Sorted list by author names
B
Beck DM, Rees G, Frith CD, Lavie N (Nat Neurosci, 2001)
Neural correlates of change detection and change blindness (1)変化ã®æ¤œå‡ºãƒ»è¦‹è½ã¨ã—ã®ç¥žçµŒåŸºç›¤
Berns GS, Chappelow J, Cekic M, Zink CF, Pagnoni G, Martin-Skurski ME (Science ,2006)
Neurobiological substrates of dread (1)「怖れã€ã®ç¥žçµŒåŸºç›¤
Bonneh YS, Cooperman A, Sagi D (Nature, 2001)
Motion-induced blindness in normal observers (1)å¥å¸¸è¦–覚者ã§èµ·ã“る「動ãã«ã‚ˆã£ã¦èª˜ç™ºã•ã‚Œã‚‹ä¸å¯è¦–ã€
Broome BM, Jayaraman V, Laurent G (Neuron, 2006)
Encoding and Decoding of Overlapping Odor Sequences (1)é‡ãªã‚Šåˆã†å—…覚系列ã®ç¬¦å·åŒ–・復å·åŒ–
C
Cavanna AE, Trimble MR (Brain, 2006)
The precuneus: a review of its functional anatomy and behavioural correlates (1)楔å‰éƒ¨ï¼šæ©Ÿèƒ½è§£å‰–å¦çš„知見ã¨è¡Œå‹•ã¨ã®ç›¸é–¢ã®æ¦‚説
Christie J, Klein RM (Percept Psychophys, 2005)
Does attention cause illusory line motion? (1)注æ„ã¯ç·šé‹å‹•éŒ¯è¦–を引ãèµ·ã“ã™ã‹ï¼Ÿ
Connolly JD, Goodale MA, Menon RS, Munoz DP (Nat Neurosci, 2002)
Human fMRI evidence for the neural correlates of preparatory set (1)眼çƒé‹å‹•ã®æº–å‚™ã«é–¢ã™ã‚‹ç¥žçµŒåŸºç›¤ã®ãƒ’トfMRIã«ã‚ˆã‚‹çŸ¥è¦‹
Corbetta M, Shulman GL (Nat Rev Neurosci, 2002)
Control of goal-directed and stimulus-driven attention in the brain (1)脳内ã«ãŠã‘る目的指å‘çš„ãŠã‚ˆã³åˆºæ¿€é§†å‹•çš„ãªè¦–覚的注æ„ã®åˆ¶å¾¡æ©Ÿæ§‹
Crinion J, Turner R, Grogan A, Hanakawa T, Noppeney U, Devlin JT, Aso T, Urayama S, Fukuyama H, Stockton K, Usui K, Green DW, Price CJ (Science, 2006)
Language control in the bilingual brain (1)ãƒã‚¤ãƒªãƒ³ã‚¬ãƒ«ã®è„³ã«ãŠã‘る言語ã®èª¿ç¯€
Curtis CE, D’Esposito M (J Neurophysiol, 2006)
Selection and maintenance of saccade goals in the human frontal eye fields (1)ヒトå‰é 眼野ã«ãŠã‘るサッカード(サッケード)目標ã®é¸æŠžã¨ä¿æŒ
D
Daw ND, O’Doherty JP, Dayan P, Seymour B, Dolan RJ (Nature, 2006)
Cortical substrates for exploratory decisions in humans (1)ヒトã®æƒ…å ±æŽ¢ç´¢ã®æ„æ€æ±ºå®šã«ã‹ã‹ã‚ã‚‹çš®è³ªé ˜åŸŸ
Delgado MR, Frank RH, Phelps EA (Nat Neurosci, 2005)
Perceptions of moral character modulate the neural systems of reward during the trust game (1)信用ゲームã«ãŠã„ã¦å¾³æ€§ã¯å ±é…¬ã®ç¥žçµŒæ©Ÿæ§‹ã«å½±éŸ¿ã‚’åŠã¼ã™
E
Eisenberger NI, Lieberman MD, Williams KD (Science, 2003)
