Browsing by Author Gibson, William (Bill)

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Showing results 1 to 15 of 15
Issue DateTitleAuthor(s)Citation
2002Correlation model for joint development of refined retinotopic map and ocular dominance columnsGibson, William (Bill); Woodbury, Gregory; van der Zwan, Rick; Mathematics & Statistics; Mathematics & StatisticsCorrelation model for joint development of refined retinotopic map and ocular dominance columns, Vision Research, vol.42, 19,pp 2295-2310
2015Cortical Network Models of Firing Rates in the Resting and Active States Predict BOLD ResponsesBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); Lagopoulos, Jim; School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & Statistics; School of Medical Sciences: Brain and Mind CentreCortical Network Models of Firing Rates in the Resting and Active States Predict BOLD Responses, PloS One, vol.10, 12, 2015,pp 1-15
2015Cortical network models of impulse firing in the resting and active states predict cortical energeticsBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); Lagopoulos, Jim; School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & Statistics; School of Medical Sciences: Brain & Mind Research InstituteCortical network models of impulse firing in the resting and active states predict cortical energetics, Proceedings of the National Academy of Sciences of the United States of America (PNAS), vol.112, 13, 2015,pp 4134-4139
2013Fiber Pathway Pathology, Synapse Loss and Decline of Cortical Function in SchizophreniaBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & StatisticsFiber Pathway Pathology, Synapse Loss and Decline of Cortical Function in Schizophrenia, PLoS One, vol.8, 4, 2013,pp 1-12
2010A model for Ca2+ waves in networks of glial cells incorporating both intercellular and extracellular communication pathwaysEdwards, James; Gibson, William (Bill); Mathematics & Statistics; Mathematics & StatisticsA model for Ca2+ waves in networks of glial cells incorporating both intercellular and extracellular communication pathways, Journal of Theoretical Biology, vol.263, N/A,pp 45-58
2012A Model of Neuregulin Control of NMDA receptors on Synaptic SpinesBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & StatisticsA Model of Neuregulin Control of NMDA receptors on Synaptic Spines, Bulletin of Mathematical Biology, vol.74, 3, 2012,pp 717-735
2010A Model of NMDA Receptor Control of F-actin Treadmilling in Synaptic Spines and Their GrowthBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & StatisticsA Model of NMDA Receptor Control of F-actin Treadmilling in Synaptic Spines and Their Growth, Bulletin of Mathematical Biology, vol.N/A, N/A,pp 1-23
2004Monte Carlo simulation of diffusion in a spatially nonhomogeneous medium: correction to the Gaussian steplengthFarnell, Leslie; Gibson, William (Bill); Mathematics & Statistics; Mathematics & StatisticsMonte Carlo simulation of diffusion in a spatially nonhomogeneous medium: correction to the Gaussian steplength, Journal of Computational Physics, vol.198,(1),2004,pp 65-79
2016On the origins of the 'global signal' determined by functional magnetic resonance imaging in the resting stateBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); Lagopoulos, Jim; School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & Statistics; School of Medical Sciences: Brain and Mind CentreOn the origins of the 'global signal' determined by functional magnetic resonance imaging in the resting state, Journal of Neural Engineering, vol.13, 1, 2016,pp 1-11
2008Origins of blood volume change due to glutamatergic synaptic activity at astrocytes abutting on arteriolar smooth muscle cellsBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & StatisticsOrigins of blood volume change due to glutamatergic synaptic activity at astrocytes abutting on arteriolar smooth muscle cells, Journal of Theoretical Biology, vol.250, 1, 2008,pp 172-185
2009P2X(7) regenerative-loop potentiation of glutamate synaptic transmission by microglia and astrocytes.Bennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & StatisticsP2X(7) regenerative-loop potentiation of glutamate synaptic transmission by microglia and astrocytes., Journal of Theoretical Biology, vol.261,(10.1016/j.jtbi.2009.07.024),2009,pp 1-16
2008Purinergic junctional transmission and propagation of calcium waves in cultured spinal cord microglial networksBennett, Maxwell; Buljan, Vlado; Farnell, Leslie; Gibson, William (Bill); School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & StatisticsPurinergic junctional transmission and propagation of calcium waves in cultured spinal cord microglial networks, Purinergic Signalling, vol.4, 1, 2008,pp 47-59
2002Quantal current fields around individual boutons in sympathetic GangliaBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); Kearns, Melinda; Lin, Yong; School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & Statistics; Education Faculty Admin; School of Medical Sciences: PhysiologyQuantal current fields around individual boutons in sympathetic Ganglia, Journal of Theoretical Biology, vol.214, 2,pp 135-146
2008A quantitative model of ATP-mediated calcium wave propagation in astrocyte networksBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & StatisticsA quantitative model of ATP-mediated calcium wave propagation in astrocyte networks in Mathematical modeling of biological systems, Birkhauser (imprint of Springer), 2008, pp. 193-204
2008A quantitative model of cortical spreading depression due to purinergic and gap-junction transmission in astrocyte networksBennett, Maxwell; Farnell, Leslie; Gibson, William (Bill); School of Medical Sciences: Physiology; Mathematics & Statistics; Mathematics & StatisticsA quantitative model of cortical spreading depression due to purinergic and gap-junction transmission in astrocyte networks, Biophysical Journal, vol.95, 12, 2008,pp 5648-5660