Differential poststroke motor recovery in an arm versus hand muscle in the absence of motor evoked potentials

Schambra HM, Xu J, Branscheidt M, Lindquist M, Uddin J, Steiner L, Hertler B, Kim N, Berard J, Harran MD, Cortes JC, Kitago T, Luft A, Krakauer JW, Celnik PA. Neurorehabil Neural Repair. 2019 [Epub ahead of print]

Rethinking interhemispheric imbalance as a target for stroke neurorehabilitation

Xu J, Branscheidt M, Schambra H, Steiner L, Widmer M, Diedrichsen J, Goldsmith J, Lindquist M, Kitago T, Luft AR, Krakauer JW, Celnik PA; SMARTS Study Group. Ann Neurol. 2019; 85(4):502-513.

Reply: Further evidence for a non-cortical origin of mirror movements after stroke

Ejaz N, Xu J, Branscheidt M, Hertler B, Schambra H, Widmer M, Faria AV, Harran M, Cortes JC, Kim N, Celnik PA, Kitago T, Luft A, Krakauer JW, Diedrichsen J. Brain. 2019;142(1):e2.

Repetitive Transcranial Magnetic Stimulation for Upper Extremity Motor Recovery: Does It Help?

Schambra HM. Curr Neurol Neurosci Rep. 2018;18(12):97

Transcranial direct current stimulation enhances motor skill learning but not generalization in chronic stroke

Hamoudi M, Schambra HM, Fritsch B, Schoechlin-Marx A, Weiller C, Cohen LG, Reis J. Neurorehabil Neural Repair. 2018;32(4-5):295-308.

Evidence for a subcortical origin of mirror movements after stroke: a longitudinal study

Ejaz N, Xu J, Branscheidt M, Hertler B, Schambra H, Widmer M, Faria AV, Harran MD, Cortes JC, Kim N, Celnik PA, Kitago T, Luft AR, Krakauer JW, Diedrichsen J. Brain. 2018;141(3):837-847.

A short and distinct time window for recovery of arm motor control early after stroke revealed with a global measure of trajectory kinematics

Cortes JC, Goldsmith J, Harran M, Xu J, Kim N, Schambra HM, Luft A, Celnik P, Krakauer J, Kitago T. Neurorehabil Neural Repair. 2017; 31(6) 552-560.

Capture, learning, and classification of upper extremity movement primitives in healthy controls and stroke patients

Guerra J, Uddin J, Nilsen D, McInerney J, Fadoo A, Omofuma I, Hughes S, Agrawal S, Allen P, Schambra HM. Rehabilitation Robotics (ICORR). 2017; 547-554.

Effects of tDCS on motor learning and memory formation: A consensus and critical position paper.

Buch ER, Santarnecchi E, Antal A, Born J, Celnik PA, Classen J, Gerloff C, Hallett M, Hummel FC, Nitsche MA, Pascual-Leone A, Paulus WJ, Reis J, Robertson EM, Rothwell JC, Sandrini M, Schambra HM, Wassermann EM, Ziemann U, Cohen LG. Clin Neurophysiol. 2017; 128(4):589-603.

The neurophysiological effects of single-dose theophylline in patients with chronic stroke: A double-blind, placebo-controlled, randomized cross-over study

Schambra HM, Martinez-Hernandez I, Slane K, Boehme A, Marshall R, Lazar R. Restorative Neurology and Neuroscience. 2016; 34(5): 799-813.

Recovery and rehabilitation after intracerebral hemorrhage

Saulle M, Schambra HM. Seminars in Neurology. 2016; 36(3): 306-312

Low and moderate prenatal ethanol exposures of mice during gastrulation or neurulation delays neurobehavioral development

Schambra U, Goldsmith J, Nunley K, Liu Y, Harirforoosh S, Schambra HM. Neurotoxicology and Teratology. 2015; 51: 1-11.

The reliability of repeated TMS measures in older adults and in patients with subacute and chronic stroke

Schambra HM, Ogden T, Martinez-Hernandez I, Lin X, Chang B, Rahman A, Edwards D, Krakauer J. Frontiers in Cellular Neuroscience. 2015; 9:1-18.

Should this patient with ischemic stroke receive fluoxetine?

Schambra HM, O’Dell M. AAPMR. 2015; 7(12): 1294-1299

Building up analgesia in humans via the endogenous m-opioid system by combining placebo and active tDCS: A preliminary report

DosSantos M, Martikainen I, Nascimento T, Love T, DeBoer M, Schambra HM, Bikson M, Zubieta JK, DaSilva A.
PLOS One. 2014; 9:7.

It’s all in your head: reinforcing the placebo response with tDCS

Schambra HM, Bikson M, Wager TD, DosSantos MF, DaSilva AF. Brain Stimulation. 2014; 7(4): 623-624.

Excitability out of balance: Treating hemineglect with transcranial magnetic brain stimulation

Schambra HM, Marshall R. Neurology. 2012; 78: 13-14.

Reward improves long-term retention of a motor memory through induction of offline memory gains

Mitsunari A, Schambra HM, Wassermann E, Luckenbaugh D, Schweighofer N, Cohen L. Current Biology. 2011; 21(7):557-562.

Probing for hemispheric specialization for motor skill learning: A transcranial direct current stimulation study

Schambra HM, Abe M, Luckenbaugh D, Reis, Krakauer J, Cohen, L. Journal of Neurophysiology. 2011; 106: 652-661.

Direct current stimulation promotes BDNF-dependent synaptic plasticity: Potential implications for motor learning

Fritsch B, Reis J, Martinowich K, Schambra HM, Ji Y, Cohen L, Lu B. Neuron. 2010; 66(2): 198: 204.

Noninvasive cortical stimulation enhances motor skill acquisition over multiple days through an effect on consolidation

Reis J, Schambra HM, Cohen L, Buch E, Fritsch B, Zarahn E, Celnik P, Krakaeur J. PNAS. 2009; 106(5): 1590-1595.

Asymmetric reversible posterior leukoencephalopathy syndrome

Schambra HM, Greer D. Neurocritical Care. 2006; 4: 245-247.

Modulation of excitability of human motor cortex (M1) by Hz transcranial magnetic stimulation of the contralateral M1

Schambra H, Sawaki L, Cohen L. Clinical Neurophysiology. 2003;114: 130-133.