研究業績

 

Kameda, M., Ohmae,S. & Tanaka, M.

Entrained neuronal activity to periodic visual stimuli in the primate striatum compared with the cerebellum.

eLife 8:e48702 (https://elifesciences.org/articles/48702) (PubMedへ)

 

Suzuki, T.W.& Tanaka, M.

Neural oscillations in the primate caudate nucleus correlate with different preparatory states for temporal production.

Commun Biol 2: 102 (https://www.nature.com/articles/s42003-019-0345-2) (日本語要約:北海道医学雑誌)

 

Miterko, L.N., …, Tanaka, M. (27名中21番目), …, Sillitoe, R.V. (2019)
Consensus paper: Experimental neurostimulation of the cerebellum.
Cerebellum (in press) (https://www.ncbi.nlm.nih.gov/pubmed/31165428)


Takeya, R.,Patel, A.D. & Tanaka, M.

Temporal generalization of synchronized saccades beyond the trained range in monkeys.

Front Psychol (https://doi.org/10.3389/fpsyg.2018.02172)

Kunimatsu, J. Suzuki, T.W.,Ohmae,S. & Tanaka, M.

Different contributions of preparatory activity in the basal ganglia and cerebellum for self-timing.

eLife 7:e35676 (https://elifesciences.org/articles/35676)  (日本語要約:北海道医学雑誌)

 

竹谷隆司田中真樹

第5章6節「注意の神経メカニズム」、7節「注意の障害」
新 感覚・知覚心理学ハンドブック、誠信社、東京 (in press)

 

田中真樹

第57章「小脳と大脳基底核の運動全般における役割」(邦訳)

ガイトン生理学原著13版 (Guyton and Hall Textbook of Medical Physioligy, 13th ed) pp.645-659

 

 

Causal role of noradrenaline in the timing of internally-generated saccades in monkeys.
Neuroscience 366: 15-22 (PubMedへ) 

 

Takeya, R., Kameda, M., Patel, A.D. & Tanaka, M.
Predictive and tempo-flexible synchronization to a visual metronome in monkeys.
Sci Rep 7: 6127 (www.nature.com/articles/s41598-017-06417-3) (日本語要約:北海道医学雑誌)


Cerebellar roles in self-timing for sub- and supra-second intervals.

J Neurosci 37: 3511-3522 (PubMedへ)

 

Uematsu, A., Ohmae, S. & Tanaka, M.
Facilitation of temporal prediction by electrical stimulation to the primate cerebellar nuclei.
Neuroscience  346: 190-196 (PubMedへ)

 

竹谷隆司田中真樹

注意の脳内ネットワーク
Clinical Neuroscience 35: 938-940(北澤 茂 他編) 中外医学社、東京

 

計時と予測の神経機構
脳と神経(Brain and Nerve) 69: 1213-1222

 

Suzuki, T.W., Kunimatsu, J. & Tanaka, M.

Correlation between pupil size and subjective passage of time in non-human primates.

J Neurosci 36: 11331-11337 (PubMedへ) (ScienceNewsへ)

 (日本語要約:北海道医学雑誌)


Kunimatsu, J. & Tanaka, M.

Striatal dopamine modulates timing of self-initiated saccades.

Neuroscience 337: 131-142 (PubMedへ)

 

Kunimatsu, J., Suzuki, T.W. & Tanaka, M.

Implications of lateral cerebellum in proactive control of saccades.

J Neurosci 36: 7066-7074 (PubMedへ)


Ohmae, S. & Tanaka, M.

Two different mechanisms for the detection of stimulus omission.
Sci Rep 6: 20615 (www.nature.com/articles/srep20615) (日本語要約) 

 


Application of radiosurgical techniques to produce a primate model of brain lesions.

Front. Syst. Neurosci. | doi: 10.3389/fnsys.2015.00067

 

Two types of neurons in the primate globus pallidus external segment play distinct roles in antisaccade generation.
Cereb Cortex 26: 1187-1199 (PubMedへ) (日本語要約:北海道医学雑誌)


高次脳機能と小脳
Annual Review 神経2015(鈴木則宏、祖父江元、宇川義一 他編)中外医学社、東京

 

 

Differential neuronal representation of spatial attention dependent on relative target locations during multiple object tracking.
J Neurosci 34: 9963-9969 (PubMedへ)

 

Different neuronal computations of spatial working memory for multiple locations within versus across visual hemifields.
J Neurosci 34: 5621-5626 (PubMedへ)


田中真樹松嶋藻乃
第39章「視線の制御」(邦訳)
カンデル神経科学(Principles of Neural Science, 5th ed)

 

田中真樹
時間情報処理における大脳小脳連関の役割
ブレインサイエンス・レビュー2014(廣川信隆編)クバプロ、東京.165-186

 

田中真樹

聴覚・前庭系

心理学辞典(下山晴彦、筒井健一郎 他編)誠心書房、東京.473-475


 

Temporally specific sensory signals for the detection of stimulus omission in the primate deep cerebellar nuclei.
J Neurosci 33: 15432-15441 (PubMedへ) (日本語要約:北海道医学雑誌) 

 

Manipulation of object choice by electrical microstimulation in macaque frontal eye fields.
Cereb Cortex 24: 1493-1501 (PubMedへ) (日本語要約:北海道医学雑誌)

 

Retrospective and prospective information coding by different neurons in the prefrontal cortex.
Neuroreport 24: 73-78 (PubMedへ)

 

時間の測り方 ―脳による時間の符号化
脳と神経(Brain and Nerve) 65: 941-948.