Does rejection hurt? An FMRI study of social exclusion (1)拒絶ã¯ç—›ã‚€ã®ã‹ï¼Ÿæ©Ÿèƒ½çš„ç£æ°—共鳴画åƒæ³•ã«ã‚ˆã‚‹ç¤¾ä¼šçš„疎外ã®ç ”究
F
Fecteau JH, Munoz DP (Trends Cogn Sci. 2006)
Salience, relevance, and firing: a priority map for target selection (1)顕著性ã€é–¢é€£æ€§ã€ãã—ã¦ç™ºç«ï¼šç›®æ¨™é¸æŠžã®ãŸã‚ã®å„ªå…ˆåº¦ãƒžãƒƒãƒ—
Fox MD, Corbetta M, Snyder AZ, Vincent JL, Raichle ME (PNAS, 2006)
Spontaneous neuronal activity distinguishes human dorsal and ventral attention systems (1)自発的ãªç¥žçµŒæ´»å‹•ã¯ãƒ’ト背å´ãƒ»è…¹å´æ³¨æ„システムをå¼åˆ¥ã™ã‚‹
Fransson P (Neuropsychologia. 2006)
How default is the default mode of brain function? Further evidence from intrinsic BOLD signal fluctuation (1)脳機能ã®åŸºæœ¬ãƒ¢ãƒ¼ãƒ‰ã¨ã¯ã©ã†åŸºæœ¬çš„ãªã®ã‹ï¼Ÿå†…在的BOLDä¿¡å·ã®ã°ã‚‰ã¤ãã‹ã‚‰å¾—られãŸã•ã‚‰ãªã‚‹è¨¼æ‹
Friston KJ, Rotshtein P, Geng JJ, Sterzer P, Henson RN (NeuroImage, 2006)
A critique of functional localisers (1)機能部ä½åŒå®šã®ãŸã‚ã®äºˆå‚™å®Ÿé¨“(functional localizer)ã¸ã®æ‰¹åˆ¤
Furey ML, Tanskanen T, Beauchamp MS, Avikainen S, Uutela K, Hari R, Haxby JV (PNAS, 2006)
Dissociation of face-selective cortical responses by attention (2)é¡”é¸æŠžçš„ãªè„³æ´»å‹•ã®æ³¨æ„ã«ã‚ˆã‚‹åˆ†é›¢
H
Hagler DJ Jr, Sereno MI (NeuroImage, 2006)
Spatial maps in frontal and prefrontal cortex (1)å‰é 葉ãŠã‚ˆã³å‰é å‰é‡Žã«ãŠã‘る空間分布図
Hampson M, Driesen NR, Skudlarski P, Gore JC, Constable RT (J Neurosci, 2006)
Brain connectivity related to working memory performance (2)ワーã‚ングメモリ課題ã®æˆç¸¾ã«ç›¸é–¢ã™ã‚‹è„³å†…é ˜é‡Žé–“ã®æ©Ÿèƒ½é€£é–¢
Hietanen JK, Nummenmaa L, Nyman MJ, Parkkola R, Hämäläinen H (Neuroimage. 2006)
Automatic attention orienting by social and symbolic cues activates different neural networks: An fMRI study (1)「眼ã€ã¨ã€ŒçŸ¢å°ã€ã¯ç•°ãªã‚‹ç¨®é¡žã®æ³¨æ„ã‚’å–šèµ·ã™ã‚‹
Hopf JM, Boehler CN, Luck SJ, Tsotsos JK, Heinze HJ, Schoenfeld MA (PNAS, 2006)
Direct neurophysiological evidence for spatial suppression surrounding the focus of attention in vision (2)視覚的注æ„ã®ç„¦ç‚¹å‘¨è¾ºã«ãŠã‘る空間的ãªæŠ‘制ã®ç›´æŽ¥çš„ã§ç¥žçµŒç”Ÿç†å¦çš„ãªè¨¼æ‹
Huettel SA, Guzeldere G, McCarthy G (J Cogn Neurosci, 2001)
Dissociating the neural mechanisms of visual attention in change detection using functional MRI (1)変化ã®æ¤œå‡ºã«ãŠã‘る視覚的注æ„ã®ç¥žçµŒãƒ¡ã‚«ãƒ‹ã‚ºãƒ ã®fMRIを用ã„ã¦ã®åˆ†é›¢
Hulme OJ, Zeki S (Cereb Cortex. 2007)
