3), 1199-1207.
Prasad, P. V., Edelman, R. R., Buxton, R. B., 1995. Magnetic resonance
perfusion imaging. Int J Imaging Sys Tech 6, 230-237.
Purdon, P. L., Solor, V., Weisskoff, R. M., Brown, E. N., 2001. Locally
regularized spatiotemporal modeling and model comparison for functional MRI. NeuroImage
14, 912-923.
Raichle, M. E. (?). Circulatory and metabolic correlates of brain function
in normal humans. Handbook of Physiology - the Nervous System. ? USA:
643-674.
Reina-de la Torre, F., Rodriguea-Baeza, A., Sahuquillo-Barris, J., 1998.
Morphological characteristics and distribution pattern of the arterial vessels
in human cerebral cortex: a scanning electron microscope study. The
Anatomical Record 251, 87-96.
Scannel, J. W., Young, M. P., 1999. Neuronal population activity and
functional imaging. Proc R Soc Lond B 266, 875-881.
Schurr, A., Miller, J. J., Payne, R. S., Rigor, B. M., 1999. An increase in
lactate output by brain tissue serves to meet the energy needs of
glutamate-activated neurons. J Neuroscience 19(1), 34-39.
Sheth, S. A., Nemoto, M., Guiou, m., Walker, M., Pouratian, N., Toga, A. W.,
2004. Linear and nonlinear relationships between neuronal activity, oxygen
metabolism, and hemodynamic responses. Neuron 42, 247-355.
Shmuel, A., Yacoub, E., Pfeuffer, J., Van de Moortele, P.-F., Adriany, G.,
Hu, X., Ugurbil, K., 2002. Sustained negative BOLD, blood flow and oxygen
consumption response and its coupling to the positive response in the human
brain. Neuron 36, 1195-1210.
Shulman, R. G., Hyder, F., Rothman, D. L., 2001. Cerebral energetics and the
glycogen shunt: neuroshemical basis of functional imaging. Proc Natl Acad
Sci USA 98(11), 6417-6422.
Sibson, N. R., Dhankar, A., Mason, G. F., Rothman, D. L., Behar, K. L.,
Shulman, R. G., 1998. Stoichiometric coupling of brain glucose metabolism and
glutamatergic neuronal activity. Proceedings of the National Academy of
Sciences, USA 95, 316-321.
Silvennoinen, M. J., Clingman, C. S., Golay, X., Kauppinen, R. A., van Zijl,
P. C. M., 2003. Comparison of the dependence of blood R2 and R2* on oxygen
saturation at 1.5 and 4.7 Tesla. Magnetic Resonance in Medicine 49,
47-60.
Smith, A. J., Blumenfeld, H., Behar, K. L., Rothman, D. L., Shulman, R. G.,
Hyder, F., 2002. Cerebral energetics and spiking frequency: the
neurophysiological basis of fMRI. Proc Natl Acad Sci USA 99(16),
10765-10770.
Smith, A. T., Williams, A. L., Singh, K. D., 2004. Negative BOLD in the
visual cortex: evidence against blood stealing. Human Brain Mapping 21,
213-220.
Soltysik, D. A., Peck, K. K., White, K. D., Crosson, B., Briggs, R. W.,
2004. Comparison of hemodynamic response nonlinearity across primary cortical
areas. NeuroImage 22(1117-1127).
Sorg, O., Pellerin, L., Stolz, M., Beggah, S., Magistretti, P. J., 1995. Adenosine
triphosphate and arachidonic acid stimulate glycogenolysis in primary cultures
of mouse cerebral cortical astrocytes. Neuroscience Letters 188,
109-112.
Stemme, A., Deco, G., Busch, A., Schneider, W. X., 2005. Neurons and the
synaptic basis of the fMRI signal associated with cognitive flexibility. NeuroImage
26, 454-470.
Takano, T., Kang, J., Jaiswal, J. K., Simon, S. M., Lin, J. H.-C., Yu, Y.,
Li, Y., Yang, J., Dienel, G., Zielke, H. R., Nedergaard, M., 2005.
