Istvan Nagy

Imperial College, London, London, England, United Kingdom 
"Istvan Nagy"
Mean distance: 15.24 (cluster 6)
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Fidalgo AR, Cibelli M, White JP, et al. (2012) Isoflurane causes neocortical but not hippocampal-dependent memory impairment in mice. Acta Anaesthesiologica Scandinavica. 56: 1052-7
Fidalgo AR, Cibelli M, White JP, et al. (2011) Peripheral orthopaedic surgery down-regulates hippocampal brain-derived neurotrophic factor and impairs remote memory in mouse. Neuroscience. 190: 194-9
Fidalgo AR, Cibelli M, White JP, et al. (2011) Systemic inflammation enhances surgery-induced cognitive dysfunction in mice. Neuroscience Letters. 498: 63-6
White JP, Ko CW, Fidalgo AR, et al. (2011) Severe burn injury induces a characteristic activation of extracellular signal-regulated kinase 1/2 in spinal dorsal horn neurons. European Journal of Pain (London, England). 15: 683-90
White JP, Cibelli M, Fidalgo AR, et al. (2011) Extracellular signal-regulated kinases in pain of peripheral origin. European Journal of Pharmacology. 650: 8-17
White JP, Cibelli M, Fidalgo AR, et al. (2010) Sensitization of the transient receptor potential vanilloid type 1 ion channel by isoflurane or sevoflurane does not result in extracellular signal-regulated kinase 1/2 activation in rat spinal dorsal horn neurons. Neuroscience. 166: 633-8
Nagy I, Woolf CJ. (1996) Lignocaine selectively reduces C fibre-evoked neuronal activity in rat spinal cord in vitro by decreasing N-methyl-D-aspartate and neurokinin receptor-mediated post-synaptic depolarizations; implications for the development of novel centrally acting analgesics. Pain. 64: 59-70
Nagy I, Dray A, Urban L. (1995) Possible branching of myelinated primary afferent fibres in the dorsal root of the rat. Brain Research. 703: 223-6
Nagy I, Woolf CJ, Dray A, et al. (1994) Cobalt accumulation in neurons expressing ionotropic excitatory amino acid receptors in young rat spinal cord: morphology and distribution. The Journal of Comparative Neurology. 344: 321-35
Nagy I, Miller BA, Woolf CJ. (1994) NK1 and NK2 receptors contribute to C-fibre evoked slow potentials in the spinal cord. Neuroreport. 5: 2105-8
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