The Sightless View: Neural Correlates of Occluded Objects (1)éš ã‚Œã¦ã„ãã‚‚ã®ã‚’見続ã‘ã‚‹ã¨ã„ã†ã“ã¨ï¼šéš 蔽ã•ã‚ŒãŸã‚ªãƒ–ジェクトã®èªçŸ¥ã®ç¥žçµŒç›¸é–¢
J
Jackson A, Mavoori J, Fetz EE (Nature, 2006)
Long-term motor cortex plasticity induced by an electronic neural implant (1)電気的神経インプラントã«ã‚ˆã£ã¦å¼•ãèµ·ã“ã•ã‚ŒãŸé‹å‹•é‡Žã®é•·æœŸçš„å¯å¡‘性
K
Kanwisher N, Wojciulik E (Nat Rev Neurosci, 2000)
Visual attention: insights from brain imaging (1)視覚的注æ„:脳機能画åƒã«ã‚ˆã‚‹æ´žå¯Ÿ
L
Lamme VA (Trends Cogn Sci, 2003)
Why visual attention and awareness are different (1)ãªãœè¦–覚的注æ„ã¨æ„è˜ã¯ç•°ãªã‚‹ã®ã‹
Lamme VA (Trends Cogn. Sci., 2006)
Boyer JL, Harrison S, Ro T (Proc. Natl. Acad. Sci. USA, 2005)
ãƒã‚·ãƒƒï¼â€¦æ„è˜çš„・無æ„è˜çš„視覚ã«ãŠã‘ã‚‹ç£å ´ã®ãƒˆãƒªãƒƒã‚¯
Lamy D, Segal H, Ruderman L (Percept Psychophys, 2006)
Grouping does not require attention (1)群化ã¯æ³¨æ„ã‚’å¿…è¦ã¨ã—ãªã„
Le Bihan D, Urayama S, Aso T, Hanakawa T, Fukuyama H (Proc Natl Acad Sci U S A. 2006)
Direct and fast detection of neuronal activation in the human brain with diffusion MRI (1)æ‹¡æ•£MRIã«ã‚ˆã‚‹ãƒ’ト脳ã«ãŠã‘るニューãƒãƒ³æ´»å‹•ã®ç›´æŽ¥çš„ã‹ã¤è¿…速ãªæ¤œå‡º
Lebedev MA, Nicolelis MA (Trends Neurosci, 2006)
Brain-machine interfaces: past, present and future (1)ブレイン・マシン・インタフェース:éŽåŽ»ã€ç¾åœ¨ã€ãã—ã¦æœªæ¥
Leh SE, Johansen-Berg H, Ptito A (Brain, 2006)
Unconscious vision: new insights into the neuronal correlate of blindsight using diffusion tractography (1)ç„¡æ„è˜ã®è¦–覚:盲視ã®ç¥žçµŒç›¸é–¢ã«å¯¾ã™ã‚‹æ‹¡æ•£å¼·èª¿MRIを用ã„ãŸæ–°ãŸãªæ´žå¯Ÿ
Liu J, Harris A, Kanwisher N (Nat Neurosci, 2002)
Stages of processing in face perception: an MEG study (1)é¡”ã®çŸ¥è¦šã«ãŠã‘る段階的処ç†ï¼šMEGã«ã‚ˆã‚‹æ¤œè¨Ž
M
Martinez A, Teder-Salejarvi W, Vazquez M, Molholm S, Foxe JJ, Javitt DC, Di Russo F, Worden MS, Hillyard SA (J Cogn Neurosci, 2006)
Objects are highlighted by spatial attention (1)オブジェクトã¯ç©ºé–“çš„ãªæ³¨æ„ã«ã‚ˆã£ã¦å¼·èª¿ã•ã‚Œã‚‹
McCormick PA, Klein R (Acta Psychol (Amst), 1990)
The spatial distribution of attention during covert visual orienting (1)固視状æ³ä¸‹ã«ãŠã‘る視覚的注æ„ã®æŒ‡å‘ã®ç©ºé–“的分布
Meng M, Tong F (J Vis, 2004)
Can attention selectively bias bistable perception? Differences between binocular rivalry and ambiguous figures (1)注æ„ã¯é¸æŠžçš„ã«çŸ¥è¦šäº¤æ›¿ã‚’åらã›ã‚‹ã“ã¨ãŒã§ãã‚‹ã‹ï¼Ÿä¸¡çœ¼è¦–野闘争ã¨å¤šç¾©å›³å½¢ã¨ã§ã®å·®ç•°
