B Luna, K R Thulborn, M H Strojwas, B J McCurtain, R A Berman, C R Genovese, J A Sweeney. Cereb Cortex 1998
Times Cited: 291
Times Cited: 291
Times Cited
Times Co-cited
Similarity
Location and function of the human frontal eye-field: a selective review.
T Paus. Neuropsychologia 1996
T Paus. Neuropsychologia 1996
30
A common network of functional areas for attention and eye movements.
M Corbetta, E Akbudak, T E Conturo, A Z Snyder, J M Ollinger, H A Drury, M R Linenweber, S E Petersen, M E Raichle, D C Van Essen,[...]. Neuron 1998
M Corbetta, E Akbudak, T E Conturo, A Z Snyder, J M Ollinger, H A Drury, M R Linenweber, S E Petersen, M E Raichle, D C Van Essen,[...]. Neuron 1998
23
Control of goal-directed and stimulus-driven attention in the brain.
Maurizio Corbetta, Gordon L Shulman. Nat Rev Neurosci 2002
Maurizio Corbetta, Gordon L Shulman. Nat Rev Neurosci 2002
23
Look away: the anti-saccade task and the voluntary control of eye movement.
Douglas P Munoz, Stefan Everling. Nat Rev Neurosci 2004
Douglas P Munoz, Stefan Everling. Nat Rev Neurosci 2004
21
Human fMRI evidence for the neural correlates of preparatory set.
Jason D Connolly, Melvyn A Goodale, Ravi S Menon, Douglas P Munoz. Nat Neurosci 2002
Jason D Connolly, Melvyn A Goodale, Ravi S Menon, Douglas P Munoz. Nat Neurosci 2002
20
Primate frontal eye fields. I. Single neurons discharging before saccades.
C J Bruce, M E Goldberg. J Neurophysiol 1985
C J Bruce, M E Goldberg. J Neurophysiol 1985
20
Neural processes associated with antisaccade task performance investigated with event-related FMRI.
Kristen A Ford, Herbert C Goltz, Matthew R G Brown, Stefan Everling. J Neurophysiol 2005
Kristen A Ford, Herbert C Goltz, Matthew R G Brown, Stefan Everling. J Neurophysiol 2005
18
18
Neurophysiology and neuroanatomy of reflexive and volitional saccades: evidence from studies of humans.
Jennifer E McDowell, Kara A Dyckman, Benjamin P Austin, Brett A Clementz. Brain Cogn 2008
Jennifer E McDowell, Kara A Dyckman, Benjamin P Austin, Brett A Clementz. Brain Cogn 2008
17
Frontoparietal activation with preparation for antisaccades.
Matthew R G Brown, Tutis Vilis, Stefan Everling. J Neurophysiol 2007
Matthew R G Brown, Tutis Vilis, Stefan Everling. J Neurophysiol 2007
17
Local morphology predicts functional organization of the dorsal premotor region in the human brain.
Céline Amiez, Penelope Kostopoulos, Anne-Sophie Champod, Michael Petrides. J Neurosci 2006
Céline Amiez, Penelope Kostopoulos, Anne-Sophie Champod, Michael Petrides. J Neurosci 2006
15
Neuronal correlates for preparatory set associated with pro-saccades and anti-saccades in the primate frontal eye field.
S Everling, D P Munoz. J Neurosci 2000
S Everling, D P Munoz. J Neurosci 2000
15
Functional magnetic resonance imaging of macaque monkeys performing visually guided saccade tasks: comparison of cortical eye fields with humans.
Minoru Koyama, Isao Hasegawa, Takahiro Osada, Yusuke Adachi, Kiyoshi Nakahara, Yasushi Miyashita. Neuron 2004
Minoru Koyama, Isao Hasegawa, Takahiro Osada, Yusuke Adachi, Kiyoshi Nakahara, Yasushi Miyashita. Neuron 2004
15
Primate frontal eye fields. II. Physiological and anatomical correlates of electrically evoked eye movements.
