Gowri Jayaram, Ph.D.

Biomedical Engineering Johns Hopkins University, Baltimore, MD 
human neurphysiology, motor learning
"Gowri Jayaram"
Mean distance: 15.51 (cluster 22)


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Amy Jo Bastian grad student 2013 Johns Hopkins
 (Understanding and enhancing locomotor adaptation using transcranial stimulation.)
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Jayaram G, Stagg CJ, Esser P, et al. (2012) Relationships between functional and structural corticospinal tract integrity and walking post stroke. Clinical Neurophysiology : Official Journal of the International Federation of Clinical Neurophysiology. 123: 2422-8
Jayaram G, Tang B, Pallegadda R, et al. (2012) Modulating locomotor adaptation with cerebellar stimulation. Journal of Neurophysiology. 107: 2950-7
Stagg CJ, Jayaram G, Pastor D, et al. (2011) Polarity and timing-dependent effects of transcranial direct current stimulation in explicit motor learning. Neuropsychologia. 49: 800-4
Jayaram G, Galea JM, Bastian AJ, et al. (2011) Human locomotor adaptive learning is proportional to depression of cerebellar excitability. Cerebral Cortex (New York, N.Y. : 1991). 21: 1901-9
Galea JM, Jayaram G, Ajagbe L, et al. (2009) Modulation of cerebellar excitability by polarity-specific noninvasive direct current stimulation. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 29: 9115-22
Jayaram G, Stinear JW. (2009) The effects of transcranial stimulation on paretic lower limb motor excitability during walking. Journal of Clinical Neurophysiology : Official Publication of the American Electroencephalographic Society. 26: 272-9
Jayaram G, Stinear JW. (2008) Contralesional paired associative stimulation increases paretic lower limb motor excitability post-stroke. Experimental Brain Research. 185: 563-70
Jayaram G, Stinear J. (2008) Can we reduce the asymmetry of between-hemisphere motor excitability in the lower limb after stroke? Brain Stimulation. 1: 284
Jayaram G, Santos L, Stinear JW. (2007) Spike-timing-dependent plasticity induced in resting lower limb cortex persists during subsequent walking. Brain Research. 1153: 92-7
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