保健医療学部 理学療法学科　前田　仁士（教授）　MyPage

所属学部・役職名

保健医療学部・教授

主要著書・論文等

1: Maeda H.*, Fukuda S.*, Kameda H., Murabe N., Isoo N., Mizukami H., Ozawa K., Sakurai M.
Corticospinal axons make direct synaptic connections with spinal motoneurons innervating forearm muscles early during postnatal development in the rat. J Physiol. 2016 594(1):189-205(*: equal contribution)

2: Ohno T., Maeda H., Murabe N., Kamiyama T., Yoshioka N., Mishina M., Sakurai M.
Specific involvement of postsynaptic GluN2B-containing NMDA receptors in the developmental elimination of corticospinal synapses. Proc Natl Acad Sci U S A. 2010 107(34):15252-7

3: Maeda H., Ohno T., Sakurai M.
Optical and electrophysiological recordings of corticospinal synaptic activity and its developmental change in in vitro rat slice co-cultures. Neuroscience. 2007 150(4):829-40

4: Ohno T., Maeda H., Sakurai M.
Regionally specific distribution of corticospinal synapses because of activity-dependent synapse elimination in vitro. J Neurosci. 2004 24(6):1377-84

5．Maeda H., Ellis-Davies G.C., Ito K., Miyashita Y., and Kasai H.
Supralinear Ca2+ Signaling by Cooperative and Mobile Ca2+ Buffering in Purkinje Neurons. Neuron 1999 24 (4): 989 – 1002

6．Ohno H., Goto S., Taki S., Shirasawa T., Nakano H., Miyatake S., Aoe T., Ishida Y., Maeda H., Shirai T., Rajewsky K. and Saito T.
Targeted disruption of the CD3locus causes high lethality in mice: modulation of Oct-1 transcription on the opposite strand. The EMBO Journal 1994 13(5): 1157-1165

7．Fukuda S.*, Maeda H.*, Yoshioka N., Murabe N., Kameda H., and Sakurai M. (2013)
Morphological study on dendritic arborization pattern of motoneurons: Diversity among
pools innervating different types of muscles,
Society for Neuroscience Abstract, 467.10 (*: equal contribution)

8．Fukuda S.*, Maeda H.*, Murabe N., Kameda H., and Sakurai M. (2012)
Motor
neurons receive direct monosynaptic connection from cortico-spinal tract in the rat during early postnatal period,
Society for Neuroscience Abstract, 325.06 (*: equal contribution)

9．Isowaki M., Ohno T., Isoo N., Maeda H., Kobayashi T., Mishina M., and Sakurai M. (2012)
Decline of GluN2B is crucially important for closing the critical period in corticospinal plasticity: Electrophysiological and optical recording study,
Society for Neuroscience Abstract, 135.10

10．Ohno T., Maeda H., Murabe N., Kamiyama T., Yoshioka N., Mishina M., Sakurai M. (2010): Differential effect of GluN2B vs. GluN2A KO in corticospinal synapse elimination during development,
Society for Neuroscience Abstract, 234.15

11．Maeda H., and Sakurai M. (2009) Morphological and electrophysiological studies of the corticoceptive spinal neurons in the early postnatal period,
Society for Neuroscience Abstract, 609.7

12．Ohno T., Maeda H., Murabe N., Kamiyama T., Yoshioka N., Mishina M., and Sakurai M. (2009)
GluRε2 (NR2B)-containing NMDA receptors are specifically involved in the corticospinal synapse elimination during development,
Society for Neuroscience Abstract, 609.8

13．Maeda H., and Sakurai M. (2008) Electrophysiological and morphological studies of the early corticoceptive spinal neurons,
Neuroscience Research, 61/S1 S232

14．Maeda H., Kamiyama T., and Sakurai M. (2008)
Developmental study of electrophysiology and morphology of the rat corticoceptive spinal neurons,
The Journal of Physiological Sciences, 58, S120

15．Maeda H., Kamiyama T., and Sakurai M. (2006)
Polyphasic development of corticospinal synapses: Optical imaging study in acute spinal cord slices,
Society for Neuroscience Abstract, 716.3

16．Maeda H., T., and Sakurai M. (2006)
Spinal neurons that receive early corticospinal input: electrophysiological and morphological studies,
Neuroscience Research, 55, S87

17．Maeda H., Ohno T., and Sakurai M. (2005) Visualization of Corticospinal synaptic spatial response using optical recording system with fast voltage-sensitive dyes,
Society for Neuroscience Abstract, 484.17

18．Maeda H., Ohno T., and Sakurai M. (2004) Developmental redistribution of corticospinal synapses: An optical recording study with fast voltage-sensitive dyes,
Neuroscience Research 50, S52

19．Maeda H., Ito K., Tachikawa H., Ellis-Davies GCR., Miyashita Y., Kasai H. (1999)
High-Affinity Saturable Ca2+ Buffers in Purkinje Cells,
The Japanese Journal of Physiology, 49, S120

20．Maeda H., Ito K., Tachikawa H., Ellis-Davies GCR., Miyashita Y., Kasai H. (1998)
Nonlinear Ca2+ signaling due to high-affinity Ca2+ buffers in cerebellar Purkinje neurons, Society for Neuroscience Abstract 24, 79

21．Maeda H., Ito K., Tachikawa H., Ellis-Davies GCR., Miyashita Y., Kasai H. (1998)
High-Affinity Ca2+ Buffers Play a Non-Linear Ca2+ Signaling in Purkinje Neurons,
Neuroscience Research 22, S120

22．Maeda H., Ito K., Miyashita Y., Kasai H. (1997)
Ca2+ Imaging of Cultured Purkinje Cells Using the Low Affinity Ca2+ BTC,
The Japanese Journal of Physiology 47 (2) S61

23．Maeda H., Ito K., Miyashita Y., Kasai H. (1996)
Micromolar Ca2+ Gradients in the Dendrites of Cultured Cerebellar Purkinje cells,
Neuroscience Research 20, S22