Mevorach C, Humphreys GW, Shalev L (Neuropsychologia, 2006)
Effects of saliency, not global dominance, in patients with left parietal damage (1)å·¦é é ‚è‘‰æ傷患者ã«ãŠã‘ã‚‹ã€å¤§å±€çš„ãªå„ªä½æ€§ã§ã¯ãªã局所的ãªé¡•è‘—性ã®åŠ¹æžœ
Micheyl C, Tian B, Carlyon RP, Rauschecker JP (Neuron, 2005)
Perceptual organization of tone sequences in the auditory cortex of awake macaques (1)覚醒マカクザルã®è´è¦šé‡Žã«ãŠã‘る音階シーケンスã®çŸ¥è¦šæ©Ÿæ§‹
Mukamel R, Gelbard H, Arieli A, Hasson U, Fried I, Malach R (Science, 2005)
Coupling between neuronal firing, field potentials, and FMRI in human auditory cortex (1)ヒトè´è¦šé‡Žã«ãŠã‘るニューãƒãƒ³ç™ºç«ã€å±€æ‰€é›»ä½ã€fMRIä¿¡å·ã®é–“ã®çµã³ã¤ã
Müller MM, Andersen S, Trujillo NJ, Valdés-Sosa P, Malinowski P, Hillyard SA (Proc Natl Acad Sci U S A. 2006)
Feature-selective attention enhances color signals in early visual areas of the human brain (1)ã²ã¨ã¤ã®ç‰¹å¾´é‡ã«æ³¨æ„ãŒå‘ãã¨åˆ¥ã®ç‰¹å¾´é‡ã®çŸ¥è¦šã‚‚増強ã•ã‚Œã‚‹
Muller MM, Malinowski P, Gruber T, Hillyard SA (Nature, 2003)
Sustained division of the attentional spotlight (1)注æ„ã®ã‚¹ãƒãƒƒãƒˆãƒ©ã‚¤ãƒˆã®æŒç¶šçš„ãªåˆ†å‰²
Murray SO, Boyaci H, Kersten D (Nat Neurosci, 2006)
The representation of perceived angular size in human primary visual cortex (1)ヒト一次視覚野ã«ãŠã‘る知覚ã•ã‚ŒãŸè¦–野角ã®è¡¨ç¾
N
Niessing J, Ebisch B, Schmidt KE, Niessing M, Singer W, Galuske RA (Science, 2005)
Hemodynamic signals correlate tightly with synchronized gamma oscillations (1)ヘモグãƒãƒ“ン動態ã¯åŒæœŸã—ãŸã‚¬ãƒ³ãƒžå¸¯åŸŸæŒ¯å‹•ã¨å¼·ã相関ã™ã‚‹
Nobre AC, Coull JT, Maquet P, Frith CD, Vandenberghe R, Mesulam MM (J Cogn Neurosci, 2004)
Orienting attention to locations in perceptual versus mental representations (1)知覚表ç¾ãŠã‚ˆã³å†…的表ç¾ã«ãŠã‘る空間的ä½ç½®ã¸ã®æ³¨æ„ã®æŒ‡å‘
O
Oakes TR, Johnstone T, Ores Walsh KS, Greischar LL, Alexander AL, Fox AS, Davidson RJ (NeuroImage, 2005)
Comparison of fMRI motion correction software tools (1)fMRI体動アーãƒãƒ•ã‚¡ã‚¯ãƒˆè£œæ£ã‚½ãƒ•ãƒˆã‚¦ã‚§ã‚¢ã®æ¯”較
Olk B, Kingstone A (NeuroReport, 2003)
Why are antisaccades slower than prosaccades? A novel finding using a new paradigm (1)ãªãœã‚¢ãƒ³ãƒãƒ»ã‚µãƒƒã‚«ãƒ¼ãƒ‰ã¯ãƒ—ãƒãƒ»ã‚µãƒƒã‚«ãƒ¼ãƒ‰ã‚ˆã‚Šé…ã„ã®ã‹ï¼Ÿï¼šæ–°ã—ã„パラダイムã«ã‚ˆã‚‹æ–°çŸ¥è¦‹
