Stuart D. Greenhill, PhD

2004-2008 University of Bath, Bath, England, United Kingdom 
 2010-2016 Cardiff University, Cardiff, Wales, United Kingdom 
 2016- Aston University, Birmingham, England, United Kingdom 
Plasticity, Epilepsy, Electrophysiology
"Stuart Greenhill"
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Wright SK, Wilson MA, Walsh R, et al. (2020) Abolishing spontaneous epileptiform activity in human brain tissue through AMPA receptor inhibition. Annals of Clinical and Translational Neurology
Johnson NW, Özkan M, Burgess AP, et al. (2017) Phase-amplitude coupled persistent theta and gamma oscillations in rat primary motor cortex in vitro. Neuropharmacology
Glazewski S, Greenhill S, Fox K. (2017) Time-course and mechanisms of homeostatic plasticity in layers 2/3 and 5 of the barrel cortex. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 372
Zhou M, Greenhill S, Huang S, et al. (2016) CCR5 is a suppressor for cortical plasticity and hippocampal learning and memory. Elife. 5
Zhou M, Greenhill S, Huang S, et al. (2016) Author response: CCR5 is a suppressor for cortical plasticity and hippocampal learning and memory Elife
Greenhill SD, Ranson A, Fox K. (2015) Hebbian and Homeostatic Plasticity Mechanisms in Regular Spiking and Intrinsic Bursting Cells of Cortical Layer 5. Neuron. 88: 539-52
Greenhill SD, Juczewski K, De Haan AM, et al. (2015) Adult cortical plasticity depends on an early postnatal critical period Science. 349: 424-427
Greenhill SD, Chamberlain SE, Lench A, et al. (2014) Background synaptic activity in rat entorhinal cortex shows a progressively greater dominance of inhibition over excitation from deep to superficial layers. Plos One. 9: e85125
Greenhill SD, Morgan NH, Massey PV, et al. (2012) Ethosuximide modifies network excitability in the rat entorhinal cortex via an increase in GABA release. Neuropharmacology. 62: 807-14
Greenhill SD, Jones RS. (2010) Diverse antiepileptic drugs increase the ratio of background synaptic inhibition to excitation and decrease neuronal excitability in neurones of the rat entorhinal cortex in vitro. Neuroscience. 167: 456-74
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