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Gary Green

Gary Green

YNiC Responsibilities

Previous Roles

  • Director of the York Neuroimaging Centre 2004-2016

Research Interests

  • Neuroscience (basic and clinical)
  • Dynamics of the brain
  • Hyperpolarisation of spin in organic molecules
  • Mathematics of non-linear dynamic systems
  • Non-invasive imaging methods and applications (MRI, MEG and EEG)

Societies

  • Member, Physiological Society

Current Grants

  • New National Centre for Medical Imaging. An MRC clinical research infrastructure initiative grant between the Universities of York and Leeds and the Leeds NHS Foundation Trust.

  • Hyperpolarisation using SABRE as a new tool for Imaging.
  • Wellcome Trust Strategic Award (with Simon Duckett and Hugh Perry)
  • Centre for Hyperpolarisation in MRI.
  • Wellcome Trust - Wolfson Foundation Capital Award. (with Simon Duckett, Duncan Bruce, Rod Hubbard, Juergen Hennig, Ian Fairlamb, Victor Chechik, Jen Potts and Paul Kaye).

  • Building multi-site clinical research capacity in Magnetoencephalography (MEG). MRC partnership grant. 2012- 2017. (with Singh K.D., Hamandi K., Gross J., Morris P., Henson R. , Woolrich M., Nobre A., Litvak V., Holliday I.E., Furlong P., Shtyrov Y. and Barnes G.R.)

Recent Grants

  • Signal amplification in NMR and MRI using hyperpolarised compounds.
  • EPSRC follow-on fund grant no EP/H029575/21 (with Simon Duckett)
  • Signal Amplification in MR achieved through novel inorganic templates.
  • EPSRC. grant no EP/G009546/1 (with Simon Duckett)
  • MRC Capacity Building Studentship grant (for Kevin Atkinson)
  • Hypertech : Taking NMR and MRI to a new threshold in sensitivity, hyperpolarised compounds and smart imaging agents.
  • Yorkshire Concept : Proof of Commercial Concept Fund (with Simon Duckett and Mark Mortimer)
  • The Geometries of Neuronal Responses.
  • MRC. (sponsor for Special Research Training Fellowships in Biomedical Informatics for Dr. Lee Harrison)
  • Movement disorders: New hardware and software for use in a clinical MEG Scanner.
  • White Rose Health Innovation Grant.
  • Hyperpolarisation Development for Diagnostic Imaging of Metabolic Processes.
  • White Rose Health Innovation Grant & Fellowship (with Simon Duckett)

Publications

All Publications and Citations in web of science (login may be needed)

Google scholar page

2016

2015

2014

2013

2012

2011

2010

2009

2008

Earlier Publications

  • Functional connectivity analysis of MEG data using mutual information.
    • Nevado, A, Pulgarin, M, Green, GR (2006)
    • J. Psychophysiology vol 20 (3) p243

  • Binaural "sluggishness" as a function of stimulus bandwidth.
    • Witton, C; Green, GGR; Henning, GB (2005)
    • Auditory Signal Processing: Physiology, Psychoacoustics and models. pp443-453

  • Gamma oscillations induced by speech recognition
    • Basu AP, Green GGR, Johnson S, Eyre, J.A. (2005)
    • Journal Neurology, Neurosurgery and Psychiatry 76 (1): 156-156

  • Effect of a noise modulation masker on the detection of second-order amplitude modulation.
    • Millman, R.E., G.G.R. Green, C. Lorenzi, and A. Rees (2003)
    • Hearing Research 178: p. 1-11.

  • Detection and direction-discrimination of diotic and dichotic ramp modulations in amplitude and phase.
    • Witton, C.M., M.I.G. Simpson, G.B. Henning, A. Rees, and G.G.R. Green, (2002)
    • Journal of the Acoustical Society of America 113: p. 468-477

  • Perception of sound-source motion by the human brain.
    • Warren, J.D., B.A. Zielinski, G.G.R. Green, J.P. Rauschecker, and T.D. Griffiths (2002)
    • Neuron 34(1): p. 139-148.

