M/EEG+FMRI BIB

[AB02]	O. J. Arthurs and S. Boniface. How well do we understand the neural origins of the fMRI BOLD signal? Trends Neurosci, 25(1):27-31, 2002. [ bib \| http \| Abstract ]
[AB03]	O. J. Arthurs and S. J. Boniface. What aspect of the fMRI BOLD signal best reflects the underlying electrophysiology in human somatosensory cortex? Clin Neurophysiol, 114(7):1203-1209, 2003. [ bib \| http \| Abstract ]
[ABH⁺04]	P. Adjamian, G. R. Barnes, A. Hillebrand, I. E. Holliday, K. D. Singh, P. L. Furlong, E. Harrington, C. W. Barclay, and P. J. Route. Co-registration of magnetoencephalography with magnetic resonance imaging using bite-bar-based fiducials and surface-matching. Clin Neurophysiol, 115(3):691-698, 2004. [ bib \| http \| Abstract ]
[ADSM06]	Jorn Anemuller, Jeng-Ren Duann, J. Sejnowski, Terrence, and Scott Makeig. Spatio-temporal dynamics in fMRI recordings revealed with complex independent component analysis. Neurocomputing, 69:1502-1512, 2006. [ bib \| http \| Abstract ]
[AI02]	D. Attwell and C. Iadecola. The neural basis of functional brain imaging signals. Trends Neurosci, 25(12):621-625, 2002. [ bib \| http \| Abstract ]
[AJBMB04]	O. J. Arthurs, H. Johansen-Berg, P. M. Matthews, and S. J. Boniface. Attention differentially modulates the coupling of fMRI BOLD and evoked potential signal amplitudes in the human somatosensory cortex. Exp Brain Res, 157(3):269-274, 2004. [ bib \| http \| Abstract ]
[AJT00]	P. J. Allen, O. Josephs, and R. Turner. A method for removing imaging artifact from continuous EEG recorded during functional MRI. NeuroImage, 12(2):230-239, 2000. [ bib \| http \| Abstract ]
[AMT⁺03]	K. Anami, T. Mori, F. Tanaka, Y. Kawagoe, J. Okamoto, M. Yarita, T. Ohnishi, M. Yumoto, H. Matsuda, and O. Saitoh. Stepping stone sampling for retrieving artifact-free electroencephalogram during functional magnetic resonance imaging. NeuroImage, 19(2.1):281-295, 2003. [ bib \| http \| Abstract ]
[APS⁺04]	L. M. Angelone, A. Potthast, F. Segonne, S. Iwaki, J. W. Belliveau, and G. Bonmassar. Metallic electrodes and leads in simultaneous EEG-MRI: specific absorption rate (SAR) simulation studies. Bioelectromagnetics, 25(4):285-295, 2004. [ bib \| http \| Abstract ]
[AS04]	S. P. Ahlfors and G. V. Simpson. Geometrical interpretation of fMRI-guided MEG/EEG inverse estimates. NeuroImage, 22(1):323-332, 2004. [ bib \| http \| Abstract ]
[ASD⁺99]	S. P. Ahlfors, G. V. Simpson, A. M. Dale, J. W. Belliveau, A. K. Liu, A. Korvenoja, J. Virtanen, M. Huotilainen, R. B. Tootell, H. J. Aronen, and R. J. Ilmoniemi. Spatiotemporal activity of a cortical network for processing visual motion revealed by MEG and fMRI. J Neurophysiol, 82(5):2545-2555, 1999. [ bib \| http \| Abstract ]
[AZD98]	G. K. Aguirre, E. Zarahn, and M. D'esposito. The variability of human, BOLD hemodynamic responses. NeuroImage, 8(4):360-369, 1998. [ bib \| http \| Abstract ]
[BAB⁺04]	A. P. Bagshaw, Y. Aghakhani, C. G. Benar, E. Kobayashi, C. Hawco, F. Dubeau, G. B. Pike, and J. Gotman. EEG-fMRI of focal epileptic spikes: analysis with multiple haemodynamic functions and comparison with gadolinium-enhanced MR angiograms. Hum Brain Mapp, 22(3):179-192, 2004. [ bib \| http \| Abstract ]
[BAMM99]	D. H. Brooks, G. F. Ahmad, R. S. MacLeod, and G. M. Maratos. Inverse electrocardiography by simultaneous imposition of multiple constraints. IEEE Trans Biomed Eng, 46(1):3-18, 1999. [ bib \| http \| Abstract ]
[BB02]	J. Bodurka and P. A. Bandettini. Toward direct mapping of neuronal activity: MRI detection of ultraweak, transient magnetic field changes. Magn Reson Med, 47(6):1052-1058, 2002. [ bib \| http \| Abstract ]
[BBC⁺02]	F. Babiloni, C. Babiloni, F. Carducci, C. Del Gratta, G. L. Romani, P. M. Rossini, and F. Cincotti. Cortical source estimate of combined high resolution EEG and fMRI data related to voluntary movements. Methods Inf Med, 41(5):443-450, 2002. [ bib \| Abstract ]
[BBC⁺03]	F. Babiloni, C. Babiloni, F. Carducci, G. L. Romani, P. M. Rossini, L. M. Angelone, and F. Cincotti. Multimodal integration of high-resolution EEG and functional magnetic resonance imaging data: a simulation study. NeuroImage, 19(1):1-15, 2003. [ bib \| Abstract ]
[BB06]	M. Burke and Buhrle Ch. BOLD response during uncoupling of neuronal activity and CBF. Neuroimage, 32(1):1-8, 2006. [ bib \| http \| Abstract ]
[BCB⁺05]	F. Babiloni, F. Cincotti, C. Babiloni, F. Carducci, D. Mattia, L. Astolfi, A. Basilisco, P.M. Rossini, L. Ding, Y. Ni, J. Cheng, K. Christine, J. Sweeney, and B. He. Estimation of the cortical functional connectivity with the multimodal integration of high-resolution EEG and fMRI data by directed transfer function. Neuroimage, 24(1):118-131, 2005. [ bib \| http \| Abstract ]
[BDM⁺05]	M. Brazdil, M. Dobsik, M. Mikl, P. Hlustik, P. Daniel, M. Pazourkova, P. Krupa, and I. Rektor. Combined event-related fMRI and intracerebral ERP study of an auditory oddball task. Neuroimage, 26(1):285-93, 2005. [ bib \| http \| Abstract ]
[BEGH96]	G. M. Boynton, S. A. Engel, G. H. Glover, and D. J. Heeger. Linear systems analysis of functional magnetic resonance imaging in human V1. J Neurosci, 16(13):4207-4221, 1996. [ bib \| http \| Abstract ]
[BM92]	P. J. Besl and N. D. McKay. A method for registration of 3-D shapes. IEEE Trans. Pattern Anal. Machine Intell., 14(2), February 1992. [ bib ]
[BET⁺97]	R. Beisteiner, M. Erdler, C. Teichtmeister, M. Diemling, E. Moser, V. Edward, and L. Deecke. Magnetoencephalography may help to improve functional MRI brain mapping. Eur J Neurosci, 9(5):1072-1077, 1997. [ bib \| http \| Abstract ]
[BF97]	R. B. Buxton and L. R. Frank. A model for the coupling between cerebral blood flow and oxygen metabolism during neural stimulation. J Cereb Blood Flow Metab, 17(1):64-72, 1997. [ bib \| http \| Abstract ]
[BGH⁺05]	M. J. Brookes, A. M. Gibson, S. D. Hall, P. L. Furlong, G. R. Barnes, A. Hillebrand, K. D. Singh, I. E. Holliday, S. T. Francis, and P. G. Morris. GLM-beamformer method demonstrates stationary field, alpha ERD and gamma ERS co-localisation with fMRI BOLD response in visual cortex. Neuroimage, 26(1):302-8, 2005. [ bib \| http \| Abstract ]
[BKD⁺05]	A.P. Bagshaw, E. Kobayashi, F. Dubeau, G.B. Pike, and J. Gotman. Correspondence between EEG-fMRI and EEG dipole localisation of interictal discharges in focal epilepsy. Neuroimage, 2005. [ bib \| http \| Abstract ]
[BKM⁺91]	J.W. Belliveau, D.N. Kennedy, Jr, R.C. McKinstry, B.R. Buchbinder, R.M. Weisskoff, M.S. Cohen, J.M. Vevea, T.J. Brady, and B.R. Rosen. Functional mapping of the human visual cortex by magnetic resonance imaging. Science, 254(5032):716-719, 1991. [ bib \| http \| Abstract ]