Receptor-mediated glutamate release from volume sensitive channels in
astrocytes. Proceedings of the National Academy of Sciences 102(45),
16466-16471.
Takano, T., Tian, Guo-Feng, Peng, W., Lou, N., Libionka, W., Han, X.,
Nedergaard, M., 2006. Astrocyte-mediated control of cerebral blood flow. Nature
Neuroscience.
Tao, L., Shelley, M., McLaughlin, D., Shapley, R., 2004. An egalitarian
network model for the mergence of simple and complex cells in visual cortex. Proceedings
of the National Academy of Sciences 101(1), 366-371.
Thompson, J. K., Peterson, M. R., Freeman, R., 2003. Single-neuron activity
and tissue oxygenation in the cerebral cortex. Science 299(5609),
961-1132.
Thompson, J. K., Peterson, M. R., Freeman, R., 2004. High-resolution
neurometabolic coupling reealed by focal activation of visual neurons. Nature
Neuroscience 7(9), 919-920.
Thompson, J. K., Peterson, M. R., Freeman, R. D., 2005. Seperate spatial
scales determine neural activity-dependent changes in tissue oxygenation within
central visual pathways. Journal of Neuroscience 25(39), 9046-9058.
Ting, Y.-L. T., Degani, H., 1993. Energetics and glucose metabolism in
hippocampal slices during depolarization: 31P and 13C NMR studies. Brain
Research 610, 16-23.
Tjandra, T., Brooks, J. C. W., Figueiredo, P., Wise, R., Matthews, P. M., Tracey,
I., 2005. Quantitative assessment of the reproducibility of functional
activation measured with BOLD and MR perfusion imaging: implications for
clinical trial design. NeuroImage 27, 393-401.
Triantafyllou, C., Hoge, R. D., Krueger, G., Wiggins, C. J., Potthast, A.,
Wiggins, G. C., Wald, L. L., 2005. Comparison of physiological noise at 1.5T,
3T and 7T and optimization of fMRI acquisition parameters. NeuroImage
26, 243-250.
Tsodyks, M., 1999. Linking spontaneous activity of single cortical neurons
and the underlying functional architecture. Science 286, 1943-?
Turner, R., 2002. How much cortex can a vein drain? Downstream dilution of
activation-related cerebral blood oxygenation changes. NeuroImage 16,
1062-1067.
Ugurbil, K., Adriany, G., Andersen, P., Chen, W., Gruetter, R., Hu, X.,
Merkle, H., Kim, D.-S., Kim, S.-G., Strupp, J. P., Zhu, X.-H., Ogawa, S., 2000.
Magnetic resonance studies of brain function and neurochemistry. Ann Rev
Biomed Eng 2, 633-660.
Ugurbil, K., Ogawa, S., Kim, S.-G., Hu, X., Chen, W., Zhu, X.-H. (1999). Imaging
brain activity using nuclear spins. Proceedings of the International School
of Physcis, Course CXXXIX: "Enrico Fermi, magnetic resonance and brain
function: approaches from physics", IOS Press, Amsterdam, Netherlands.
Ugurbil, K., Toth, L., Kim, D.-S., 2003. How accurate is magnetic resonance
imaging of brain function? Trends in Neuroscience 26(2), 108-114.
Uldag, K., Dubowitz, D. J., Yoder, E. J., Restom, K., Liu, T. T., Buxton, R.
B., 2004. Coupling of cerebral blood flow and oxygen consumption during
physiological activation and deactivation measured with fMRI. NeuroImage
26, 148-155.
Videen, T. O., Perlmutter, J. S., Herscovitch, P., Raichle, M. E., 1987.
Brain blood volume, flow, and oxygen utilization measured with 15O radiotracers
and positron emission tomography: revised metabolic computations. J Cerebral
Blood Flow Metabolism 7(4), 513-516.
Waldvogel, D., van Gelderen, P., Muellbacher, W., Ziemann, U., Immisch, I.,
Hallett, M., 2000. The relative metabolic demand of inhibition and excitation. Nature
406, 995-998.