  • Effect of duration on amplitude-modulation masking.
    • Millman, R.E., C. Lorenzi, F. Apoux, C. Fullgrabe, G.G.R. Green, and S.P. Bacon (2002)
    • Journal of the Acoustical Society of America 111(6): p. 2551-2554

  • Firing patterns of inferior colliculus neurons-histology and mechanism to change firing patterns in rat brain slices.
    • Bal, R., G.G.R. Green, A. Rees, and D.J. Sanders, (2002)
    • Neuroscience Letters 317(1): p. 42-46.

  • Second-order modulation detection thresholds for pure-tone and narrow-band noise carriers.
    • Lorenzi, C., M.I.G. Simpson, R.E. Millman, T.D. Griffiths, W.P. Woods, A. Rees, and G.G.R. Green, (2001).
    • Journal of the Acoustical Society of America 110(5): p. 2470-2478.

  • The Newcastle Auditory Battery (NAB) - A temporal and spatial test battery for use on adult naive subjects.
    • Griffiths, T.D., J.L. Dean, W. Woods, A. Rees, and G.G.R. Green (2001)
    • Hearing Research 154(1-2): p. 165-169.

  • Representations of neuronal models using minimal and bilinear realisations.
    • Green, G.G.R., W. Woods, and S. Manchanda (2001)
    • Lecture Notes in Artificial Intelligence 2036: p. 154-160.

  • Two kinds of transient outward currents, I-A and I-Adepol, in F76 and D1 soma membranes of the subesophageal ganglia of Helix aspersa.
    • Bal, R., M. Janahmadi, G.G.R. Green, and D.J. Sanders (2001)
    • Journal of Membrane Biology 179(1): p. 71-78.

  • Monaural and binaural detection of sinusoidal phase modulation of a 500-Hz tone.
    • Witton, C., G.G.R. Green, A. Rees, and G.B. Henning (2000)
    • Journal of the Acoustical Society of America 2000. 108(4): p. 1826-1833.

  • Dynamic sensory sensitivity and children's word decoding skills.
    • Talcott, J.B., C. Witton, M.F. McLean, P.C. Hansen, A. Rees, G.G.R. Green, and J.F. Stein (2000)

    • Proceedings of the National Academy of Sciences of the United States of America 97(6): p. 2952-2957.

  • Human brain areas involved in the analysis of auditory movement.
    • Griffiths, T.D., G.G.R. Green, A. Rees, and G. Rees (2000)
    • Human Brain Mapping 9(2): p. 72-80.

  • Frontal processing and auditory perception.
    • Griffiths, T.D., V. Penhune, I. Peretz, J.L. Dean, R.D. Patterson, and G.G.R. Green (2000)
    • Neuroreport 11(5): p. 919-922.

  • The Spectrum of Hearing Loss Due to Mitochondrial DNA Defects.
    • Chinnery, P.F., C. Elliott, G.G.R. Green, A. Rees, A. Coulthard, D.M. Turnbull, and T.D. Griffiths (2000)
    • Brain 123: p. 72-82

  • Effect of calcium and calcium channel blockers on transient outward current of F76 and D1 neuronal soma membranes in the subesophageal ganglia of Helix aspersa.
    • Bal, R., M. Janahmadi, G.G.R. Green, and D.J. Sanders (2000)
    • Journal of Membrane Biology 173(3): p. 179-185.

  • Can sensitivity to auditory frequency modulation predict children's phonological and reading skills?
    • Talcott, J.B., C. Witton, M. McClean, P.C. Hansen, A. Rees, G.G.R. Green, and J.F. Stein (1999)

    • Neuroreport 10(10): p. 2045-2050

  • Morphological and electrophysiological features of F76 and D1 neurones of the sub oesophageal ganglia of Helix aspersa in vitro and in culture.
    • Janahmadi, M., M.S. Malmierca, P.G. Hearne, G.G.R. Green, and D.J. Sanders (1999)
    • Anatomy and Embryology 199(6): p. 563-572.