[BL05]	Y. Behzadi and T.T. Liu. An arteriolar compliance model of the cerebral blood flow response to neural stimulus. Neuroimage, 25(4):1100-11, 2005. [ bib \| http \| Abstract ]
[BL06]	N. Bregadze and A. Lavric. ERP differences with vs. without concurrent fMRI. Int J Psychophysiol, 2006. [ bib \| http \| Abstract ]
[BNK⁺95]	S. B. Baumann, D. C. Noll, D. S. Kondziolka, W. Schneider, T. E. Nichols, M. A. Mintun, J. D. Lewine, H. Yonas, W. W. Orrison, Jr, and R. J. Sclabassi. Comparison of functional magnetic resonance imaging with positron emission tomography and magnetoencephalography to identify the motor cortex in a patient with an arteriovenous malformation. J Image Guid Surg, 1(4):191-197, 1995. [ bib \| http \| Abstract ]
[BNSZ05]	A. Babajani, M. H. Nekooei, and H. Soltanian-Zadeh. Integrated MEG and fMRI model: synthesis and analysis. Brain Topogr, 18(2):101-13, 2005. [ bib \| http \| Abstract ]
[BPJ⁺02]	G. Bonmassar, P. L. Purdon, I. P. Jaaskelainen, K. Chiappa, V. Solo, E. N. Brown, and J. W. Belliveau. Motion and ballistocardiogram artifact removal for interleaved recording of EEG and EPs during MRI. NeuroImage, 16(4):1127-1141, 2002. [ bib \| http \| Abstract ]
[BRLL07]	Y. Behzadi, K. Restom, J. Liau, and T. T. Liu. A component based noise correction method (CompCor) for BOLD and perfusion based fMRI. Neuroimage, 2007. [ bib \| http \| Abstract ]
[BRM⁺01]	S. Baillet, J.J. Riera, G. Marin, J.F. Mangin, J. Aubert, and L. Garnero. Evaluation of inverse methods and head models for EEG source localization using a human skull phantom. Phys Med Biol, 46(1):77-96, 2001. [ bib \| http \| Abstract ]
[BSZ06]	A. Babajani and H. Soltanian-Zadeh. Integrated MEG/EEG and fMRI model based on neural masses. IEEE Trans Biomed Eng, 53(9):1794-801, 2006. [ bib \| http \| Abstract ]
[BSL⁺01]	G. Bonmassar, D. P. Schwartz, A. K. Liu, K. K. Kwong, A. M. Dale, and J. W. Belliveau. Spatiotemporal brain imaging of visual-evoked activity using interleaved EEG and fMRI recordings. NeuroImage, 13(6.1):1035-1043, 2001. [ bib \| Abstract ]
[BW97]	P. A. Bandettini and E. C. Wong. A hypercapnia-based normalization method for improved spatial localization of human brain activation with fMRI. NMR Biomed, 10(4-5):197-203, 1997. [ bib \| http \| Abstract ]
[CAS⁺05]	E. Comi, P. Annovazzi, A. M. Silva, M. Cursi, V. Blasi, M. Cadioli, A. Inuggi, A. Falini, G. Comi, and L. Leocani. Visual evoked potentials may be recorded simultaneously with fMRI scanning: A validation study. Hum Brain Mapp, 24(4):291-8, 2005. [ bib \| http \| Abstract ]
[CCHJ06]	J. K. Choi, Y. I. Chen, E. Hamel, and B. G. Jenkins. Brain hemodynamic changes mediated by dopamine receptors: Role of the cerebral microvasculature in dopamine-mediated neurovascular coupling. Neuroimage, 2006. [ bib \| http \| Abstract ]
[CGL03]	K. Caesar, L. Gold, and M. Lauritzen. Context sensitivity of activity-dependent increases in cerebral blood flow. Proc Natl Acad Sci U S A, 100(7):4239-44, 2003. [ bib \| http \| Abstract ]
[CGSE01]	M. S. Cohen, R. I. Goldman, J. Stern, and J. Engel, Jr. Simultaneous EEG and fMRI made easy. NeuroImage, 13(6 Supp.1):S6, January 2001. [ bib \| http ]
[CPM⁺03]	P. Ciuciu, J. B. Poline, G. Marrelec, J. Idier, C. Pallier, and H. Benali. Unsupervised robust nonparametric estimation of the hemodynamic response function for any fMRI experiment. IEEE Trans Med Imaging, 22(10):1235-1251, 2003. [ bib \| http \| Abstract ]
[CPST98]	A.F. Cannestra, N. Pouratian, M.H. Shomer, and A.W. Toga. Refractory periods observed by intrinsic signal and fluorescent dye imaging. J Neurophysiol, 80(3):1522-32, 1998. [ bib \| http \| Abstract ]
[CRBF02]	C. Christmann, M. Ruf, D. F. Braus, and H. Flor. Simultaneous electroencephalography and functional magnetic resonance imaging of primary and secondary somatosensory cortex in humans after electrical stimulation. Neurosci Lett, 333(1):69-73, 2002. [ bib \| http \| Abstract ]
[CRS⁺04]	E. R. Cohen, E. Rostrup, K. Sidaros, T. E. Lund, O. B. Paulson, K. Ugurbil, and S. G. Kim. Hypercapnic normalization of BOLD fMRI: comparison across field strengths and pulse sequences. Neuroimage, 23(2):613-24, 2004. [ bib \| http \| Abstract ]
[CWT01]	K. Cheng, R. A. Waggoner, and K. Tanaka. Human ocular dominance columns as revealed by high-field functional magnetic resonance imaging. Neuron, 32(2):359-74, 2001. [ bib \| http \| Abstract ]
[Coh97]	M. S. Cohen. Parametric analysis of fMRI data using linear systems methods. NeuroImage, 6(2):93-103, 1997. [ bib \| http \| Abstract ]
[DDA⁺03]	A. Devor, A. K. Dunn, M. L. Andermann, I. Ulbert, D. A. Boas, and A. M. Dale. Coupling of total hemoglobin concentration, oxygenation, and neural activity in rat somatosensory cortex. Neuron, 39(2):353-359, 2003. [ bib \| Abstract ]
[DF03]	P. Dechent and J. Frahm. Functional somatotopy of finger representations in human primary motor cortex. Hum Brain Mapp, 18(4):272-283, 2003. [ bib \| http \| Abstract ]
[DF06]	T. Deneux and O. Faugeras. Using nonlinear models in fMRI data analysis: Model selection and activation detection. Neuroimage, 32(4):1669-89, 2006. [ bib \| http \| Abstract ]
[DFS99]	A. M. Dale, B. Fischl, and M. I. Sereno. Cortical surface-based analysis. I. Segmentation and surface reconstruction. NeuroImage, 9(2):179-194, 1999. [ bib \| http \| Abstract ]
[DGDPF⁺02]	C. Del Gratta, S. Della Penna, A. Ferretti, R. Franciotti, V. Pizzella, A. Tartaro, K. Torquati, L. Bonomo, G. L. Romani, and P. M. Rossini. Topographic organization of the human primary and secondary somatosensory cortices: comparison of fMRI and MEG findings. Neuroimage, 17(3):1373-83, 2002. [ bib \| http \| Abstract ]
[DH01]	A. M. Dale and E. Halgren. Spatiotemporal mapping of brain activity by integration of multiple imaging modalities. Curr Opin Neurobiol, 11(2):202-208, 2001. [ bib \| Abstract ]
[DM04]	A. Delorme and S. Makeig. EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis. J Neurosci Methods, 134(1):9-21, 2004. [ bib \| http \| Abstract ]
[DRB⁺06]	J. S. Damoiseaux, S. A. Rombouts, F. Barkhof, P. Scheltens, C. J. Stam, S. M. Smith, and C. F. Beckmann. Consistent resting-state networks across healthy subjects. Proc Natl Acad Sci U S A, 103(37):13848-53, 2006. [ bib \| http \| Abstract ]
[DShFL03]	B. Diehl, A. Salek-haddadi, D. R. Fish, and L. Lemieux. Mapping of spikes, slow waves, and motor tasks in a patient with malformation of cortical development using simultaneous EEG and fMRI. Magn Reson Imaging, 21(10):1167-73, 2003. [ bib \| http \| Abstract ]
[DSRK00]	E.A. Disbrow, D.A. Slutsky, T.P. Roberts, and L.A. Krubitzer. Functional MRI at 1.5 tesla: a comparison of the blood oxygenation level-dependent signal and electrophysiology. Proc Natl Acad Sci U S A, 97(17):9718-23, 2000. [ bib \| http \| Abstract ]
