Section Chief: Tatsuya Umeda

Career Summary


Research Theme



  • 1. Umeda, T.*, Watanabe, H., Sato, MA., Kawato M., Isa T., Nishimura, Y. (*: corresponding author)
    “Decoding of the spike timing of primary afferents during voluntary arm movements in monkeys”
    Front. Neurosci..8: e97, 2014
  • 2. Wanakhachornkrai, O., Umeda, T. *, Isa, K., Tantisira, M.H., Tantisira, B., Isa, T. (*: corresponding author)
    “Reorganization of sensory pathways after neonatal hemidecortication in rats.”
    Neurosci. Res.79: 94-98, 2014
  • 3. Umeda, T. *, Funakoshi, K. (*: corresponding author)
    “Reorganization of motor circuits after neonatal hemidecortication.”
    Neurosci. Res.78: 30-37, 2014
  • 4. Umeda, T.*, Seki, K., Sato, MA., Nishimura, Y., Kawato M., Isa T. (*: corresponding author)
    “Population coding of forelimb joint kinematics by peripheral afferents in monkeys”
    PLoS One.7: e47749, 2012
  • 5. Yokoi, H., Sato, K., Morishita, S., Nakamura, T., Kato, R., Umeda, T., Watanabe, H., Nishimura, Y., Isa, T., Ikoma, K., Miyamoto, T., Yamamura, O.
    “fMRI Analysis of Prosthetic Hand Rehabilitation Using a Brain-Machine Interface”   
    Advance in Therapeutic Engineering 219-250, 2012
  • 6. Umeda, T.*, Isa, T. (*: corresponding author)
    “Differential contributions of rostral and caudal frontal forelimb areas to compensatory process after neonatal hemidecortication in rats”
    Eur. J. Neurosci.34: 1453-1460, 2011
  • 7. Umeda, T.*, Takahashi, M., Isa, K., Isa, T. (*: corresponding author)
    “Formation of Descending Pathways Mediating Cortical Command to Forelimb Motoneurons in Neonatally Hemidecorticated Rats”
    J. Neurophysiol.104: 1707-1716, 2010
  • 8. Takahashi, M.*, Vattanajun, A.*, Umeda T.*, Isa, K., Isa, T. (*: equally contributed)
    “Large-scaled reorganization of corticofugal fibers after neonatal hemidecortication for functional restration of forelimb movements”
    Eur. J. Neurosci.30: 1878-1887, 2009
  • 9. Yamagata, Y., Kobayashi, Y., Umeda, T., Inoue, A., Sakagami, H., Fukaya, M., Watanabe, M., Hatanaka, M., Totsuka, M., Yagi, T., Obata, K., Imoto, K., Yanagawa, Y., Manabe, T., Okabe, S.
    “Kinase-dead knock-in mouse reveals an essential role of CaMKIIa kinase activity in dendritic spine enlargement, LTP and learning”
    J. Neurosci. 29: 7607-7618, 2009

Research Grants

  • 2013-2014 (JFY) Grants-in-Aid for Young Scientists(B)
  • 2013(JFY)  Narishige Research Grants-in-Aid

Self Introduction


Back to previous page

Back to top page