  • Cortical activation during perception of a rotating wide-field acoustic stimulus.
    • Griffiths, T.D. and G.G.R. Green (1999)
    • NeuroImage 10(1): p. 84-90.

  • Disorders of human complex sound processing.
    • Griffiths, T.D., A. Rees, and G.G.R. Green (1999)
    • Neurocase 1999. 5(5): p. 365-378.

  • A common neural substrate for the analysis of pitch and duration pattern in segmented sound?
    • Griffiths, T.D., I. Johnsrude, J.L. Dean, and G.G.R. Green (1999)
    • Neuroreport 10(18): p. 3825-3830

  • Sensitivity to dynamic auditory and visual stimuli predicts nonword reading ability in both dyslexic and normal readers.
    • Witton, C., J.B. Talcott, P.C. Hansen, A.J. Richardson, T.D. Griffiths, A. Rees, J.F. Stein, and G.G.R. Green, (1998)
    • Current Biology 8(14): p. 791-797.

  • Cortical activation during perception of a rotating wide-field acoustic stimulus.
    • Griffiths, T.D., R. Frackowiak, and G.G.R. Green (1998)
    • NeuroImage 9: p. 3383-3386.

  • Right parietal cortex is involved in the perception of sound movement in humans.
    • Griffiths, T.D., G. Rees, A. Rees, G.G.R. Green, C. Witton, D. Rowe, C. Buchel, R. Turner, and R.S.J. Frackowiak (1998)
    • Nature Neuroscience 1(1): p. 74-79.

  • A distinct low-level mechanism for interaural timing analysis in human hearing.
    • Griffiths, T.D., C. Elliott, A. Coulthard, N.E.F. Cartlidge, and G.G.R. Green (1998)
    • Neuroreport 9(15): p. 3383-3386

  • Sound movement detection deficit due to a brainstem lesion.
    • Griffiths, T.D., D. Bates, A. Rees, C. Witton, A. Gholkar, and G.G.R. Green (1997)
    • Journal of Neurology Neurosurgery and Psychiatry 62(5): p. 522-526

  • Spatial and temporal auditory processing deficits following right hemisphere infarction - A psychophysical study.
    • Griffiths, T.D., A. Rees, C. Witton, P.M. Cross, R.A. Shakir, and G.G.R. Green (1997)
    • Brain 120: p. 785-794

  • Membrane properties of mouse dorsal cochlear nucleus neurons in vitro.
    • Agar, Erdal; Green, Gary G. R.; Sanders, David J.(1997)
    • Journal of Basic and Clinical Physiology and Pharmacology Volume 8(3) Pages: 157-179

  • Neural networks and approximation theory - Response.
    • Wray, J. and G.G.R. Green (1996)
    • Neural Networks 9(4): p. 722-722

  • The relative order and inverses of recurrent networks.
    • Kambhampati, C., S. Manchanda, A. Delgado, G.G.R. Green, K. Warwick, and M.T. Tham, (1996)
    • Automatica 32(1): p. 117-123.

  • Evidence for a sound movement area in the human cerebral cortex.
    • Griffiths, T.D., A. Rees, C. Witton, R.A. Shakir, G.B. Henning, and G.G.R. Green (1996)
    • Nature 383(6599): p. 425-427.

  • Neural Networks, Approximation-Theory, and Finite Precision Computation.
    • Wray, J. and G.G.R. Green (1995)
    • Neural Networks 8(1): p. 31-37

  • Calculation of the Volterra Kernels of Nonlinear Dynamic- Systems Using an Artificial Neural-Network.
    • Wray, J. and G.G.R. Green (1994)
    • Biological Cybernetics 71(3): p. 187-195.