[DSS⁺07]	S. Debener, A. Strobel, B. Sorger, J. Peters, C. Kranczioch, A. K. Engel, and R. Goebel. Improved quality of auditory event-related potentials recorded simultaneously with 3-T fMRI: Removal of the ballistocardiogram artefact. Neuroimage, 34(2):587-97, 2007. [ bib \| http \| Abstract ]
[DUS⁺05]	S. Debener, M. Ullsperger, M. Siegel, K. Fiehler, D. Y. von Cramon, and A. K. Engel. Trial-by-trial coupling of concurrent electroencephalogram and functional magnetic resonance imaging identifies the dynamics of performance monitoring. J Neurosci, 25(50):11730-7, 2005. [ bib \| http \| Abstract ]
[DUSE06]	S. Debener, M. Ullsperger, M. Siegel, and A. K. Engel. Single-trial EEG-fMRI reveals the dynamics of cognitive function. Trends Cogn Sci, 10(12):558-63, 2006. [ bib \| http \| Abstract ]
[DXW⁺06]	E. Duff, J. Xiong, B. Wang, R. Cunnington, P. Fox, and G. Egan. Complex spatio-temporal dynamics of fMRI BOLD: A study of motor learning. Neuroimage, 2006. [ bib \| http \| Abstract ]
[ECM⁺07]	T. Eichele, V. D. Calhoun, M. Moosmann, K. Specht, M. L. Jongsma, R. Q. Quiroga, H. Nordby, and K. Hugdahl. Unmixing concurrent EEG-fMRI with parallel independent component analysis. Int J Psychophysiol, 2007. [ bib \| http \| Abstract ]
[ESM⁺05]	T. Eichele, K. Specht, M. Moosmann, M. L. Jongsma, R. Q. Quiroga, H. Nordby, and K. Hugdahl. Assessing the spatiotemporal evolution of neuronal activation with single-trial event-related potentials and functional MRI. Proc Natl Acad Sci U S A, 102(49):17798-803, 2005. [ bib \| http \| Abstract ]
[FBW98]	L. R. Frank, R. B. Buxton, and E. C. Wong. Probabilistic analysis of functional magnetic resonance imaging data. Magn Reson Med, 39(1):132-148, 1998. [ bib \| http \| Abstract ]
[FFJ⁺98]	K. J. Friston, P. Fletcher, O. Josephs, A. Holmes, M. D. Rugg, and R. Turner. Event-related fMRI: characterizing differential responses. NeuroImage, 7(1):30-40, 1998. [ bib \| http \| Abstract ]
[FG03]	E. Formisano and R. Goebel. Tracking cognitive processes with functional MRI mental chronometry. Curr Opin Neurobiol, 13(2):174-181, 2003. [ bib \| http \| Abstract ]
[FMJ03]	J. J. Foxe, M. E. McCourt, and D. C. Javitt. Right hemisphere control of visuospatial attention: line-bisection judgments evaluated with high-density electrical mapping and source analysis. NeuroImage, 19(3):710-726, 2003. [ bib \| http \| Abstract ]
[FMTP00]	K. J. Friston, A. Mechelli, R. Turner, and C. J. Price. Nonlinear responses in fMRI: the Balloon model, Volterra kernels, and other hemodynamics. NeuroImage, 12(4):466-477, 2000. [ bib \| Abstract ]
[FOG04]	J.R. Foucher, H. Otzenberger, and D. Gounot. Where arousal meets attention: a simultaneous fMRI and EEG recording study. Neuroimage, 22(2):688-697, 2004. [ bib \| http \| Abstract ]
[FWKW99]	M. Fuchs, M. Wagner, T. Kohler, and H.A. Wischmann. Linear and nonlinear current density reconstructions. J Clin Neurophysiol, 16(3):267-295, 1999. [ bib \| http \| Abstract ]
[FWW⁺98]	M. Fuchs, M. Wagner, H. A. Wischmann, T. Kohler, A. Theissen, R. Drenckhahn, and H. Buchner. Improving source reconstructions by combining bioelectric and biomagnetic data. Electroencephalogr Clin Neurophysiol, 107(2):93-111, 1998. [ bib \| http \| Abstract ]
[Fri02]	K. J. Friston. Bayesian estimation of dynamical systems: an application to fMRI. Neuroimage, 16(2):513-30, 2002. [ bib \| http \| Abstract ]
[GB67]	L. A. Geddes and L. E. Baker. The specific resistance of biological material-a compendium of data for the biomedical engineer and physiologist. Med Biol Eng, 5(3):271-293, 1967. [ bib \| http ]
[GCG⁺03]	G. Garreffa, M. Carni, G. Gualniera, G. B. Ricci, L. Bozzao, D. De Carli, P. Morasso, P. Pantano, C. Colonnese, V. Roma, and B. Maraviglia. Real-time MR artifacts filtering during continuous EEG/fMRI acquisition. Magn Reson Imaging, 21(10):1175-1189, 2003. [ bib \| http \| Abstract ]
[GNH00]	C. Goutte, F. A. Nielsen, and L. K. Hansen. Modeling the haemodynamic response in fMRI using smooth FIR filters. IEEE Trans Med Imaging, 19(12):1188-201, 2000. [ bib \| http \| Abstract ]
[GNP⁺06]	P. Grummich, C. Nimsky, E. Pauli, M. Buchfelder, and O. Ganslandt. Combining fMRI and MEG increases the reliability of presurgical language localization: A clinical study on the difference between and congruence of both modalities. Neuroimage, 2006. [ bib \| http \| Abstract ]
[GPAF03]	D. R. Gitelman, W. D. Penny, J. Ashburner, and K. J. Friston. Modeling regional and psychophysiologic interactions in fMRI: the importance of hemodynamic deconvolution. NeuroImage, 19(1):200-207, 2003. [ bib \| http \| Abstract ]
[GPK⁺07]	S. I. Goncalves, P. J. Pouwels, J. P. Kuijer, R. M. Heethaar, and J. C. de Munck. Artifact removal in co-registered EEG/fMRI by selective average subtraction. Clin Neurophysiol, 2007. [ bib \| http \| Abstract ]
[GSEC00]	R. I. Goldman, J. M. Stern, J. Engel, Jr, and M. S. Cohen. Acquiring simultaneous EEG and functional MRI. Clin Neurophysiol, 111(11):1974-1980, 2000. [ bib \| http \| Abstract ]
[GSEC02]	R. I. Goldman, J. M. Stern, J. Engel, Jr, and M. S. Cohen. Simultaneous EEG and fMRI of the alpha rhythm. Neuroreport, 13(18):2487-2492, 2002. [ bib \| http \| Abstract ]
[GdMV⁺03]	S. I. Goncalves, J. C. de Munck, J. P. Verbunt, F. Bijma, R. M. Heethaar, and F. Lopes da Silva. In vivo measurement of the brain and skull resistivities using an EIT-based method and realistic models for the head. IEEE Trans Biomed Eng, 50(6):754-767, 2003. [ bib \| http \| Abstract ]
[GdMP⁺05]	S.I. Goncalves, J.C. de Munck, P.J. Pouwels, R. Schoonhoven, J.P. Kuijer, N.M. Maurits, J.M. Hoogduin, E.J. Van Someren, R.M. Heethaar, and F.H. Lopes da Silva. Correlating the alpha rhythm to BOLD using simultaneous EEG/fMRI: Inter-subject variability. Neuroimage, 2005. [ bib \| http \| Abstract ]
[GdPMMM⁺04]	R. Grave de Peralta Menendez, M. M. Murray, C. M. Michel, R. Martuzzi, and S. L. Gonzalez Andino. Electrical neuroimaging based on biophysical constraints. NeuroImage, 21(2):527-539, 2004. [ bib \| http \| Abstract ]
[Glo99]	G. H. Glover. Deconvolution of impulse response in event-related BOLD fMRI. NeuroImage, 9(4):416-429, 1999. [ bib \| http \| Abstract ]
[Gre93]	R. E. Greenblatt. Probabilistic reconstruction of multiple sources in the bioelectromagnetic inverse problem. Inverse Problems, 9(2):271-284, 1993. [ bib \| Abstract ]
[HB03]	A. Hillebrand and G. R. Barnes. The use of anatomical constraints with MEG beamformers. NeuroImage, 20(4):2302-2313, 2003. [ bib \| http \| Abstract ]
