Bibliografia
[1] J.P. Hornak , “The basics of MRI”, www.cis.rit.edu/htbooks/mri
[2] V. Govindaraju, K.Young, A.A. Maudsley,
“Proton NMR chemical shifts and coupling constants for brain metabolites”, NMR in Biomedicine 2000; 13:129-153
[3] A.H. Trabesinger, D.Meier,P.Boesiger,
“In vivo H NMR spectroscopy of individual human brain metabolites at moderate field strenghts”, Magnetic Resonance Imaging 2003; 21:1295-1302
[4] F.Giove, S.Mangia, M.Bianciardi, G.Garreffa, F.Di Salle, R.Morrone, B.Maraviglia,
“The physiolgy and metabolism of neuronal activation: in vivo studies by NMR and other methods”, Magnetic Resonance Imaging 2003; 21:1283-1293
[5] F.Giove, S.Mangia, M.Bianciardi, G.Garreffa, F.Di Salle, R.Morrone, B.Maraviglia,
“Issues concerning the construction of a metabolic model for neuronal activation”, Journal of Neuroscience Research 2003; 71:463-467
[6] F.Giove, S.Mangia, M.Bianciardi, G.Garreffa, F.Di Salle, R.Morrone, B.Maraviglia,
“The aerobic brain: lactate decrease at the onset of neural activity”, Neuroscience 2003; 118:7-10
[7] Zandt, M. van der Graaf, A.Heerschap, “Common processing of in vivo MR spectra”, NMR in Biomedicine 2001; 14:224-232
[8] L.Vanhamme, T.Sundin, P. Van Hecke, S. Van Huffel, “MR spectroscopy quantitation: a review of time domain methods”, NMR in Biomedicine 2001; 14:233-246
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[9] S.Mierisova, M. Ala-Korpela, “MR spectroscopy quantitation. A review of frequency domain methods”, NMR in Biomedicine 2001; 14:247-259
[10] R.B.Thompson, P.S.Allen, “Sources of variability in the response of coupled spins to the PRESS sequence and their potential impact on metabolite quantification”, Magnetic Resonance in Medicine, 1999; 41:1162-1169
[11] Ogawa, S., D.W. Tank, R. Menon, et al., “intrinsic signal changes accompanying sensory stimulation: Functional brain mapping with magnetic resonance imaging”, Proc. Natl. Acad.Sci. USA, 1992; 89:5951-5955
[12] D.C. Noll, “A primer on MRI and functional MRI”,
Departments of biomedical engineering and radiology, University of Michigan 2001; version 2.1,
[13] R.G. Shulman, F. Hyder, D.L. Rothman, “lactate efflux and the neuroenergetic basis of brain function” NMR in Biomedicine, 2001,14:389-396
[14] P.J. Magistretti L.Pellerin “cellular basis of functional brain imaging: insigth from neuron-glia metabolic coupling” Brain Res 886: 108-112
[15] P.J. Magistretti L.Pellerin “Cellular mechanisms of brain energy metabolism and their relevance to functional brain imaging” Philos. Trans. R. Soc. B. Biol. Sci.
1999; 354:1155-1163
[16] S. Serres, J. Bouyer, E. Bezancon, P. Canioni, M. Merle, “involvment of brain lactate in neuronal metabolism”, NMR in Biomedicine, 2003,16:430-439 [17] J.M.Wilde, I. Marshall, “in vivo lactate editing in single voxel proton spectroscopy
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and proton spectroscopic imaging by homonuclear polarisation transfer”, Magnetic Resonance Imaging, 1999, vol. 17 no.1 pag 131-139
[18] C. Boucard, J. Mostert, F.Cornelissen, J. De Keyser, M. Oudkerk, P. Sijens, “visual stimulation, H MR spectroscopy and fMRI of the human visual pathways, Eur Radiol, 2005, 15: 47-52
[19] P.Sarchielli, R.Tarducci, O.Presciutti, G.Gobbi, G.P. Pelliccioli, G.Stipa, A.Alberti, G. Capocchi, “Functional H-MRS findings in migraine patients with and without aura assessed interictally”, NeuroImage, 2005; 24:1025-1031
[20] H.Ratiney M.Sdika Y.Coenradie S.Cavassila D.Van Ormondt D.Graveron-Demilly,
“Time domain semi-parametric estimation based on a metabolite set”, NMR in Biomedicine, 2005; 18:1-13
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