C J Bruce, M E Goldberg, M C Bushnell, G B Stanton. J Neurophysiol 1985
C J Bruce, M E Goldberg, M C Bushnell, G B Stanton. J Neurophysiol 1985
14
Dissociation of saccade-related and pursuit-related activation in human frontal eye fields as revealed by fMRI.
L Petit, V P Clark, J Ingeholm, J V Haxby. J Neurophysiol 1997
L Petit, V P Clark, J Ingeholm, J V Haxby. J Neurophysiol 1997
14
Mapping of contralateral space in retinotopic coordinates by a parietal cortical area in humans.
M I Sereno, S Pitzalis, A Martinez. Science 2001
M I Sereno, S Pitzalis, A Martinez. Science 2001
13
Positron emission tomography study of voluntary saccadic eye movements and spatial working memory.
J A Sweeney, M A Mintun, S Kwee, M B Wiseman, D L Brown, D R Rosenberg, J R Carl. J Neurophysiol 1996
J A Sweeney, M A Mintun, S Kwee, M B Wiseman, D L Brown, D R Rosenberg, J R Carl. J Neurophysiol 1996
13
An anatomical landmark for the supplementary eye fields in human revealed with functional magnetic resonance imaging.
M H Grosbras, E Lobel, P F Van de Moortele, D LeBihan, A Berthoz. Cereb Cortex 1999
M H Grosbras, E Lobel, P F Van de Moortele, D LeBihan, A Berthoz. Cereb Cortex 1999
13
Cortical networks subserving pursuit and saccadic eye movements in humans: an FMRI study.
R A Berman, C L Colby, C R Genovese, J T Voyvodic, B Luna, K R Thulborn, J A Sweeney. Hum Brain Mapp 1999
R A Berman, C L Colby, C R Genovese, J T Voyvodic, B Luna, K R Thulborn, J A Sweeney. Hum Brain Mapp 1999
13
Inhibition and generation of saccades: rapid event-related fMRI of prosaccades, antisaccades, and nogo trials.
Matthew R G Brown, Herbert C Goltz, Tutis Vilis, Kristen A Ford, Stefan Everling. Neuroimage 2006
Matthew R G Brown, Herbert C Goltz, Tutis Vilis, Kristen A Ford, Stefan Everling. Neuroimage 2006
13
12
Success and failure suppressing reflexive behavior.
Clayton E Curtis, Mark D'Esposito. J Cogn Neurosci 2003
Clayton E Curtis, Mark D'Esposito. J Cogn Neurosci 2003
12
The assessment and analysis of handedness: the Edinburgh inventory.
R C Oldfield. Neuropsychologia 1971
R C Oldfield. Neuropsychologia 1971
12
Functional anatomy of pursuit eye movements in humans as revealed by fMRI.
L Petit, J V Haxby. J Neurophysiol 1999
L Petit, J V Haxby. J Neurophysiol 1999
12
Preparatory set associated with pro-saccades and anti-saccades in humans investigated with event-related FMRI.
Joseph F X DeSouza, Ravi S Menon, Stefan Everling. J Neurophysiol 2003
Joseph F X DeSouza, Ravi S Menon, Stefan Everling. J Neurophysiol 2003
12
Location of the human frontal eye field as defined by electrical cortical stimulation: anatomical, functional and electrophysiological characteristics.
O Blanke, L Spinelli, G Thut, C M Michel, S Perrig, T Landis, M Seeck. Neuroreport 2000
O Blanke, L Spinelli, G Thut, C M Michel, S Perrig, T Landis, M Seeck. Neuroreport 2000
11
fMRI activation in the human frontal eye field is correlated with saccadic reaction time.
