Philip H. de Guzman

Affiliations: 
Neuroscience University of Alberta, Edmonton, Alberta, Canada 
Area:
Neuroscience, epilepsy
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"Philip de Guzman"
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Parents

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Massimo Avoli grad student 2001-2006 Montreal Neurological Institute
Clayton T. Dickson post-doc University of Alberta

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Publications

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Köhling R, D'Antuono M, Benini R, et al. (2015) Hypersynchronous ictal onset in the perirhinal cortex results from dynamic weakening in inhibition. Neurobiology of Disease. 87: 1-10
Biagini G, D'Antuono M, Benini R, et al. (2013) Perirhinal cortex and temporal lobe epilepsy. Frontiers in Cellular Neuroscience. 7: 130
Avoli M, Panuccio G, Herrington R, et al. (2013) Two different interictal spike patterns anticipate ictal activity in vitro. Neurobiology of Disease. 52: 168-76
de Guzman PH, Nazer F, Dickson CT. (2010) Short-duration epileptic discharges show a distinct phase preference during ongoing hippocampal slow oscillations. Journal of Neurophysiology. 104: 2194-202
Bortel A, Longo D, de Guzman P, et al. (2010) Selective changes in inhibition as determinants for limited hyperexcitability in the insular cortex of epileptic rats. The European Journal of Neuroscience. 31: 2014-23
Panuccio G, D'Antuono M, de Guzman P, et al. (2010) In vitro ictogenesis and parahippocampal networks in a rodent model of temporal lobe epilepsy. Neurobiology of Disease. 39: 372-80
de Guzman P, Inaba Y, Baldelli E, et al. (2008) Network hyperexcitability within the deep layers of the pilocarpine-treated rat entorhinal cortex. The Journal of Physiology. 586: 1867-83
Vincent RD, Pineau J, De Guzman P, et al. (2007) Recurrent boosting for classification of natural and synthetic time-series data Lecture Notes in Computer Science (Including Subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics). 4509: 192-203
de Guzman P, Inaba Y, Biagini G, et al. (2006) Subiculum network excitability is increased in a rodent model of temporal lobe epilepsy. Hippocampus. 16: 843-60
Inaba Y, de Guzman P, Avoli M. (2006) NMDA receptor-mediated transmission contributes to network 'hyperexcitability' in the rat insular cortex. The European Journal of Neuroscience. 23: 1071-6
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