Motor Recovery after Spinal Cord Injury Enhanced by Strengthening Corticospinal Synaptic...
Transcript of Motor Recovery after Spinal Cord Injury Enhanced by Strengthening Corticospinal Synaptic...
Current Biology 23, 94, January 7, 2013 ª2013 Elsevier Ltd All rights reserved
Motor Recovery after Spinal Cord Injury
Correction
Enhanced by StrengtheningCorticospinal Synaptic Transmission
Karen L. Bunday and Monica A. Perez*
(Current Biology 22, 2355–2361; December 18, 2012)Due to a production oversight, the version of this article originally published online on November 29, 2012 omitted several of theauthors’ proof corrections in the main text and Supplemental Information. Most importantly, in the statement ‘‘The consistencybetween electrophysiological measurements across sessions, the use of a figure-of-eight coil in a lateromedial orientation toreliably elicit D waves (direct waves) [27, 28], and the specificity of our results support the view that human noninvasive elec-trophysiology can be successfully used to guide interventions after SCI’’ in the second-to-last paragraph on page 4, the word‘‘lateromedial’’ should have been changed to ‘‘posteromedial.’’ These errors do not affect the findings of the study and have nowbeen corrected as intended both online and in print. The journal regrets the errors and apologizes to the authors for theinconvenience.
*Correspondence: [email protected]
http://dx.doi.org/10.1016/j.cub.2012.12.014