Owen AM, Coleman MR, Boly M, Davis MH, Laureys S, Pickard JD (Science, 2006)
Detecting awareness in the vegetative state (2)æ¤ç‰©çŠ¶æ…‹ã«ãŠã‘ã‚‹æ„è˜ã®æ¤œå‡º
P
Parks NA, Corballis PM (NeuroReport, 2006)
Attending to depth: electrophysiological evidence for a viewer-centered asymmetry (1)奥行ãã¸ã®æ³¨æ„:観察者をä¸å¿ƒã¨ã—ãŸéžå¯¾ç§°æ€§ã®é›»æ°—生ç†å¦çš„ãªè¨¼æ‹
Pitzalis S, Galletti C, Huang RS, Patria F, Committeri G, Galati G, Fattori P, Sereno MI (J Neurosci, 2006)
Wide-field retinotopy defines human cortical visual area V6 (1)広範囲視野ã®ãƒ¬ãƒãƒŽãƒˆãƒ”ーã¯ãƒ’トV6野を定義ã™ã‚‹
Pitzalis S, Galletti C, Huang RS, Patria F, Committeri G, Galati G, Fattori P, Sereno MI (J Neurosci. 2006)
Wide-field retinotopy defines human cortical visual area V6 (1)広範囲ã«æ¸¡ã‚‹ãƒ¬ãƒãƒŽãƒˆãƒ”ーã¯ãƒ’トV6野をè¦å®šã™ã‚‹
R
Ress D, Heeger DJ (Nat Neurosci, 2003)
Neuronal correlates of perception in early visual cortex (1)一次視覚野ã«ãŠã‘る知覚ç¾è±¡ã®ç¥žçµŒåŸºç›¤
Rodriguez E, George N, Lachaux JP, Martinerie J, Renault B, Varela FJ (Nature, 1999)
Perception’s shadow: long-distance synchronization of human brain activity (1)知覚ã®å½±ï¼šãƒ’トã®è„³æ´»å‹•ã«ãŠã‘る広範囲ã®åŒæœŸç¾è±¡
Rodriguez-Fornells A, Rotte M, Heinze HJ, Nosselt T, Munte TF (Nature, 2002)
Brain potential and functional MRI evidence for how to handle two languages with one brain (1)一ã¤ã®è„³ã§äºŒã¤ã®è¨€èªžã‚’æ“る方法ã«ã¤ã„ã¦ã®è„³é›»ä½ã¨æ©Ÿèƒ½çš„ç£æ°—共鳴画åƒæ³•ã‹ã‚‰ã®è¨¼æ‹
Roebroeck A, Formisano E, Goebel R (NeuroImage, 2005)
Mapping directed influence over the brain using Granger causality and fMRI (1)ã‚°ãƒ¬ãƒ³ã‚¸ãƒ£ãƒ¼å› æžœæ€§ã¨fMRIを用ã„ãŸè„³å…¨ä½“ã«ã‚ãŸã‚‹ç›´æŽ¥çš„ãªè³¦æ´»ã®å½±éŸ¿ã®ãƒžãƒƒãƒ”ング
Rushworth MF, Behrens TE, Johansen-Berg H (Cereb Cortex, 2006)
Connection patterns distinguish 3 regions of human parietal cortex (1)神経線ç¶é€£çµ¡ã®ãƒ‘ターンã«ã‚ˆã£ã¦ãƒ’トé é ‚è‘‰ã¯3ã¤ã®é ˜åŸŸã«åˆ†ã‘られる
S
Sahraie A, Trevethan CT, MacLeod MJ, Murray AD, Olson JA, Weiskrantz L (PNAS, 2006)
Increased sensitivity after repeated stimulation of residual spatial channels in blindsight (1)Blindsightã§ã®å¼åˆ¥èƒ½ã¯åˆºæ¿€æ示ã®ç¹°ã‚Šè¿”ã—ã«ã‚ˆã£ã¦å‘上ã™ã‚‹
Samejima K, Ueda Y, Doya K, Kimura M (Science, 2005)
Representation of action-specific reward values in the striatum (1)ç·šæ¡ä½“ã«ãŠã‘る「行動ã®ä¾¡å€¤ã€ã®è¡¨ç¾
