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A.G.Webb and S.C.Grant, J. Magn. Reson. Ser. B, 113: 83-7 (1996). "Signal-to-noise and magnetic susceptibility trade-offs in solenoidal microcoils for NMR."
S.C.Grant, H.D.Plant, S.Gibbs, N.R.Aiken, A.G.Webb, T.H.Mareci and S.J.Blackband, Magn. Reson. Med., 44: 19-22 (2000). "NMR Spectroscopy of Single Neurons."
S.C.Grant, L.A.Murphy, R.L.Magin and G.Friedman, IEEE Trans. Magn., 37(4): 2989-98 (2001). "Analysis of Multilayer RF Microcoils for NMR Spectroscopy."
S.C.Grant, D.L.Buckley, S.Gibbs, A.G. Webb, S.J.Blackband, Magn. Reson. Med., 46(6): 1007-12 (2001). "MR Microscopy of Multiple Component Water Diffusion in Isolated Single Neurons."
B.Beck, H.D.Plant, S.C.Grant, P.E.Thelwall, X.Silver, T.H.Mareci, H.Benveniste, M.Smith, C.Collins, S.Crozier, S.J.Blackband, MAGMA, 13(3): 152-7 (2002). "Progress in High Field MRI at the University of Florida."
P.E.Thelwall, S.C.Grant, S.J.Blackband, Magn. Reson. Med., 48: 649-57 (2002). "Human Erythrocyte Ghosts: Exploring the origins of multiexponential water diffusion in a model biological tissue with magnetic resonance."
N.E.Simpson, S.C.Grant, S.J.Blackband and I.Constantinidis, Biomaterials, 24: 4941-4948 (2003). "NMR Properties of Alginate Microbeads."
J.M.B.Wilson, M.S.Petrik, S.C.Grant, S.J.Blackband, J.Lai and C.A.Shaw, NeuroImage, 33: 336-343 (2004). "Quantitative Measurement of Neurodegeneration in an ALS-PDC Model Using MR Microscopy."
S.C.Grant, S.Celper, I.Gauffin-Holmberg, N.E.Simpson, S.J.Blackband and I.Constantinidis, J. Mater. Sci.: Mater. Med., 16: 511-14 (2005). "Alginate Assessment by NMR Microscopy."
R.Sadleir, S.C.Grant, S.U.Zhang, B.I.Lee, H.C.Pyo, S.H.Oh, C.Park, E.J.Woo, S.Y.Lee, O.Kwon and J.K.Seo, Physiol. Meas., 26: 875–84 (2005). "Noise analysis in magnetic resonance electrical impedance tomography at 3 and 11 T field strengths."
R.Fu, W.W.Brey, K.Shetty, P.Gor'kov, S.Saha, J.R.Long, S.C.Grant, E.Y.Chekmenev, J.Hu, Z.Gan, M.Sharma, F.Zhang, T.M.Logan, R.Bruschweller, A.Edison, A.Blue, I.R.Dixon, W.D.Markiewicz and T.A.Cross, J. Magn. Reson., 177(1): 1-8 (2005). "Ultra-wide bore 900MHz high-resolution NMR at the National High Magnetic Field Laboratory."
Y.Ma, P.R.Hof, S.C.Grant, S.J.Blackband, R.Bennett, L.Slatest, M.D.McGuigan and H.Benveniste. Neuroscience, 135(4): 1203-15 (2005). "A three-dimensional digital atlas database of the adult C57BL/6J mouse brain by magnetic resonance microscopy."
J.P.Marques, S.C.Grant, S.J.Blackband and R.W.Bowtell, J. Chem. Phys., 123(16): 164311 (2005). "Intermolecular Multiple Quantum Coherences at High Magnetic Field: the Non-Linear Regime."
I.Constantinidis, N.E.Simpson, S.C.Grant, S.J.Blackband, R.C.Long Jr, A.Sambanis, Adv. Exp. Med. Biol., 585: 261-76 (2006). "Non-invasive monitoring of tissue engineered pancreatic constructs by NMR techniques."
N.E.Simpson, S.C.Grant, L.Gustavssond, V.M. Peltonen, S.J.Blackband and I.Constantinidis. Biomaterials, 27: 2577-2586 (2006). "Biochemical consequences of alginate encapsulation: A NMR study of insulin-secreting cells."
R.Sadleir, S.C.Grant, S.U.Zhang, S.H.Oh, B.I.Lee and E.J.Lee, Physiol. Meas., 27: S261-S270 (2006). "High Field MREIT: Setup and tissue phantom imaging at 11 T."
I.Constantinidis*, S.C.Grant*, S.Celper, I.Gauffin-Holmberg, K.Agering, J.A. Oca-Cossio, J.D.Bui, J.Flint, C.Hamaty, N.E. Simpson and S.J. Blackband, Biomaterials, 28(15): 2438-45 (2007). "Non-invasive evaluation of alginate/poly-L-lysine/alginate microcapsules by Magnetic Resonance Microscopy." * co-first authors
H.Benveniste, Y.Ma, J.Dhawan, A.Gifford, S.D.Smith, I.Feinstein, C.Du, S.C.Grant and P.R.Hof, NY Acad. Sci., 1097: 12-29 (2007). "Anatomical and Functional Phenotyping of Mice Models of Alzheimer's Disease by MR Microscopy."
M.S.Petrik, J.M.B.Wilson, S.C.Grant, S.J.Blackband, R.C.Tabata, X.Shan, C.Krieger and C.A.Shaw, NeuroMolecular Med., 9(3): 216-29 (2007). "Magnetic resonance microscopy and immunohistochemistry of the central nervous system of the mutant SOD murine model of ALS."
Constantinidis, I., Grant, S.C., Simpson, N.E., Oca-Cossio, J.A., Sweeney, C.A., Mao, H., Blackband, S.J., and Sambanis, A., "Use of Magnetic Nanoparticles to Monitor Alginate-Encapsulated βTC-tet Cells," Magn Reson Med, 61(2): 282-90 (2009).
Schweitzer, K.J., Foroutan, P., Dickson, D.W., Broderick, D.F., Klose, U., Berg, D., Wszolek, Z.K., & Grant, S.C. A novel approach to dementia: High resolution 1H MRI of the human hippocampus performed at 21.1 T. Neurology, 74(20), 1654-1654. (2010).
Schepkin, V.D., Brey, W.W., Gor'kov, P.L., & Grant, S.C. Initial in vivo rodent sodium and proton MR imaging at 21.1 T. Magnetic Resonance Imaging, 28(3), 400-407. (2010).
Sadleir, R.J., Grant, S.C., & Woo, E. J. Can high-field MREIT be used to directly detect neural activity? Theoretical considerations. NeuroImage, 52(1), 205-216. (2010).
Rosenberg, J. T., Kogot, J. M., Lovingood, D. D., Strouse, G. F., & Grant, S. C. Intracellular Bimodal Nanoparticles Based on Quantum Dots for High-Field MRI at 21.1 T. Magnetic Resonance in Medicine, 64(3), 871-882. (2010).
Fujioka, S., Murray, M. E., Foroutan, P., Schweitzer, K. J., Dickson, D. W., Grant, S. C., & Wszolek, Z. K. Magnetic resonance imaging with 21.1T and pathological correlations – diffuse Lewy body disease. Rinsho Shinkeigaku, 51(8), 603-607. (2011).