  • Membrane properties of complex spike firing neurons of the mouse dorsal cochlear nucleus in vitro.
    • Agar, E., G.G.R. Green, and D.J. Sanders, (1994)
    • Journal of Basic & Clinical Physiology & Pharmacology 7: p. 151-165

  • Membrane properties of mouse anteroventral cochlear nucleus neurons in vitro.
    • Agar, E., G.G.R. Green, and D.J. Sanders (1994)
    • Journal of Basic & Clinical Physiology & Pharmacology 7: p. 179-198

  • Human Middle-Ear Mucins.
    • Hutton, D.A., F.J.J. Fogg, G.G.R. Green, J.P. Birchall, and J.P. Pearson (1993)
    • Glycoconjugate Journal 10(4): p. 343-343

  • Culture of Human Middle-Ear Mucosal Explants - Mucin Production.
    • Hill, J., D.A. Hutton, G.G.R. Green, J.P. Birchall, and J.P. Pearson (1992)
    • Clinical Otolaryngology 17(6): p. 491-496.

  • Otitis-Media with Effusion - Components Which Contribute to the Viscous Properties.
    • Carrie, S., D.A. Hutton, J.P. Birchall, G.G.R. Green, and J.P. Pearson (1992)
    • Acta Oto-Laryngologica 112(3): p. 504-511

  • Neurophysiological Evidence of Auditory Channel Anomalies in Developmental Dysphasia.
    • Stefanatos, G.A., G.G.R. Green, and G.G. Ratcliff, (1989)
    • Archives of Neurology 46(8): p. 871-875.

  • Rheologic Studies on Middle-Ear Effusions and Their Mucus Glycoproteins.
    • Fitzgerald, J.E., G.G.R. Green, J.P. Birchall, and J.P. Pearson (1989)
    • Archives of Otolaryngology-Head & Neck Surgery 115(4): p. 462-468.

  • Mucolytic Agents and Otitis-Media with Effusion.
    • Fitzgerald, J.E., G.G.R. Green, J.P. Birchall, and J.P. Pearson, (1988)
    • Biomedicine & Pharmacotherapy 42(8): p. 505-511.

  • Mucus Glycoproteins in Seromucinous Otitis-Media.
    • Fitzgerald, J.E., J.P. Pearson, G.G.R. Green, F.W. Stafford, and J.P. Birchall, (1987)
    • Clinical Otolaryngology 1987. 12(1): p. 61-62.

  • Characterization of Human Middle-Ear Mucus Glycoprotein in Chronic Secretory Otitis-Media (Csom).
    • Fitzgerald, J.E., G.G.R. Green, F.W. Stafford, J.P. Birchall, and J.P. Pearson (1987)
    • Clinica Chimica Acta 169(2-3): p. 281-297.

  • Steady-State Evoked-Responses to Sinusoidally Amplitude-Modulated Sounds Recorded in Man.
    • Rees, A., G.G.R. Green, and R.H. Kay (1986)
    • Hearing Research 23(2): p. 123-133.

  • Mucolytic Agents for Glue Ear.
    • Fitzgerald, J.E., J.P. Pearson, G.G.R. Green, J.P. Birchall, and F.W. Stafford (1986)
    • Biomedicine & Pharmacotherapy 40(9): p. 360-360.

  • Mucolytic Agents for Glue Ear.
    • Pearson, J.P., J.E. Fitzgerald, G.G.R. Green, J.P. Birchall, and F.W. Stafford (1985)
    • Lancet 2(8456): p. 674-675.

  • Mucolytic Agents for Glue Ear.
    • Pearson, J.P., G.G.R. Green, J.E. Fitzgerald, J.P. Birchall, and F.W. Stafford (1985)
    • Lancet 2(8467): p. 1300-1301

  • Fourier-Analysis of Ecochg Templates.
    • Birchall, J.P., G.G.R. Green, A. Reid, and J. Newson (1985)
    • Clinical Otolaryngology 10(5): p. 253-261