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1 osition of gaze, the hand, and the goal of a saccadic eye movement.
2 targets even when they are not the goal of a saccadic eye movement.
3 flects the planning of behaviorally relevant saccadic eye movements.
4 shifts in 'natural' videos designed to mimic saccadic eye movements.
5 ld requires coordination between pursuit and saccadic eye movements.
6 ation of visual stimuli and the direction of saccadic eye movements.
7 g, finger tapping, pronation/supination, and saccadic eye movements.
8 t either remained stationary or moved during saccadic eye movements.
9 responsive neurones discharged in advance of saccadic eye movements.
10 y also respond in advance of visually guided saccadic eye movements.
11  shifts of attention are usually followed by saccadic eye movements.
12 he compensation for target velocity shown by saccadic eye movements.
13 ght be linked to the preparations for making saccadic eye movements.
14 ted to the control of vertical and torsional saccadic eye movements.
15 means for assuring the conjugacy of vertical saccadic eye movements.
16  that are related to the control of vertical saccadic eye movements.
17 onkeys that is triggered by the execution of saccadic eye movements.
18  brain forms decisions comes from studies of saccadic eye movements.
19 esponse field (RF) stimuli are targeted with saccadic eye movements.
20 t of the BG-brainstem projection controlling saccadic eye movements.
21  explore the visual world through the use of saccadic eye movements.
22 ial functions, such as spatial attention and saccadic eye movements.
23  retina and serially sample visual scenes by saccadic eye movements.
24 visuospatial attention may be linked through saccadic eye movements.
25 atable behavioral deficits in the metrics of saccadic eye movements.
26 of visual targets flashed around the time of saccadic eye movements.
27 r on object recognition) to the precision of saccadic eye movements.
28 of structures involved in the programming of saccadic eye movements.
29 nd specifying the amplitude and direction of saccadic eye movements.
30 ons that are directly involved in triggering saccadic eye movements.
31 of spatial attention, even in the absence of saccadic eye movements.
32 o not see the visual motion generated by our saccadic eye movements.
33 in the transformation of visual signals into saccadic eye movements.
34 a V4 of nonhuman primates trained to execute saccadic eye movements.
35 smus, strabismic monkey display disconjugate saccadic eye movements.
36  and responded with either button presses or saccadic eye movements.
37 examined using data on the neural control of saccadic eye movements.
38 ld as stable, although we constantly perform saccadic eye movements?
39  and increased their discharge rate ahead of saccadic eye movements (11 of 54 tested, 20%).
40  examined the effects of ketamine on leading saccadic eye movements, a specific component of the smoo
41                                              Saccadic eye movements activated the caudate nucleus sig
42 e neurons was predictive of the latency of a saccadic eye movement and not other saccade parameters s
43 olation by performing combined recordings of saccadic eye movements and fast event-related fMRI durin
44 ive fields of macaque area V4 neurons during saccadic eye movements and find that receptive fields ar
45                                              Saccadic eye movements and fixations are the behavioral
46                                  We consider saccadic eye movements and hypothesize that duration of
47 nts, beyond its traditional roles in guiding saccadic eye movements and localizing attention.
48                     This study predicts that saccadic eye movements and normal head movements after v
49               The close relationship between saccadic eye movements and vision complicates the identi
50  implicated as a salience map for control of saccadic eye movements and visual attention.
51 inaccurately represent eye position during a saccadic eye movement, and to be too slow to support a r
52                                     Vertical saccadic eye movements are accompanied by concurrent eye
53                                              Saccadic eye movements are among the most frequent perce
54 here sensorimotor transformations leading to saccadic eye movements are implemented in the brain, les
55                               When voluntary saccadic eye movements are made to a silently ticking cl
56 stem and the brainstem circuits that control saccadic eye movements are particularly well understood,
57                                              Saccadic eye movements are the result of neural decision
58                                    Using the saccadic eye movement as a probe, we provide results tha
59 cenes require that a target for an impending saccadic eye movement be selected from a larger number o
60 cenes require that a target for an impending saccadic eye movement be selected from a number of possi
61 he oculomotor system can correct itself when saccadic eye movements become inaccurate.
62                       The frequency of these saccadic eye movements belies the complexity underlying
63 isual scenes or the blurs caused by rapid or saccadic eye movements between successive fixations.
64                                              Saccadic eye movements "bring" eccentric targets to the
65 e related to opposite directions of vertical saccadic eye movements but that project to the same moto
66          We explore the visual world through saccadic eye movements, but saccades also present a chal
67 ence of a causal link between the control of saccadic eye movements by frontal cortex and covert visu
68 elp gate the transition between fixation and saccadic eye movements by monosynaptically suppressing a
69 nt contributions to our understanding of how saccadic eye movements can be rapidly inhibited, changed
70 perficial SC, suggesting a novel pathway for saccadic eye movement choice.
71 tial attention, these biases reflect nascent saccadic eye movement commands.
72                                         When saccadic eye movements consistently fail to land on the
73 may indicate right-hemispheric dominance for saccadic eye movement control.
74  visual world despite our frequent quick, or saccadic, eye movements: corollary discharge about each
75 hat SC buildup neuronal activity signals the saccadic eye movement decision.
76 ify the temporal impulse response underlying saccadic eye movement decisions.
77 lts suggest that reward-dependent changes in saccadic eye movements depend partly on dopaminergic mod
78                                              Saccadic eye movements direct the high-resolution foveae
79 gets, and measured how this illusion affects saccadic eye movements during FEF microstimulation.