Saur D, Lange R, Baumgaertner A, Schraknepper V, Willmes K, Rijntjes M, Weiller C (Brain, 2006)
Dynamics of language reorganization after stroke (1)脳å’ä¸ç™ºç—‡å¾Œã®è¨€èªžæ©Ÿèƒ½å†æ§‹ç¯‰ã®ãƒ€ã‚¤ãƒŠãƒŸã‚¯ã‚¹
Saxe R, Brett M, Kanwisher N (NeuroImage, 2006)
Divide and conquer: a defense of functional localizers (1)分割ã—ã€ãã—ã¦å¾æœã›ã‚ˆï¼šæ©Ÿèƒ½éƒ¨ä½åŒå®šã®ãŸã‚ã®äºˆå‚™å®Ÿé¨“(functional localizer)ã¸ã®å¼è·
Sereno MI, Huang RS (Nat Neurosci. 2006)
A human parietal face area contains aligned head-centered visual and tactile maps (1)ヒトé é ‚è‘‰ã«ãŠã‘ã‚‹é¡”é¸æŠžæ€§é ˜é‡Žã¯ã€äº’ã„ã«ä½ç½®åˆã‚ã›ã®ãªã•ã‚ŒãŸé 部ä¸å¿ƒåº§æ¨™ç³»ã«åŸºã¥ã視覚・体性感覚マップを表ç¾ã—ã¦ã„ã‚‹
Shima K, Isoda M, Mushiake H, Tanji J (Nature, 2007)
Categorization of behavioural sequences in the prefrontal cortex (1)å‰é å‰é‡Žçš®è³ªã«ãŠã‘る行動シーケンスã®ã‚«ãƒ†ã‚´ãƒªãƒ¼åŒ–
Shmuel A, Augath M, Oeltermann A, Logothetis NK (Nat Neurosci, 2006)
Negative functional MRI response correlates with decreases in neuronal activity in monkey visual area V1 (1)サルV1野ã«ãŠã„ã¦ãƒ‹ãƒ¥ãƒ¼ãƒãƒ³æ´»å‹•ã®ä½Žä¸‹ã¨é™°æ€§fMRIä¿¡å·ã¯äº’ã„ã«ç›¸é–¢ã™ã‚‹
Shulman GL, McAvoy MP, Cowan MC, Astafiev SV, Tansy AP, d’Avossa G, Corbetta M (J Neurophysiol. 2003)
Quantitative Analysis of Attention and Detection Signals During Visual Search (1)視覚探索ã«ãŠã‘る注æ„・検出信å·ã®å®šé‡çš„解æž
Silver MA, Ress D, Heeger DJ (J Neurophysiol, 2005)
Topographic maps of visual spatial attention in human parietal cortex (1)ヒトé é ‚è‘‰ã«ãŠã‘る視空間的注æ„ã®åœ°å½¢å›³çš„分布図
Slotnick SD, Thompson WL, Kosslyn SM (Cereb Cortex, 2005)
Visual mental imagery induces retinotopically organized activation of early visual areas (1)内的ãªè¦–覚的想起ã¯è¦–覚野ã®ãƒ¬ãƒãƒŽãƒˆãƒ”ー様ã«æ§‹æˆã•ã‚ŒãŸè³¦æ´»ã‚’å–šèµ·ã™ã‚‹
Slotnick SD, Yantis S (Brain Res Cogn Brain Res, 2005)
Common neural substrates for the control and effects of visual attention and perceptual bistability (1)視覚的注æ„ã¨çŸ¥è¦šäº¤æ›¿ã®ã‚³ãƒ³ãƒˆãƒãƒ¼ãƒ«ã¨ãã®åŠ¹æžœã«å…±é€šã™ã‚‹ç¥žçµŒåŸºç›¤
Song WQ, Li X, Luo YJ, Du BQ, Ji XM (Neuroreport, 2006)
Brain dynamic mechanisms of scale effect in visual spatial attention (1)視覚的注æ„ã®ã‚ºãƒ¼ãƒ レンズ効果をERPã§è©•ä¾¡ã™ã‚‹
Sugrue LP, Corrado GS, Newsome WT (Science, 2004)