[HHBM⁺95]	F. R. Huang-Hellinger, H. C. Breiter, G. McCormack, M. S. Cohen, K. K. Kwong, J. P. Sutton, R. L. Savoy, R. M. Weisskoff, T. L. Davis, J. R. Baker, J. W. Belliveau, and B. R. Rosen. Simultaneous functional magnetic resonance imaging and electrophysiological recording. Hum Brain Mapp, 3:13-25, 1995. [ bib \| Abstract ]
[HCHHJ95]	R. A. Hill, K. H. Chiappa, F. Huang-Hellinger, and B. G. Jenkins. EEG during MR imaging: differentiation of movement artifact from paroxysmal cortical activity. Neurology, 45(10):1942-1943, 1995. [ bib \| http ]
[HD07]	C. S. Herrmann and S. Debener. Simultaneous recording of EEG and BOLD responses: A historical perspective. Int J Psychophysiol, 2007. [ bib \| http \| Abstract ]
[HFT00]	B. Horwitz, K. J. Friston, and J. G. Taylor. Neural modeling and functional brain imaging: an overview. Neural Netw, 13(8-9):829-846, 2000. [ bib \| Abstract ]
[HHD⁺06]	T. J. Huppert, R. D. Hoge, S. G. Diamond, M. A. Franceschini, and D. A. Boas. A temporal comparison of BOLD, ASL, and NIRS hemodynamic responses to motor stimuli in adult humans. Neuroimage, 29(2):368-82, 2006. [ bib \| http \| Abstract ]
[HHP05]	Y. O. Halchenko, S. J. Hanson, and B. A. Pearlmutter. Multimodal Integration: fMRI, MRI, EEG, MEG, chapter 8, pages 223-265. Signal Processing and Communications. Dekker, 2005. [ bib \| Abstract ]
[HHW03]	J. Hu, J. Hu, and Y. Wang. Application of weighted minimum-norm estimation with Tikhonov regularization for neuromagnetic source imaging. Sheng Wu Yi Xue Gong Cheng Xue Za Zhi, 20(1):157-161, 2003. [ bib \| Abstract ]
[HM01]	S. A. Huettel and G. McCarthy. Regional differences in the refractory period of the hemodynamic response: an event-related fMRI study. NeuroImage, 14(5):967-976, 2001. [ bib \| http \| Abstract ]
[HM03]	M. P. Harms and J. R. Melcher. Detection and quantification of a wide range of fMRI temporal responses using a physiologically-motivated basis set. Hum Brain Mapp, 20(3):168-83, 2003. [ bib \| http \| Abstract ]
[HNSL01]	L. K. Hansen, F. A. Nielsen, S. C. Strother, and N. Lange. Consensus inference in neuroimaging. Neuroimage, 13(6 Pt 1):1212-8, 2001. [ bib \| http \| Abstract ]
[HOG⁺98]	H. J. Huppertz, M. Otte, C. Grimm, R. Kristeva-Feige, T. Mergner, and C. H. Lucking. Estimation of the accuracy of a surface matching technique for registration of EEG and MRI data. Electroencephalogr Clin Neurophysiol, 106(5):409-415, 1998. [ bib \| http \| Abstract ]
[HP02]	B. Horwitz and D. Poeppel. How can EEG/MEG and fMRI/PET data be combined? Hum Brain Mapp, 17(1):1-3, 2002. [ bib ]
[HRSG04]	S. G. Horovitz, B. Rossion, P. Skudlarski, and J. C. Gore. Parametric design and correlational analyses help integrating fMRI and electrophysiological data during face processing. NeuroImage, 22(4):1587-1595, 2004. [ bib \| http \| Abstract ]
[HS89]	M. S. Hamalainen and J. Sarvas. Realistic conductivity geometry model of the human head for interpretation of neuromagnetic data. IEEE Trans Biomed Eng, 36(2):165-171, 1989. [ bib \| http \| Abstract ]
[HSG02]	S. G. Horovitz, P. Skudlarski, and J. C. Gore. Correlations and dissociations between BOLD signal and P300 amplitude in an auditory oddball task: a parametric approach to combining fMRI and ERP. Magn Reson Imaging, 20(4):319-325, 2002. [ bib \| http \| Abstract ]
[HSHL⁺05]	K. Hamandi, A. Salek Haddadi, A. Liston, H. Laufs, D. R. Fish, and L. Lemieux. fMRI temporal clustering analysis in patients with frequent interictal epileptiform discharges: comparison with EEG-driven analysis. Neuroimage, 26(1):309-16, 2005. desribes shortcomming of the Temporal Clustering done by Morgan (Resting functional MRI with temporal clustering without EEG). [ bib \| http \| Abstract ]
[HSL⁺04]	M. X. Huang, J. J. Shih, R. R. Lee, D. L. Harrington, R. J. Thoma, M. P. Weisend, F. Hanlon, K. M. Paulson, T. Li, K. Martin, G. A. Millers, and J. M. Canive. Commonalities and differences among vectorized beamformers in electromagnetic source imaging. Brain Topogr, 16(3):139-158, 2004. [ bib \| http \| Abstract ]
[HTF⁺04]	F. T. Husain, M. A. Tagamets, S. J. Fromm, A. R. Braun, and B. Horwitz. Relating neuronal dynamics for auditory object processing to neuroimaging activity: a computational modeling and an fMRI study. NeuroImage, 21(4):1701-1720, 2004. [ bib \| http \| Abstract ]
[HTR⁺02]	J. Haueisen, D. S. Tuch, C. Ramon, P.H. Schimpf, V. J. Wedeen, J. S. George, and J.W. Belliveau. The influence of brain tissue anisotropy on human EEG and MEG. NeuroImage, 15(1):159-166, 2002. [ bib \| http \| Abstract ]
[HWV⁺04]	T. Hinterberger, N. Weiskopf, R. Veit, B. Wilhelm, E. Betta, and N. Birbaumer. An EEG-driven brain-computer interface combined with functional magnetic resonance imaging (fMRI). IEEE Trans Biomed Eng, 51(6):971-4, 2004. [ bib \| http \| Abstract ]
[Hau04]	O. Hauk. Keep it simple: a case for using classical minimum norm estimation in the analysis of EEG and MEG data. NeuroImage, 21(4):1612-1621, 2004. [ bib \| http \| Abstract ]
[HHN88]	B. K. P. Horn, H. Hilden, and S. Negahdaripour. Closed-form solution of absolute orientation using orthonormal matrices. J. Opt. Soc. Amer., 5(7):1127-1135, July 1988. [ bib ]
[Hor87]	B. K. P. Horn. Closed-form solution of absolute orientation using unit quaternions. J. Opt. Soc. Amer., 4(4):629-642, April 1987. [ bib ]
[ILZ⁺06]	C. H. Im, Z. Liu, N. Zhang, W. Chen, and B. He. Functional cortical source imaging from simultaneously recorded ERP and fMRI. J Neurosci Methods, 2006. [ bib \| http \| Abstract ]
[IWS⁺93]	J. R. Ives, S. Warach, F. Schmitt, R. R. Edelman, and D. L. Schomer. Monitoring the patient's EEG during echo planar MRI. Electroencephalogr Clin Neurophysiol, 87(6):417-420, 1993. [ bib \| http \| Abstract ]
[JBM⁺04]	K. Jerbi, S. Baillet, J. C. Mosher, G. Nolte, L. Garnero, and R. M. Leahy. Localization of realistic cortical activity in MEG using current multipoles. NeuroImage, 22(2):779-793, 2004. [ bib \| http \| Abstract ]
[JLS87]	B. Jeffs, R. Leahy, and M. Singh. An evaluation of methods for neuromagnetic image reconstruction. IEEE Trans Biomed Eng, 34(9):713-723, 1987. [ bib \| http ]
[KAS⁺00]	K. Krakow, P. J. Allen, M. R. Symms, L. Lemieux, O. Josephs, and D. R. Fish. EEG recording during fMRI experiments: image quality. Hum Brain Mapp, 10(1):10-15, 2000. [ bib \| http \| Abstract ]
[KBG⁺06]	E. Kobayashi, A. P. Bagshaw, C. Grova, J. Gotman, and F. Dubeau. Grey matter heterotopia: what EEG-fMRI can tell us about epileptogenicity of neuronal migration disorders. Brain, 129(Pt 2):366-74, 2006. [ bib \| http \| Abstract ]
[KCN01]	D. Kozinska, F. Carducci, and K. Nowinski. Automatic alignment of EEG/MEG and MRI data sets. Clin Neurophysiol, 112(8):1553-1561, 2001. [ bib \| Abstract ]
[KF04b]	S.J. Kiebel and K.J. Friston. Statistical parametric mapping for event-related potentials (II): a hierarchical temporal model. Neuroimage, 22(2):503-20, 2004. [ bib \| http \| Abstract ]
