A citation-based method for searching scientific literature

L Petit, V P Clark, J Ingeholm, J V Haxby. J Neurophysiol 1997
Times Cited: 200







List of co-cited articles
1048 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity



Dorsal cortical regions subserving visually guided saccades in humans: an fMRI study.
B Luna, K R Thulborn, M H Strojwas, B J McCurtain, R A Berman, C R Genovese, J A Sweeney. Cereb Cortex 1998
291
31

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
196
29


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
26

Pursuit and saccadic eye movement subregions in human frontal eye field: a high-resolution fMRI investigation.
Caterina Rosano, Christine M Krisky, Joel S Welling, William F Eddy, Beatriz Luna, Keith R Thulborn, John A Sweeney. Cereb Cortex 2002
134
24

Control of goal-directed and stimulus-driven attention in the brain.
Maurizio Corbetta, Gordon L Shulman. Nat Rev Neurosci 2002
24


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
213
16

Functional neuroanatomy of smooth pursuit and predictive saccades.
G A O'Driscoll, A L Wolff, C Benkelfat, P S Florencio, S Lal, A C Evans. Neuroreport 2000
102
16



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
205
15

Smooth-pursuit eye movement representation in the primate frontal eye field.
M G MacAvoy, J P Gottlieb, C J Bruce. Cereb Cortex 1991
266
14

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
143
13

Functional organization of human intraparietal and frontal cortex for attending, looking, and pointing.
Serguei V Astafiev, Gordon L Shulman, Christine M Stanley, Abraham Z Snyder, David C Van Essen, Maurizio Corbetta. J Neurosci 2003
443
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
463
13

Eye movement control by the cerebral cortex.
Charles Pierrot-Deseilligny, Dan Milea, René M Müri. Curr Opin Neurol 2004
379
13

A parametric fMRI study of overt and covert shifts of visuospatial attention.
M S Beauchamp, L Petit, T M Ellmore, J Ingeholm, J V Haxby. Neuroimage 2001
227
12

Eye movement disorders after frontal eye field lesions in humans.
S Rivaud, R M Müri, B Gaymard, A I Vermersch, C Pierrot-Deseilligny. Exp Brain Res 1994
293
12


Thresholding of statistical maps in functional neuroimaging using the false discovery rate.
Christopher R Genovese, Nicole A Lazar, Thomas Nichols. Neuroimage 2002
10

Evidence for a supplementary eye field.
J Schlag, M Schlag-Rey. J Neurophysiol 1987
449
10

An area specialized for spatial working memory in human frontal cortex.
S M Courtney, L Petit, J M Maisog, L G Ungerleider, J V Haxby. Science 1998
657
10


The human precentral sulcus: chemoarchitecture of a region corresponding to the frontal eye fields.
Caterina Rosano, John A Sweeney, Darlene S Melchitzky, David A Lewis. Brain Res 2003
35
28

Recasting the smooth pursuit eye movement system.
Richard J Krauzlis. J Neurophysiol 2004
314
10

Functional anatomy of a prelearned sequence of horizontal saccades in humans.
L Petit, C Orssaud, N Tzourio, F Crivello, A Berthoz, B Mazoyer. J Neurosci 1996
176
10

Smooth eye movements elicited by microstimulation in the primate frontal eye field.
J P Gottlieb, C J Bruce, M G MacAvoy. J Neurophysiol 1993
179
10


Cytoarchitectural characteristic of the frontal eye fields in macaque monkeys.
G B Stanton, S Y Deng, M E Goldberg, N T McMullen. J Comp Neurol 1989
111
10

Brain activation during smooth-pursuit eye movements.
Jody Tanabe, Jason Tregellas, David Miller, Randal G Ross, Robert Freedman. Neuroimage 2002
58
15


Human cortical networks for new and familiar sequences of saccades.
M H Grosbras, U Leonards, E Lobel, J B Poline, D LeBihan, A Berthoz. Cereb Cortex 2001
72
12




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
69
13

Topographic organization for delayed saccades in human posterior parietal cortex.
Denis Schluppeck, Paul Glimcher, David J Heeger. J Neurophysiol 2005
199
9

Parametric modulation of cortical activation during smooth pursuit with and without target blanking. an fMRI study.
Matthias Nagel, Andreas Sprenger, Silke Zapf, Christian Erdmann, Detlef Kömpf, Wolfgang Heide, Ferdinand Binkofski, Rebekka Lencer. Neuroimage 2006
58
15

Cortical control of saccades.
C Pierrot-Deseilligny, S Rivaud, B Gaymard, R Müri, A I Vermersch. Ann Neurol 1995
305
8


Cortical control of saccades.
B Gaymard, C J Ploner, S Rivaud, A I Vermersch, C Pierrot-Deseilligny. Exp Brain Res 1998
197
8

Space and attention in parietal cortex.
C L Colby, M E Goldberg. Annu Rev Neurosci 1999
8

Stimulus-response incompatibility activates cortex proximate to three eye fields.
E P Merriam, C L Colby, K R Thulborn, B Luna, C R Olson, J A Sweeney. Neuroimage 2001
64
12

The neural mechanisms of top-down attentional control.
J B Hopfinger, M H Buonocore, G R Mangun. Nat Neurosci 2000
8


Increased activity in human visual cortex during directed attention in the absence of visual stimulation.
S Kastner, M A Pinsk, P De Weerd, R Desimone, L G Ungerleider. Neuron 1999
8


Neuroimaging of cognitive functions in human parietal cortex.
J C Culham, N G Kanwisher. Curr Opin Neurobiol 2001
538
8


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.