 

國松 淳、田中真樹

視床大脳経路による運動の制御:ニホンザルの眼球運動を指標とした研究
比較生理生化学会誌 29: 235-241

 

 

2012

Alteration of the timing of self-initiated but not reactive saccades by electrical stimulation in the supplementary eye field.
Eur J Neurosci 36: 3258-3268 (PubMedへ) (日本語要約:北海道医学雑誌) 

   

Neuronal correlates of multiple top-down signals during covert tracking of moving objects in macaque prefrontal cortex.
J Cogn Neurosci 24: 2043-2056 (PubMedへ) (日本語要約:北海道医学雑誌) 

 

松嶋藻乃田中真樹

脳科学辞典「空間的注意」(webページへ)

 


 

2011

Contribution of the central thalamus to the generation of volitional saccades.
Eur J Neurosci 33: 2046-2057 (PubMedへ)

 

“Thalamic roles in eye movements”
In: Oxford Handbook on Eye Movements (S.P. Liversedge, I.D. Glichrist, S. Everling, Eds.),
Oxford University Press, UK

眼球運動制御からみた視床大脳経路の機能解析
脳と神経(Brain and Nerve) 63: 871-877



2010

Roles of the primate motor thalamus in the generation of antisaccades.
J Neurosci 30: 5108-5117 (PubMedへ)

 

「第7章 注意と眼球運動」
In: イラストレクチャー認知神経科学(村上郁也 編)
オーム社、東京(pp. 108-124, ISBN:978-4-274-20822-5)



2009以前

Enhanced modulation of neuronal activity during antisaccades in the primate globus pallidus. (PubMedへ)
Cereb Cortex 19: 206-217 (2009)


Neuronal activity in the primate globus pallidus during smooth pursuit eye movements. (PubMedへ)
NeuroReport 20: 121-125 (2009)


Spatiotemporal properties of eye position signals in the primate central thalamus. (PubMedへ)
Cereb Cortex 17: 1504-1515 (2007)


Cognitive signals in the primate motor thalamus predict saccade timing. (PubMedへ)
J Neurosci 27: 12109-12118 (2007)

Inactivation of the central thalamus delays self-timed saccades. (PubMedへ)
Nature Neurosci 9: 20-22 (2006)


運動性視床による眼球運動の制御
実験医学(増刊)Vol. 24 No. 15: 208-214 (2006)

Involvement of the central thalamus in the control of smooth pursuit eye movements. (PubMedへ)
J Neurosci 25: 5866-5876(2005)


Effects of eye position on estimates of eye displacement for spatial updating. (PubMedへ)
NeuroReport 16: 1261-1265 (2005)


Contribution of signals downstream from adaptation to saccade programming. (PubMedへ)
J Neurophysiol 90: 2080-2086 (2003)

 

Enhancement of multiple components of pursuit eye movement by microstimulation in the arcuate frontal pursuit area in monkeys. (PubMedへ)
J Neurophysiol 87: 802-818 (2002)


Role of arcuate frontal cortex of monkeys in smooth pursuit eye movements. I. Basic response properties to retinal image motion and position. (PubMedへ)
J Neurophysiol 87: 2684-2699 (2002)


Role of arcuate frontal cortex of monkeys in smooth pursuit eye movements. II. Relation to vector averaging pursuit. (PubMedへ)
J Neurophysiol 87: 2700-2714 (2002)


Regulation of the gain of visually guided smooth-pursuit eye movements by frontal cortex. (PubMedへ)
Nature 409: 191-194 (2001)


Context-dependent smooth eye movements evoked by stationary visual stimuli in trained monkeys. (PubMedへ)
J Neurophysiol 84: 1748-1762 (2000)


Latency of saccades during smooth pursuit eye movement in man: directional asymmetries. (PubMedへ)
Exp Brain Res 121: 92-98 (1998)


Neuronal responses related to smooth pursuit eye movements in the periarcuate cortical area of monkeys. (PubMedへ)
J Neurophysiol 80: 28-47 (1998)


Slow eye movement evoked by sudden appearance of a stationary visual stimulus in a step-ramp smooth pursuit task in monkey.(PubMedへ)
Neurosci Res 29: 93-98 (1997)


Adaptive changes in human smooth pursuit eye movement. (PubMedへ)
Neurosci Res 25: 391-398 (1996)