[KF04a]	S.J. Kiebel and K.J. Friston. Statistical parametric mapping for event-related potentials: I. Generic considerations. Neuroimage, 22(2):492-502, 2004. [ bib \| http \| Abstract ]
[KGF00]	S. J. Kiebel, R. Goebel, and K. J. Friston. Anatomically informed basis functions. NeuroImage, 11(6.1):656-667, 2000. [ bib \| Abstract ]
[KHS⁺99]	A. Korvenoja, J. Huttunen, E. Salli, H. Pohjonen, S. Martinkauppi, J. M. Palva, L. Lauronen, J. Virtanen, R. J. Ilmoniemi, and H. J. Aronen. Activation of multiple cortical areas in response to somatosensory stimulation: combined magnetoencephalographic and functional magnetic resonance imaging. Hum Brain Mapp, 8(1):13-27, 1999. [ bib \| http \| Abstract ]
[KHWvC01]	F. Kruggel, C. S. Herrmann, C. J. Wiggins, and D. Y. von Cramon. Hemodynamic and electroencephalographic responses to illusory figures: recording of the evoked potentials during functional MRI. NeuroImage, 14(6):1327-1336, 2001. [ bib \| http \| Abstract ]
[KLM⁺01]	K. Krakow, L. Lemieux, D. Messina, C. A. Scott, M. R. Symms, J. S. Duncan, and D. R. Fish. Spatio-temporal imaging of focal interictal epileptiform activity using EEG-triggered functional MRI. Epileptic Disord, 3(2):67-74, 2001. [ bib \| http \| Abstract ]
[KMHF05]	J.M. Kilner, J. Mattout, R. Henson, and K.J. Friston. Hemodynamic correlates of EEG: A heuristic. Neuroimage, 28(1):280-6, 2005. [ bib \| http \| Abstract ]
[KNM⁺01]	H. Kober, C. Nimsky, M. Moller, P. Hastreiter, R. Fahlbusch, and O. Ganslandt. Correlation of sensorimotor activation with functional magnetic resonance imaging and magnetoencephalography in presurgical functional imaging: a spatial analysis. NeuroImage, 14(5):1214-1228, 2001. [ bib \| http \| Abstract ]
[KNV⁺02]	H. Kober, C. Nimsky, J. Vieth, R. Fahlbusch, and O. Ganslandt. Co-registration of function and anatomy in frameless stereotaxy by contour fitting. Stereotact Funct Neurosurg, 79(3-4):272-283, 2002. [ bib \| http \| Abstract ]
[KRO⁺04]	D. S. Kim, I. Ronen, C. Olman, S. G. Kim, K. Ugurbil, and L. J. Toth. Spatial relationship between neuronal activity and BOLD functional MRI. Neuroimage, 21(3):876-85, 2004. [ bib \| http \| Abstract ]
[KWHvC00]	F. Kruggel, C. J. Wiggins, C. S. Herrmann, and D. Y. von Cramon. Recording of the event-related potentials during functional MRI at 3.0 Tesla field strength. Magn Reson Med, 44(2):277-282, 2000. [ bib \| http \| Abstract ]
[KWS⁺99]	K. Krakow, F. G. Woermann, M. R. Symms, P. J. Allen, L. Lemieux, G. J. Barker, J. S. Duncan, and D. R. Fish. EEG-triggered functional MRI of interictal epileptiform activity in patients with partial seizures. Brain, 122(9):1679-1688, 1999. [ bib \| http \| Abstract ]
[KWW⁺99]	K. Krakow, U. C. Wieshmann, F. G. Woermann, M. R. Symms, M. A. McLean, L. Lemieux, P. J. Allen, G. J. Barker, D. R. Fish, and J. S. Duncan. Multimodal MR imaging: functional, diffusion tensor, and chemical shift imaging in a patient with localization-related epilepsy. Epilepsia, 40(10):1459-1462, 1999. [ bib \| http \| Abstract ]
[KYP04]	K. H. Kim, H. W. Yoon, and H. W. Park. Improved ballistocardiac artifact removal from the electroencephalogram recorded in fMRI. J Neurosci Methods, 135(1-2):193-203, 2004. [ bib \| http \| Abstract ]
[Kim05]	D.S. Kim. The cutting edge of fMRI and high-field fMRI. Int Rev Neurobiol, 66:147-66, 2005. [ bib \| http ]
[LAF⁺97]	L. Lemieux, P. J. Allen, F. Franconi, M. R. Symms, and D. R. Fish. Recording of EEG during fMRI experiments: patient safety. Magn Reson Med, 38(6):943-952, 1997. [ bib \| http \| Abstract ]
[LBD98]	A. K. Liu, J. W. Belliveau, and A. M. Dale. Spatiotemporal imaging of human brain activity using functional MRI constrained magnetoencephalography data: Monte Carlo simulations. Proc Natl Acad Sci U S A, 95(15):8945-8950, 1998. [ bib \| Abstract ]
[LBG⁺06]	Y. Lu, A. P. Bagshaw, C. Grova, E. Kobayashi, F. Dubeau, and J. Gotman. Using voxel-specific hemodynamic response function in EEG-fMRI data analysis. Neuroimage, 32(1):238-47, 2006. [ bib \| http \| Abstract ]
[LBP⁺00]	F. Lazeyras, O. Blanke, S. Perrig, I. Zimine, X. Golay, J. Delavelle, C. M. Michel, N. de Tribolet, J. G. Villemure, and M. Seeck. EEG-triggered functional MRI in patients with pharmacoresistant epilepsy. J Magn Reson Imaging, 12(1):177-185, 2000. [ bib \| http \| Abstract ]
[LDB02]	A. K. Liu, A. M. Dale, and J. W. Belliveau. Monte Carlo simulation studies of EEG and MEG localization accuracy. Hum Brain Mapp, 16(1):47-62, 2002. [ bib \| Abstract ]
[LDMH⁺06]	A. D. Liston, J. C. De Munck, K. Hamandi, H. Laufs, P. Ossenblok, J. S. Duncan, and L. Lemieux. Analysis of EEG-fMRI data in focal epilepsy based on automated spike classification and Signal Space Projection. Neuroimage, 2006. [ bib \| http \| Abstract ]
[LES⁺03]	E. Liebenthal, M. L. Ellingson, M. V. Spanaki, T. E. Prieto, K. M. Ropella, and J. R. Binder. Simultaneous ERP and fMRI of the auditory cortex in a passive oddball paradigm. NeuroImage, 19(4):1395-1404, 2003. [ bib \| http \| Abstract ]
[LGK⁺07]	Y. Lu, C. Grova, E. Kobayashi, F. Dubeau, and J. Gotman. Using voxel-specific hemodynamic response function in EEG-fMRI data analysis: An estimation and detection model. Neuroimage, 34(1):195-203, 2007. [ bib \| http \| Abstract ]
[LKB⁺03]	H. Laufs, A. Kleinschmidt, A. Beyerle, E. Eger, A. Salek-Haddadi, C. Preibisch, and K. Krakow. EEG-correlated fMRI of human alpha activity. NeuroImage, 19(4):1463-1476, 2003. [ bib \| http \| Abstract ]
[LKF01]	L. Lemieux, K. Krakow, and D. R. Fish. Comparison of spike-triggered functional MRI BOLD activation and EEG dipole model localization. NeuroImage, 14(5):1097-1104, 2001. [ bib \| http \| Abstract ]
[LKS⁺03]	H. Laufs, K. Krakow, P. Sterzer, E. Eger, A. Beyerle, A. Salek-Haddadi, and A. Kleinschmidt. Electroencephalographic signatures of attentional and cognitive default modes in spontaneous brain activity fluctuations at rest. Proc Natl Acad Sci U S A, 100(19):11053-11058, 2003. [ bib \| http \| Abstract ]
[LP04]	N.K. Logothetis and J. Pfeuffer. On the nature of the BOLD fMRI contrast mechanism. Magn Reson Imaging, 22(10):1517-1531, 2004. [ bib \| http \| Abstract ]
[LPA⁺01]	N. K. Logothetis, J. Pauls, M. Augath, T. Trinath, and A. Oeltermann. Neurophysiological investigation of the basis of the fMRI signal. Nature, 412(6843):150-157, 2001. [ bib \| http \| Abstract ]
[LSJ⁺93]	T. D. Lagerlund, F. W. Sharbrough, C. R. Jack, Jr, B. J. Erickson, D. C. Strelow, K. M. Cicora, and N. E. Busacker. Determination of 10-20 system electrode locations using magnetic resonance image scanning with markers. Electroencephalogr Clin Neurophysiol, 86(1):7-14, 1993. [ bib \| http \| Abstract ]