Walker, G. A., 2002. Disinhibition outside receptive fields in the visual
cortex. J Neuroscience 22(13), 5659-5668.
Wang, J., Rao, e., Wetmore, G. S., Furlan, P. M., Korczykowski, M., Dinges,
D. F., Detre, J. A., 2005. Perfusion functional MRI reveals cerebral blood flow
patten under psychological stress. Proceedings of the National Academy of
Sciences 102(49), 17804-17809.
Weliky, M., 2000. Correlated neuronal activity and visual cortical
development. Neuron 27, 427-430.
Williams, D. S., Detre, J. A., Leigh, J. S., Koretsky, A. P., 1992. Magnetic
resonance imaging of perfusion using spin inversion of arterial water. Proceedings
of the National Academy of Sciences 89, 212-216.
Wilms, G., Bosmans, H., Demaerel, P., Marchal, G., 2001. Magnetic resonance
angiography of the intracranial vessels. European J Radiology 38, 10-18.
Wobst, P., Wenzel, R., Kohl, M., Obrig, H., Villringer, A., 2001. Linear
aspects of changes in deoxyenated hemoglobin concentration and cytochrome
oxidase oxidation during brain activation. NeuroImage 13, 520-530.
Wong, E. C., Buxton, R. B., Frank, L. R., 1998. Quantitative imaging of
perfusion using a single subtraction (QUIPSS and QUIPSS II). Magnetic
Resonance in Medicine 39(5), 702-708.
Wong-Riley, M. T., Nie, F., 1995. Double labeling of GABA and cytochrome
oxidase in the macaque visual cortex: quantitative EM analysis. J Comp
Neurol 356(1), 115-131.
Woolsey, T. A., Rovainen, C. M., Cox, S. B., Henegar, M. H., Liang, G. E.,
Liu, D., Moskalenko, Y. E., Sui, J., Wei, L., 1996. Neuronal units linked to
microvascular modules in cerebral cortex: response elements for imaging the
brain. Cerebral Cortex 6, 647-660.
Yacoub, E., Hu, X., 1999. Detection of the early negative response in fMRI
at 1.5 Tesla. Mag Reson Med 41, 1088-1092.
Yacoub, E., Le, T. H., Ugurbil, K., Hu, X., 1999. Further evaluation of the
initial negative response in functional magnetic resonance imaging. Magn
Reson Med 41(3), 436-41.
Yacoub, E., Ugurbil, K., Harel, N., 2005. The spatial dependence of the
poststimulus undershoot as revealed by high-resolution BOLD- and CBV-weighted
fMRI. Journal of Cerebral Blood Flow & Metabolism, 1-11.
Ye, F. Q., Yang, Y., Duyn, J. H., Mattay, V. S., Frank, J. A., Weinberger,
D. R., McGlaughlin, A. C., 1999. Quaantitation of regional cerebral blood flow
increases during motor activation: a multislice, steady-state, arterial spin
tagging study. Magnetic Resonance in Medicine 72, 404-407.
Zhan, C. a. A., Ledgeway, T., Baker, C. L., 2005. Contrast response in
visual cortex: quantitatve assessment with intrinsic optical signal imaging and
neural firing. NeuroImage 26, 330-346.
Zheng, D., LaMantia, A.-S., Purves, D., 1991. Specialized vascularization of
the primate visual cortex. J Neurosci 11(8), 2622-2629.
Zhu, X. H., Kim, S. G., Andersen, P., Ogawa, S., Ugurbil, K., Chen, W.,
1998. Simultaneous oxygenation and perfusion imaging study of functional
activity in primary visual cortex at different visual stimulation frequency:
quantitative correlation between BOLD and CBF changes. Magn Reson Med
40(5), 703-11.
Zwingmann, C., Richter-Landsberg, C., Brand, A., Leibfritz, D., 2000. NMR
spetroscopic study on the metabolic fate of [3-13C]alanine in astrocytes,
neurons, and cocultures: implications for glia-neuron interactions in
neurotransmitter metabolism. GLIA 32, 286-303.