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- Claudia Ammann, Martin A Lindquist, and Pablo A Celnik.
- Department of Physical Medicine and Rehabilitation, Johns Hopkins University, School of Medicine, 707 N Broadway, Baltimore, MD 21205, USA.
- Brain Stimul. 2017 Jul 1; 10 (4): 757-763.
BackgroundIt is well known that transcranial direct current stimulation (tDCS) is capable of modulating corticomotor excitability. However, a source of growing concern has been the observed inter- and intra-individual variability of tDCS-responses. Recent studies have assessed whether individuals respond in a predictable manner across repeated sessions of anodal tDCS (atDCS). The findings of these investigations have been inconsistent, and their methods have some limitations (i.e. lack of sham condition or testing only one tDCS intensity).ObjectiveTo study inter- and intra-individual variability of atDCS effects at two different intensities on primary motor cortex (M1) excitability.MethodsTwelve subjects participated in a crossover study testing 7-min atDCS over M1 in three separate conditions (2 mA, 1 mA, sham) each repeated three times separated by 48 h. Motor evoked potentials were recorded before and after stimulation (up to 30min). Time of testing was maintained consistent within participants. To estimate the reliability of tDCS effects across sessions, we calculated the Intra-class Correlation Coefficient (ICC).ResultsAtDCS at 2 mA, but not 1 mA, significantly increased cortical excitability at the group level in all sessions. The overall ICC revealed fair to high reliability of tDCS effects for multiple sessions. Given that the distribution of responses showed important variability in the sham condition, we established a Sham Variability-Based Threshold to classify responses and to track individual changes across sessions. Using this threshold an intra-individual consistent response pattern was then observed only for the 2 mA condition.Conclusion2 mA anodal tDCS results in consistent intra- and inter-individual increases of M1 excitability.Copyright © 2017 Elsevier Inc. All rights reserved.
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