[LSM⁺01]	G. Lantz, L. Spinelli, R. G. Menendez, M. Seeck, and C. M. Michel. Localization of distributed sources and comparison with functional MRI. Epileptic Disord, Special Issue:45-58, 2001. [ bib \| http \| Abstract ]
[LW04]	N. K. Logothetis and B. A. Wandell. Interpreting the BOLD signal. Annu Rev Physiol, 66:735-769, 2004. [ bib \| http \| Abstract ]
[LWA⁺06]	F. H. Lin, T. Witzel, S. P. Ahlfors, S. M. Stufflebeam, J. W. Belliveau, and M. S. Hamalainen. Assessing and improving the spatial accuracy in MEG source localization by depth-weighted minimum-norm estimates. Neuroimage, 31(1):160-71, 2006. [ bib \| http \| Abstract ]
[LWL⁺01]	C. Lamm, C. Windischberger, U. Leodolter, E. Moser, and H. Bauer. Co-registration of EEG and MRI data using matching of spline interpolated and MRI-segmented reconstructions of the scalp surface. Brain Topogr, 14(2):93-100, 2001. [ bib \| http \| Abstract ]
[LZB⁺01]	F. Lazeyras, I. Zimine, O. Blanke, S. H. Perrig, and M. Seeck. Functional MRI with simultaneous EEG recording: feasibility and application to motor and visual activation. J Magn Reson Imaging, 13(6):943-948, 2001. [ bib \| http \| Abstract ]
[Log03b]	N. K. Logothetis. The underpinnings of the BOLD functional magnetic resonance imaging signal. J Neurosci, 23(10):3963-3971, 2003. [ bib \| http ]
[MBC⁺03]	G. Marrelec, H. Benali, P. Ciuciu, M. Pelegrini-Issac, and J. B. Poline. Robust Bayesian estimation of the hemodynamic response function in event-related BOLD fMRI using basic physiological information. Hum Brain Mapp, 19(1):1-17, 2003. [ bib \| http \| Abstract ]
[MBWH06]	Y. Mazaheri, B. B. Biswal, B. D. Ward, and J. S. Hyde. Measurements of tissue T(1) spin-lattice relaxation time and discrimination of large draining veins using transient EPI data sets in BOLD-weighted fMRI acquisitions. Neuroimage, 32(2):603-15, 2006. [ bib \| http \| Abstract ]
[MCH05]	V. Menon and S. Crottaz-Herbette. Combined EEG and fMRI studies of human brain function. Int Rev Neurobiol, 66:291-321, 2005. [ bib \| http ]
[MF05]	K. Mathiak and A.J. Fallgatter. Combining magnetoencephalography and functional magnetic resonance imaging. Int Rev Neurobiol, 68:121-48, 2005. [ bib \| http ]
[MFL⁺97]	V. Menon, J. M. Ford, K. O. Lim, G. H. Glover, and A. Pfefferbaum. Combined event-related fMRI and EEG evidence for temporal-parietal cortex activation during target detection. Neuroreport, 8(14):3029-3037, 1997. [ bib \| http \| Abstract ]
[MH90]	C. E. Miller and C. S. Henriquez. Finite element analysis of bioelectric phenomena. Crit Rev Biomed Eng, 18(3):207-233, 1990. [ bib \| http \| Abstract ]
[MHBB06]	H. Mandelkow, P. Halder, P. Boesiger, and D. Brandeis. Synchronization facilitates removal of MRI artefacts from concurrent EEG recordings and increases usable bandwidth. Neuroimage, 32(3):1120-6, 2006. [ bib \| http \| Abstract ]
[MJS⁺04]	C. Mulert, L. Jager, R. Schmitt, P. Bussfeld, O. Pogarell, H. J. Moller, G. Juckel, and U. Hegerl. Integration of fMRI and simultaneous EEG: towards a comprehensive understanding of localization and time-course of brain activity in target detection. NeuroImage, 22(1):83-94, 2004. [ bib \| http \| Abstract ]
[MKV⁺06]	F. Musso, A. Konrad, G. Vucurevic, C. Schaffner, B. Friedrich, P. Frech, P. Stoeter, and G. Winterer. Distributed BOLD-response in association cortex vector state space predicts reaction time during selective attention. Neuroimage, 29(4):1311-8, 2006. [ bib \| http \| Abstract ]
[MML⁺04]	C. M. Michel, M. M. Murray, G. Lantz, S. Gonzalez, L. Spinelli, and R. Grave De Peralta. EEG source imaging. Clin Neurophysiol, 115(10):2195-2222, 2004. [ bib \| http \| Abstract ]
[MO06]	S. Murakami and Y. Okada. Contributions of principal neocortical neurons to magnetoencephalography and electroencephalography signals. J Physiol, 575(Pt 3):925-36, 2006. [ bib \| http \| Abstract ]
[MPF01]	A. Mechelli, C. J. Price, and K. J. Friston. Nonlinear coupling between evoked rCBF and BOLD signals: a simulation study of hemodynamic responses. NeuroImage, 14(4):862-872, 2001. [ bib \| Abstract ]
[MPP⁺06]	J. Mattout, C. Phillips, W. D. Penny, M. D. Rugg, and K. J. Friston. MEG source localization under multiple constraints: an extended Bayesian framework. Neuroimage, 30(3):753-67, 2006. [ bib \| http \| Abstract ]
[MRK⁺03]	M. Moosmann, P. Ritter, I. Krastel, A. Brink, S. Thees, F. Blankenburg, B. Taskin, H. Obrig, and A. Villringer. Correlates of alpha rhythm in functional magnetic resonance imaging and near infrared spectroscopy. NeuroImage, 20(1):145-158, 2003. [ bib \| http \| Abstract ]
[MRS⁺04]	M. J. Makiranta, J. Ruohonen, K. Suominen, E. Sonkajarvi, T. Salomaki, V. Kiviniemi, T. Seppanen, S. Alahuhta, V. Jantti, and O. Tervonen. BOLD-contrast functional MRI signal changes related to intermittent rhythmic delta activity in EEG during voluntary hyperventilation-simultaneous EEG and fMRI study. NeuroImage, 22(1):222-231, 2004. [ bib \| http \| Abstract ]
[MS04]	J.A. Malmivuo and V.E. Suihko. Effect of skull resistivity on the spatial resolutions of EEG and MEG. IEEE Trans Biomed Eng, 51(7):1276-1280, 2004. [ bib \| http \| Abstract ]
[MVHM02]	M. J. McKeown, V. Varadarajan, S. Huettel, and G. McCarthy. Deterministic and stochastic features of fMRI data: implications for analysis of event-related experiments. J Neurosci Methods, 118(2):103-113, 2002. [ bib \| http \| Abstract ]
[MMVSM⁺04]	E. Martinez-Montes, P. A. Valdes-Sosa, F. Miwakeichi, R. I. Goldman, and M. S. Cohen. Concurrent EEG/fMRI analysis by multiway Partial Least Squares. NeuroImage, 22(3):1023-1034, 2004. [ bib \| http \| Abstract ]
[MWI⁺06]	S. M. Mirsattari, Z. Wang, J. R. Ives, F. Bihari, L. S. Leung, R. Bartha, and R. S. Menon. Linear aspects of transformation from interictal epileptic discharges to BOLD fMRI signals in an animal model of occipital epilepsy. Neuroimage, 30(4):1133-1148, 2006. [ bib \| http \| Abstract ]
[NANTC04]	M. Negishi, M. Abildgaard, T. Nixon, and R. Todd Constable. Removal of time-varying gradient artifacts from EEG data acquired during continuous fMRI. Clin Neurophysiol, 115(9):2181-2192, 2004. [ bib \| http \| Abstract ]
[NBI⁺05]	R. K. Niazy, C. F. Beckmann, G. D. Iannetti, J. M. Brady, and S. M. Smith. Removal of FMRI environment artifacts from EEG data using optimal basis sets. Neuroimage, 28(3):720-37, 2005. [ bib \| http \| Abstract ]
[NCF⁺04]	Y. Nagai, H. D. Critchley, E. Featherstone, P. B. Fenwick, M. R. Trimble, and R. J. Dolan. Brain activity relating to the contingent negative variation: an fMRI investigation. Neuroimage, 21(4):1232-41, 2004. [ bib \| http \| Abstract ]