Jason D Connolly, Melvyn A Goodale, Herbert C Goltz, Douglas P Munoz. J Neurophysiol 2005
Jason D Connolly, Melvyn A Goodale, Herbert C Goltz, Douglas P Munoz. J Neurophysiol 2005
11
Cortical control of saccades and fixation in man. A PET study.
T J Anderson, I H Jenkins, D J Brooks, M B Hawken, R S Frackowiak, C Kennard. Brain 1994
T J Anderson, I H Jenkins, D J Brooks, M B Hawken, R S Frackowiak, C Kennard. Brain 1994
11
Activation of frontoparietal cortices during memorized triple-step sequences of saccadic eye movements: an fMRI study.
W Heide, F Binkofski, R J Seitz, S Posse, M F Nitschke, H J Freund, D Kömpf. Eur J Neurosci 2001
W Heide, F Binkofski, R J Seitz, S Posse, M F Nitschke, H J Freund, D Kömpf. Eur J Neurosci 2001
11
Topography of projections to posterior cortical areas from the macaque frontal eye fields.
G B Stanton, C J Bruce, M E Goldberg. J Comp Neurol 1995
G B Stanton, C J Bruce, M E Goldberg. J Comp Neurol 1995
11
AFNI: software for analysis and visualization of functional magnetic resonance neuroimages.
R W Cox. Comput Biomed Res 1996
R W Cox. Comput Biomed Res 1996
11
An integrated software suite for surface-based analyses of cerebral cortex.
D C Van Essen, H A Drury, J Dickson, J Harwell, D Hanlon, C H Anderson. J Am Med Inform Assoc 2001
D C Van Essen, H A Drury, J Dickson, J Harwell, D Hanlon, C H Anderson. J Am Med Inform Assoc 2001
11
Comparison of memory- and visually guided saccades using event-related fMRI.
M R G Brown, J F X DeSouza, H C Goltz, K Ford, R S Menon, M A Goodale, S Everling. J Neurophysiol 2004
M R G Brown, J F X DeSouza, H C Goltz, K Ford, R S Menon, M A Goodale, S Everling. J Neurophysiol 2004
12
Eye movement control by the cerebral cortex.
Charles Pierrot-Deseilligny, Dan Milea, René M Müri. Curr Opin Neurol 2004
Charles Pierrot-Deseilligny, Dan Milea, René M Müri. Curr Opin Neurol 2004
10
Frontal lobe lesions in man cause difficulties in suppressing reflexive glances and in generating goal-directed saccades.
D Guitton, H A Buchtel, R M Douglas. Exp Brain Res 1985
D Guitton, H A Buchtel, R M Douglas. Exp Brain Res 1985
10
Decomposing the neural correlates of antisaccade eye movements using event-related FMRI.
Ulrich Ettinger, Dominic H Ffytche, Veena Kumari, Norbert Kathmann, Benedikt Reuter, Fernando Zelaya, Steven C R Williams. Cereb Cortex 2008
Ulrich Ettinger, Dominic H Ffytche, Veena Kumari, Norbert Kathmann, Benedikt Reuter, Fernando Zelaya, Steven C R Williams. Cereb Cortex 2008
10
Distribution of activity across the monkey cerebral cortical surface, thalamus and midbrain during rapid, visually guided saccades.
Justin T Baker, Gaurav H Patel, Maurizio Corbetta, Lawrence H Snyder. Cereb Cortex 2006
Justin T Baker, Gaurav H Patel, Maurizio Corbetta, Lawrence H Snyder. Cereb Cortex 2006
14
Saccade preparation signals in the human frontal and parietal cortices.
Clayton E Curtis, Jason D Connolly. J Neurophysiol 2008
Clayton E Curtis, Jason D Connolly. J Neurophysiol 2008
12
An effect of context on saccade-related behavior and brain activity.
Kara A Dyckman, Jazmin Camchong, Brett A Clementz, Jennifer E McDowell. Neuroimage 2007
Kara A Dyckman, Jazmin Camchong, Brett A Clementz, Jennifer E McDowell. Neuroimage 2007
14
Topographic organization for delayed saccades in human posterior parietal cortex.
