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Journal Article (12)

  1. 2019
    Journal Article
    Lehmann, N.; Tolentino-Castro, J. W.; Kaminski, E.; Ragert, P.; Villringer, A.; Taubert, M.: Interindividual differences in gray and white matter properties are associated with early complex motor skill acquisition. Human Brain Mapping (2019)
  2. 2017
    Journal Article
    Ordnung, M.; Hoff, M.; Kaminski, E.; Villringer, A.; Ragert, P.: No overt effects of a 6-week exergame training on sensorimotor and cognitive function in older adults: A preliminary investigation. Frontiers in Human Neuroscience 11 (2017)
  3. Journal Article
    Kaminski, E.; Ragert, P.: Reply to: "Using transcranial direct current stimulation to enhance performance in balance tasks". Clinical Neurophysiology 128 (3), pp. 503 - 504 (2017)
  4. Journal Article
    Rjosk, V.; Lepsien, J.; Kaminski, E.; Hoff, M.; Sehm, B.; Steele, C.; Villringer, A.; Ragert, P.: Neural correlates of mirror visual feedback-induced performance improvements: A resting-state fMRI study. Frontiers in Human Neuroscience 11 (2017)
  5. Journal Article
    Kaminski, E.; Hoff, M.; Rjosk, V.; Steele, C.; Gundlach, C.; Sehm, B.; Villringer, A.; Ragert, P.: Anodal transcranial direct current stimulation does not facilitate dynamic balance task learning in healthy old adults. Frontiers in Human Neuroscience 11 (2017)
  6. 2016
    Journal Article
    Rjosk, V.; Kaminski, E.; Hoff, M.; Gundlach, C.; Villringer, A.; Sehm, B.; Ragert, P.: Transcranial alternating current stimulation at beta frequency: Lack of immediate effects on excitation and interhemispheric inhibition of the human motor cortex. Frontiers in Human Neuroscience 10 (2016)
  7. Journal Article
    Kaminski, E.; Steele, C.; Hoff, M.; Gundlach, C.; Rjosk, V.; Sehm, B.; Villringer, A.; Ragert, P.: Transcranial direct current stimulation (tDCS) over primary motor cortex leg area promotes dynamic balance task performance. Clinical Neurophysiology 127 (6), pp. 2455 - 2462 (2016)
  8. Journal Article
    Rjosk, V.; Kaminski, E.; Hoff, M.; Sehm, B.; Steele, C.; Villringer, A.; Ragert, P.: Mirror visual feedback-induced performance improvement and the influence of hand dominance. Frontiers in Human Neuroscience 9 (2016)
  9. 2015
    Journal Article
    Hoff, M.; Trapp, S.; Kaminski, E.; Sehm, B.; Steele, C.; Villringer, A.; Ragert, P.: Switching between hands in a serial reaction time task: A comparison between young and old adults. Frontiers in Aging Neuroscience 7 (2015)
  10. Journal Article
    Hoff, M.; Kaminski, E.; Rjosk, V.; Sehm, B.; Steele, C.; Villringer, A.; Ragert, P.: Augmenting mirror visual feedback-induced performance improvements in older adults. European Journal of Neuroscience 41 (11), pp. 1475 - 1483 (2015)
  11. Journal Article
    von Rein, E.; Hoff, M.; Kaminski, E.; Sehm, B.; Steele, C.; Villringer, A.; Ragert, P.: Improving motor performance without training: The effect of combining mirror visual feedback with transcranial direct current stimulation. Journal of Neurophysiology 113 (7), pp. 2383 - 2389 (2015)
  12. 2013
    Journal Article
    Kaminski, E.; Hoff, M.; Sehm, B.; Taubert, M.; Conde, V.; Steele, C.; Villringer, A.; Ragert, P.: Effect of transcranial direct current stimulation (tDCS) during complex whole body motor skill learning. Neuroscience Letters 552, pp. 76 - 80 (2013)

Poster (2)

  1. 2013
    Poster
    Ragert, P.; Kaminski, E.; Hoff, M.; Sehm, B.; Taubert, M.; Conde, V.; Steele, C.; Villringer, A.: Effect of transcranial direct stimulation (tDCS) during complex whole body motor skill learning. 43rd Annual Meeting of the Society for Neuroscience, San Diego, CA, USA (2013)
  2. Poster
    Kaminski, E.; Hoff, M.; Sehm, B.; Taubert, M.; Conde, V.; Steele, C.; Villringer, A.; Ragert, P.: Effect of transcranial direct current stimulation (tDCS) during complex whole body motor skill learning. 57th Annual Meeting of the German Society for Clinical Neurophysiology, Leipzig, Germany (2013)

Thesis - PhD (1)

  1. 2017
    Thesis - PhD
    Kaminski, E.: Augmenting dynamic balance performance by transcranial direct current stimulation. Dissertation, XIV, 54 pp., Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig (2017)
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