[NPPC07]	M. Negishi, B. I. Pinus, A. B. Pinus, and R. T. Constable. Origin of the radio frequency pulse artifact in simultaneous EEG-fMRI recording: rectification at the carbon-metal interface. IEEE Trans Biomed Eng, 54(9):1725-7, 2007. [ bib \| http \| Abstract ]
[NS00]	P. L. Nunez and R. B. Silberstein. On the relationship of synaptic activity to macroscopic measurements: does co-registration of EEG with fMRI make sense? Brain Topogr, 13(2):79-96, 2000. [ bib \| http \| Abstract ]
[Nai05]	D.G. Nair. About being BOLD. Brain Res Brain Res Rev, 2005. [ bib \| http \| Abstract ]
[Nie97]	E. Niedermeyer. Alpha rhythms as physiological and abnormal phenomena. Int J Psychophysiol, 26(1-3):31-49, 1997. [ bib \| http \| Abstract ]
[Nol03]	G. Nolte. The magnetic lead field theorem in the quasi-static approximation and its use for magnetoencephalography forward calculation in realistic volume conductors. Phys. Med. Biol., 48:3637-3652, November 2003. [ bib \| http ]
[OGF07]	H. Otzenberger, D. Gounot, and J. R. Foucher. Optimisation of a post-processing method to remove the pulse artifact from EEG data recorded during fMRI: an application to P300 recordings during e-fMRI. Neurosci Res, 57(2):230-9, 2007. [ bib \| http \| Abstract ]
[OLKT90]	S. Ogawa, T. M. Lee, A. R. Kay, and D. W. Tank. Brain magnetic resonance imaging with contrast dependent on blood oxygenation. Proc Natl Acad Sci U S A, 87(24):9868-9872, 1990. [ bib \| http \| Abstract ]
[OLM⁺04]	T. Obata, T.T. Liu, K.L. Miller, W.M. Luh, E.C. Wong, L.R. Frank, and R.B. Buxton. 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(1):144-53, 2004. [ bib \| http \| Abstract ]
[OLNG90]	S. Ogawa, T.M. Lee, A.S. Nayak, and P. Glynn. Oxygenation-sensitive contrast in magnetic resonance image of rodent brain at high magnetic fields. Magn Reson Med, 14(1):68-78, 1990. [ bib \| http \| Abstract ]
[OMT⁺93]	S. Ogawa, R. S. Menon, D. W. Tank, S. . G. Kim, H. Merkle, J. M. Ellermann, and K. Ugurbil. Functional brain mapping by blood oxygenation level-dependent contrast magnetic resonance imaging. a comparison of signal characteristics with a biophysical model. Biophysical Journal, 1993. [ bib \| http ]
[OPH⁺04]	T. R. Oakes, D. A. Pizzagalli, A. M. Hendrick, K. A. Horras, C. L. Larson, H. C. Abercrombie, S. M. Schaefer, J. V. Koger, and R. J. Davidson. Functional coupling of simultaneous electrical and metabolic activity in the human brain. Hum Brain Mapp, 21(4):257-270, 2004. [ bib \| http \| Abstract ]
[PGP93]	G. W. Pruis, B. H. Gilding, and M. J. Peters. A comparison of different numerical methods for solving the forward problem in EEG and MEG. Physiol Meas, 14 Suppl 4A:A1-9, 1993. [ bib \| http \| Abstract ]
[PHL⁺90]	C. Pantev, M. Hoke, K. Lehnertz, B. Lutkenhoner, G. Fahrendorf, and U. Stober. Identification of sources of brain neuronal activity with high spatiotemporal resolution through combination of neuromagnetic source localization (NMSL) and magnetic resonance imaging (MRI). Electroencephalogr Clin Neurophysiol, 75(3):173-184, 1990. [ bib \| Abstract ]
[PKdS04]	J. Parra, S. N. Kalitzin, and F. H. da Silva. Magnetoencephalography: an investigational tool or a routine clinical technique? Epilepsy Behav, 5(3):277-85, 2004. [ bib \| http \| Abstract ]
[PMR⁺05]	C. Phillips, J. Mattout, M. D. Rugg, P. Maquet, and K. J. Friston. An empirical Bayesian solution to the source reconstruction problem in EEG. Neuroimage, 24(4):997-1011, 2005. [ bib \| http \| Abstract ]
[PRF02a]	C. Phillips, M. D. Rugg, and K. J. Friston. Anatomically informed basis functions for EEG source localization: combining functional and anatomical constraints. NeuroImage, 16(3.1):678-695, 2002. [ bib \| Abstract ]
[PRF02b]	C. Phillips, M. D. Rugg, and K. J. Friston. Systematic regularization of linear inverse solutions of the EEG source localization problem. NeuroImage, 17(1):287-301, 2002. [ bib \| http \| Abstract ]
[Pou99]	F. Poupon. Parcellisation systématique du cerveau en volumes d'intérêt. Le cas des structures profondes. Phd thesis, INSA Lyon, Lyon, France, December 1999. [ bib \| .pdf ]
[RAI⁺05]	J. Riera, E. Aubert, K. Iwata, R. Kawashima, X. Wan, and T. Ozaki. Fusing EEG and fMRI based on a bottom-up model: inferring activation and effective connectivity in neural masses. Philos Trans R Soc Lond B Biol Sci, 360(1457):1025-41, 2005. [ bib \| http \| Abstract ]
[RBA⁺91]	B.R. Rosen, J.W. Belliveau, H.J. Aronen, D. Kennedy, B.R. Buchbinder, A. Fischman, M. Gruber, J. Glas, R.M. Weisskoff, M.S. Cohen, and et al. Susceptibility contrast imaging of cerebral blood volume: human experience. Magn Reson Med, 22(2):293-9; discussion 300-3, 1991. [ bib \| http \| Abstract ]
[RBD98]	B. R. Rosen, R. L. Buckner, and A. M. Dale. Event-related functional MRI: past, present, and future. Proc Natl Acad Sci U S A, 95(3):773-780, 1998. [ bib \| http \| Abstract ]
[RBGV07]	P. Ritter, R. Becker, C. Graefe, and A. Villringer. Evaluating gradient artifact correction of EEG data acquired simultaneously with fMRI. Magn Reson Imaging, 25(6):923-32, 2007. [ bib \| http \| Abstract ]
[RBY⁺04]	J. Riera, J. Bosch, O. Yamashita, R. Kawashima, N. Sadato, T. Okada, and T. Ozaki. fMRI activation maps based on the NN-ARx model. Neuroimage, 23(2):680-97, 2004. [ bib \| http \| Abstract ]
[RDML⁺07]	R. Rodionov, F. De Martino, H. Laufs, D. W. Carmichael, E. Formisano, M. Walker, J. S. Duncan, and L. Lemieux. Independent component analysis of interictal fMRI in focal epilepsy: Comparison with general linear model-based EEG-correlated fMRI. Neuroimage, 2007. [ bib \| http \| Abstract ]
[RDVdM⁺06]	P. A. Robinson, P. M. Drysdale, H. Van der Merwe, E. Kyriakou, M. K. Rigozzi, B. Germanoska, and C. J. Rennie. BOLD responses to stimuli: dependence on frequency, stimulus form, amplitude, and repetition rate. Neuroimage, 31(2):585-99, 2006. [ bib \| http \| Abstract ]
[RJW⁺06]	J. J. Riera, J. C. Jimenez, X. Wan, R. Kawashima, and T. Ozaki. Nonlinear local electrovascular coupling. II: From data to neuronal masses. Hum Brain Mapp, 2006. [ bib \| http \| Abstract ]
[RKL⁺05]	E. Rostrup, G.M. Knudsen, I. Law, S. Holm, H.B. Larsson, and O.B. Paulson. The relationship between cerebral blood flow and volume in humans. Neuroimage, 24(1):1-11, 2005. [ bib \| http \| Abstract ]
[RKMvC98]	J. C. Rajapakse, F. Kruggel, J. M. Maisog, and D. Y. von Cramon. Modeling hemodynamic response for analysis of functional MRI time-series. Hum Brain Mapp, 6(4):283-300, 1998. [ bib \| http \| Abstract ]
[RMS⁺01]	M. E. Raichle, A. M. MacLeod, A. Z. Snyder, W. J. Powers, D. A. Gusnard, and G. L. Shulman. A default mode of brain function. Proc Natl Acad Sci U S A, 98(2):676-82, 2001. [ bib \| http \| Abstract ]
[RV06]	P. Ritter and A. Villringer. Simultaneous EEG-fMRI. Neurosci Biobehav Rev, 30(6):823-38, 2006. [ bib \| http \| Abstract ]