Denis Schluppeck, Paul Glimcher, David J Heeger. J Neurophysiol 2005
Denis Schluppeck, Paul Glimcher, David J Heeger. J Neurophysiol 2005
9
A Population-Average, Landmark- and Surface-based (PALS) atlas of human cerebral cortex.
David C Van Essen. Neuroimage 2005
David C Van Essen. Neuroimage 2005
9
Gaze-centered updating of visual space in human parietal cortex.
W Pieter Medendorp, Herbert C Goltz, Tutis Vilis, J Douglas Crawford. J Neurosci 2003
W Pieter Medendorp, Herbert C Goltz, Tutis Vilis, J Douglas Crawford. J Neurosci 2003
9
Age-related performance of human subjects on saccadic eye movement tasks.
D P Munoz, J R Broughton, J E Goldring, I T Armstrong. Exp Brain Res 1998
D P Munoz, J R Broughton, J E Goldring, I T Armstrong. Exp Brain Res 1998
9
Functional MRI mapping of brain activation during visually guided saccades and antisaccades: cortical and subcortical networks.
Tetsuya Matsuda, Masato Matsuura, Tatsunobu Ohkubo, Hiromi Ohkubo, Eisuke Matsushima, Kentaro Inoue, Masato Taira, Takuya Kojima. Psychiatry Res 2004
Tetsuya Matsuda, Masato Matsuura, Tatsunobu Ohkubo, Hiromi Ohkubo, Eisuke Matsushima, Kentaro Inoue, Masato Taira, Takuya Kojima. Psychiatry Res 2004
9
Maturation of widely distributed brain function subserves cognitive development.
B Luna, K R Thulborn, D P Munoz, E P Merriam, K E Garver, N J Minshew, M S Keshavan, C R Genovese, W F Eddy, J A Sweeney. Neuroimage 2001
B Luna, K R Thulborn, D P Munoz, E P Merriam, K E Garver, N J Minshew, M S Keshavan, C R Genovese, W F Eddy, J A Sweeney. Neuroimage 2001
9
Cortical control of reflexive visually-guided saccades.
C Pierrot-Deseilligny, S Rivaud, B Gaymard, Y Agid. Brain 1991
C Pierrot-Deseilligny, S Rivaud, B Gaymard, Y Agid. Brain 1991
9
Cortical control of saccades.
C Pierrot-Deseilligny, S Rivaud, B Gaymard, R Müri, A I Vermersch. Ann Neurol 1995
C Pierrot-Deseilligny, S Rivaud, B Gaymard, R Müri, A I Vermersch. Ann Neurol 1995
9
Location of the human posterior eye field with functional magnetic resonance imaging.
R M Müri, M T Iba-Zizen, C Derosier, E A Cabanis, C Pierrot-Deseilligny. J Neurol Neurosurg Psychiatry 1996
R M Müri, M T Iba-Zizen, C Derosier, E A Cabanis, C Pierrot-Deseilligny. J Neurol Neurosurg Psychiatry 1996
9
Eye fields in the frontal lobes of primates.
E J Tehovnik, M A Sommer, I H Chou, W M Slocum, P H Schiller. Brain Res Brain Res Rev 2000
E J Tehovnik, M A Sommer, I H Chou, W M Slocum, P H Schiller. Brain Res Brain Res Rev 2000
9
Intrinsic functional architecture in the anaesthetized monkey brain.
J L Vincent, G H Patel, M D Fox, A Z Snyder, J T Baker, D C Van Essen, J M Zempel, L H Snyder, M Corbetta, M E Raichle. Nature 2007
J L Vincent, G H Patel, M D Fox, A Z Snyder, J T Baker, D C Van Essen, J M Zempel, L H Snyder, M Corbetta, M E Raichle. Nature 2007
9
Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.