Matching behavior and the representation of value in the parietal cortex (1)é©åˆè¡Œå‹•ã¨é é ‚è‘‰ã«ãŠã‘ã‚‹ãã®ä¾¡å€¤ã®è¡¨ç¾
Suzuki H, Azuma M (Exp Brain Res, 1983)
Topographic studies on visual neurons in the dorsolateral prefrontal cortex of the monkey (1)サル背外å´å‰é å‰é‡Žã«ãŠã‘る視覚å応性ニューãƒãƒ³ã®åœ°å½¢å›³çš„ç ”ç©¶
T
Talsma D, Slagter HA, Nieuwenhuis S, Hage J, Kok A (Brain Res Cogn Brain Res, 2005)
The orienting of visuospatial attention: an event-related brain potential study (1)視空間的注æ„ã®æŒ‡å‘:事象関連電ä½ã«ã‚ˆã‚‹ç ”究
Turkeltaub PE, Gareau L, Flowers DL, Zeffiro TA, Eden GF (Nat Neurosci, 2003)
Development of neural mechanisms for reading (1)書å—ç†è§£ã«é–¢ã™ã‚‹ç¥žçµŒæ©Ÿæ§‹ã®ç™ºé”
V
VanRullen R, Reddy L, Koch C (J Neurosci, 2006)
The continuous wagon wheel illusion is associated with changes in electroencephalogram power at approximately 13 Hz (1)æŒç¶šçš„ãªwagon-wheel錯視ã¯è„³æ³¢ã«ãŠã‘ã‚‹13Hzå‰å¾Œã®ãƒ‘ワーã®å¤‰åŒ–ã¨é–¢é€£ã™ã‚‹
Vossel S, Thiel CM, Fink GR (Neuroimage. 2006)
Cue validity modulates the neural correlates of covert endogenous orienting of attention in parietal and frontal cortex (1)Posnerパラダイムã«ãŠã‘ã‚‹validityãŒåˆºæ¿€é§†å‹•çš„ãªæ³¨æ„ã®ç¥žçµŒåŸºç›¤ã«åŠã¼ã™åŠ¹æžœ
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Warnking J, Dojat M, Guérin-Dugué A, Delon-Martin C, Olympieff S, Richard N, Chéhikian A, Segebarth C (Neuroimage. 2002)
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The Neural Mechanisms Underlying the Muller-Lyer Illusion And Its Interaction with Visuospatial Judgments (1)ミューラー・リヤー錯視ã®ç¥žçµŒãƒ¡ã‚«ãƒ‹ã‚ºãƒ ãŠã‚ˆã³ãã®è¦–空間的判別ã¨ã®é–“ã®ç›¸é–¢
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Gamma-band synchronization in visual cortex predicts speed of change detection (1)視覚皮質ã«ãŠã‘るガンマ帯域ã®åŒèª¿åº¦ã‹ã‚‰å¤‰åŒ–検出ã®é€Ÿã•ã‚’予測ã™ã‚‹
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Electrophysiological measurement of rapid shifts of attention during visual search (1)視覚探索ã«ãŠã‘る注æ„ã®é«˜é€Ÿç§»å‹•ã®é›»æ°—生ç†å¦çš„測定
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Magnetic resonance imaging of freely moving objects: prospective real-time motion correction using an external optical motion tracking system (1)自由ã«å‹•ã物体ã®MRIæ’®åƒï¼šå¤–部光å¦è¿½è·¡ã‚·ã‚¹ãƒ†ãƒ を用ã„ãŸãƒªã‚¢ãƒ«ã‚¿ã‚¤ãƒ 体動補æ£