[RV99]	S. E. Robinson and J. Vrba. Functional neuroimaging by syntheticaperture magnetometry (SAM). In T. Yoshimoto, M. Kotani, S. Kuriki, H. Karibe, and N. Nakasato, editors, Recent Advances in Biomagnetism, pages 302-305, Sendai, Japan, 1999. Tohoku Univ. Press. [ bib ]
[RWJK06]	J. J. Riera, X. Wan, J. C. Jimenez, and R. Kawashima. Nonlinear local electrovascular coupling. I: A theoretical model. Hum Brain Mapp, 27(11):896-914, 2006. [ bib \| http \| Abstract ]
[SBG⁺05]	G. Sammer, C. Blecker, H. Gebhardt, P. Kirsch, R. Stark, and D. Vaitl. Acquisition of typical EEG waveforms during fMRI: SSVEP, LRP, and frontal theta. Neuroimage, 24(4):1012-1024, 2005. [ bib \| http \| Abstract ]
[SBH⁺02]	K. D. Singh, G. R. Barnes, A. Hillebrand, E. M. Forde, and A. L. Williams. Task-related changes in cortical synchronization are spatially coincident with the hemodynamic response. NeuroImage, 16(1):103-114, 2002. [ bib \| http \| Abstract ]
[SBL⁺00]	D. L. Schomer, G. Bonmassar, F. Lazeyras, M. Seeck, A. Blum, K. Anami, D. Schwartz, J. W. Belliveau, and J. Ives. EEG-Linked functional magnetic resonance imaging in epilepsy and cognitive neurophysiology. J Clin Neurophysiol, 17(1):43-58, 2000. [ bib \| http \| Abstract ]
[SCG⁺04]	M. Schulz, W. Chau, S. J. Graham, A. R. McIntosh, B. Ross, R. Ishii, and C. Pantev. An integrative MEG-fMRI study of the primary somatosensory cortex using cross-modal correspondence analysis. NeuroImage, 22(1):120-133, 2004. [ bib \| http \| Abstract ]
[SCI02a]	SCIRun: a scientific computing problem solving environment, 2002. Scientific Computing and Imaging Institute (SCI). [ bib ]
[WAT⁺05a]	C. H. Wolters, A. Anwander, X. Tricoche, S. Lew, and C. R. Johnson. Influence of local and remote white matter conductivity anisotropy for a thalamic source on eeg/meg field and return current computation. In Proceedings of The Joint Meeting of The 5th International Conference on Bioelectromagnetism and The 5th International Symposium on Noninvasive Functional Source Imaging within the Human Brain and Heart, page (accepted), 2005. [ bib \| .pdf ]
[Bio02]	Problem solving environment for modeling, simulation, and visualization of bioelectric fields, 2002. Scientific Computing and Imaging Institute (SCI). [ bib \| .html ]
[SCI02b]	SCIRun: a scientific computing problem solving environment, 2002. Scientific Computing and Imaging Institute (SCI). [ bib \| .html ]
[SCHL⁺05]	G. Srivastava, S. Crottaz-Herbette, K.M. Lau, G.H. Glover, and V. Menon. ICA-based procedures for removing ballistocardiogram artifacts from EEG data acquired in the MRI scanner. Neuroimage, 24(1):50-60, 2005. [ bib \| http \| Abstract ]
[SCTB02]	G. Strangman, J. P. Culver, J. H. Thompson, and D. A. Boas. A quantitative comparison of simultaneous BOLD fMRI and NIRS recordings during functional brain activation. NeuroImage, 17(2):719-731, 2002. [ bib \| http \| Abstract ]
[SHDH⁺06]	A. Salek-Haddadi, B. Diehl, K. Hamandi, M. Merschhemke, A. Liston, K. Friston, J. S. Duncan, D. R. Fish, and L. Lemieux. Hemodynamic correlates of epileptiform discharges: An EEG-fMRI study of 63 patients with focal epilepsy. Brain Res, 2006. [ bib \| http \| Abstract ]
[SHFLF03]	A. Salek-Haddadi, K. J. Friston, L. Lemieux, and D. R. Fish. Studying spontaneous EEG activity with fMRI. Brain Res Brain Res Rev, 43(1):110-133, 2003. [ bib \| Abstract ]
[SHFH97]	K. D. Singh, I. E. Holliday, P. L. Furlong, and G. F. Harding. Evaluation of MRI-MEG/EEG co-registration strategies using Monte Carlo simulation. Electroencephalogr Clin Neurophysiol, 102(2):81-85, 1997. [ bib \| http \| Abstract ]
[SHPF04]	K.E. Stephan, L.M. Harrison, W.D. Penny, and K.J. Friston. Biophysical models of fMRI responses. Curr Opin Neurobiol, 14(5):629-635, 2004. [ bib \| http \| Abstract ]
[SKK03]	M. Singh, S. Kim, and T. S. Kim. Correlation between BOLD-fMRI and EEG signal changes in response to visual stimulus frequency in humans. Magn Reson Med, 49(1):108-114, 2003. [ bib \| http \| Abstract ]
[SKV⁺01]	E. Salli, A. Korvenoja, A. Visa, T. Katila, and H. J. Aronen. Reproducibility of fMRI: effect of the use of contextual information. NeuroImage, 13(3):459-471, 2001. [ bib \| http \| Abstract ]
[SL02a]	U Schmitt and A K Louis. Efficient algorithms for the regularization of dynamic inverse problems: i. theory. Inverse Problems, 18(3):645-658, 2002. [ bib \| Abstract ]
[SLM⁺98]	M. Seeck, F. Lazeyras, C. M. Michel, O. Blanke, C. A. Gericke, J. Ives, J. Delavelle, X. Golay, C. A. Haenggeli, N. de Tribolet, and T. Landis. Non-invasive epileptic focus localization using EEG-triggered functional MRI and electromagnetic tomography. Electroencephalogr Clin Neurophysiol, 106(6):508-512, 1998. [ bib \| http \| Abstract ]
[SLO96]	J. A. Sanders, J. D. Lewine, and W. W. Orrison, Jr. Comparison of primary motor cortex localization using functional magnetic resonance imaging and magnetoencephalography. Human Brain Mapping, 4(1):47-57, 1996. [ bib \| http \| Abstract ]
[SLWV02]	U Schmitt, A K Louis, C Wolters, and M Vauhkonen. Efficient algorithms for the regularization of dynamic inverse problems: ii. applications. Inverse Problems, 18(3):659-676, 2002. [ bib \| Abstract ]
[SMJF05]	P. Sehatpour, S. Molholm, D.C. Javitt, and J.J. Foxe. Spatiotemporal dynamics of human object recognition processing: An integrated high-density electrical mapping and functional imaging study of `closure` processes. Neuroimage, 2005. [ bib \| http \| Abstract ]
[SMJ⁺07]	M. Siniatchkin, F. Moeller, J. Jacobs, U. Stephani, R. Boor, S. Wolff, O. Jansen, H. Siebner, and M. Scherg. Spatial filters and automated spike detection based on brain topographies improve sensitivity of EEG-fMRI studies in focal epilepsy. Neuroimage, 37(3):834-43, 2007. [ bib \| http \| Abstract ]
[SHMLF02]	A. Salek-Haddadi, M. Merschhemke, L. Lemieux, and D. R. Fish. Simultaneous EEG-Correlated Ictal fMRI. NeuroImage, 16(1):32-40, 2002. [ bib \| http \| Abstract ]
[SMV⁺99]	J. Sijbers, I. Michiels, M. Verhoye, J. Van Audekerke, A. Van der Linden, and D. Van Dyck. Restoration of MR-induced artifacts in simultaneously recorded MR/EEG data. Magn Reson Imaging, 17(9):1383-1391, 1999. [ bib \| http \| Abstract ]
[SMV03]	M. Sommer, J. Meinhardt, and H. P. Volz. Combined measurement of event-related potentials (ERPs) and fMRI. Acta Neurobiol Exp (Wars), 63(1):49-53, 2003. [ bib \| http \| Abstract ]
[SN97]	H. I. Saleheen and K. T. Ng. New finite difference formulations for general inhomogeneous anisotropic bioelectric problems. IEEE Trans Biomed Eng, 44(9):800-809, 1997. [ bib \| http \| Abstract ]
[SOJ⁺06]	M. C. Schmid, A. Oeltermann, C. Juchem, N. K. Logothetis, and