80 erience the visual world through a series of saccadic eye movements, each one shifting our gaze to br
81 easily be dissociated from the generation of saccadic eye movements, especially when sophisticated be
82               The amplitude and direction of saccadic eye movements evoked electrically from the dors
83                                              Saccadic eye movements facilitate rapid and efficient ex
84              Participants were asked to make saccadic eye movements for different monetary rewards, w
85      This study examines the consequences of saccadic eye movements for the internal representation o
86 ing and processing speed for visually guided saccadic eye movement generation after FEF lesions and a
87          The primary endpoint was horizontal saccadic eye movement (HSEM) velocity, based on its corr
88  participants to make two visually triggered saccadic eye movements in brief succession.
89 n has been used to argue that the DMFC codes saccadic eye movements in head-centered coordinates.
90 ings confirm the claim that the DMFC encodes saccadic eye movements in head-centered coordinates.
91  and execution of visually guided manual and saccadic eye movements in macaque monkeys.
92 f this study was to examine the conjugacy of saccadic eye movements in monkeys with sensory strabismu
93        Monkeys learned to select one of four saccadic eye movements in response to a foveal instructi
94  help ensure the coordination of pursuit and saccadic eye movements in selecting a single target.
95                                              Saccadic eye movements in the vertical plane are control
96 ave shown that binocular coordination during saccadic eye movement is affected in humans with large s
97                A key structure for directing saccadic eye movements is the superior colliculus (SC).
98                               The purpose of saccadic eye movements is to facilitate vision, by placi
99 holds are elevated before, during, and after saccadic eye movements, is an important mechanism for ma
100 y encoding as well as with the generation of saccadic eye movements, is mediating the unconscious pro
101      In monkeys deciding between alternative saccadic eye movements, lateral intraparietal (LIP) neur
102 l stimuli in the contralateral field and for saccadic eye movements made to those stimuli.
103                    However, the amplitude of saccadic eye movements made to visual targets can be sys
104 how the motor systems for smooth pursuit and saccadic eye movements might extract a usable signal of
105 , and those activated during visually guided saccadic eye movements, namely the supplementary eye fie
106 had been trained to generate visually-guided saccadic eye movements of a particular size and directio
107     This study aims to determine whether the saccadic eye movements of people with glaucoma differ fr
108 d that stimulation of the DMFC always evoked saccadic eye movements of the same size and direction be
109                    We studied the effects of saccadic eye movements on visual signaling in the primat
110                                 When we make saccadic eye movements or goal-directed arm movements, t
111 art of a network of brain areas that directs saccadic eye movements, overtly shifting both gaze and a
112                                              Saccadic eye movements play a central role in primate vi
113                                              Saccadic eye movements provide a valuable model to study
114                                Adaptation of saccadic eye movements provides an excellent motor learn
115     Specifically, before the initiation of a saccadic eye movement, receptive fields shrink and shift
116               The amplitude and direction of saccadic eye movements remained invariant to such manipu
117 d that S cone stimuli did not cause IOR when saccadic eye movement responses were required.
118                                              Saccadic eye movements (saccades) in primates organize t
119                   During visual exploration, saccadic eye movements scan the scene for objects of int
120  control of gaze implies the ability to make saccadic eye movements specified by abstract instruction
121                   Our studies show mice make saccadic eye movements spontaneously and in response to
122                                        Every saccadic eye movement that we make changes the image of
123  lesions have revealed only mild deficits in saccadic eye movements that recovered rapidly.
124 (TMS) to any part of the human head during a saccadic eye movement, the ongoing eye velocity was redu
125                                       During saccadic eye movements, the job of the nervous system is
126 s may not be directly involved in triggering saccadic eye movements, they are nonetheless highly sacc
127 to smooth-pursuit response time and to total saccadic eye-movement time were measured.
128                                    To make a saccadic eye movement to a target we must first attend t
129              Each monkey was trained to make saccadic eye movements to a field of moving dots or to w
130              Monkeys were trained to produce saccadic eye movements to a visual target.
131 he monkeys to occasionally withhold planned, saccadic eye movements to a visual target.
132                             Animals can make saccadic eye movements to intercept a moving object at t
133 neurons and the degree of visual guidance of saccadic eye movements to objects of different form.
134  tests in which animals were trained to make saccadic eye movements to paired or multiple targets pre
135 ct during the initiation of both pursuit and saccadic eye movements to parafoveal targets.
136 s and other animals with foveate vision make saccadic eye movements to prioritize the visual analysis
137 bjects were obliged to make both pursuit and saccadic eye movements to track the mask covering the ta
138            We understand the world by making saccadic eye movements to various objects.
139                                Subjects made saccadic eye movements toward a visual target that was d
140 loration of complex visual scenes depends on saccadic eye movements toward important locations.
141 tested this theory under the hypothesis that saccadic eye movements, tracking an unseen reaching move
142                               Humans perform saccadic eye movements two to three times per second.
143  increasing intravenous doses of diazepam on saccadic eye movement velocity and accuracy (the latter
144 rom baseline to months 12 and 24 in vertical saccadic eye movement velocity as determined by the peak
145 ficant between-group differences in vertical saccadic eye movement velocity or in the other neurologi
146                    During the preparation of saccadic eye movements, visual attention is confined to
147 tes learning of image statistics and directs saccadic eye movements, we propose that the acquisition
148 ty) and numbers, amplitudes, and subtypes of saccadic eye movements were compared.
149 ll amplitude, nasally directed (ipsiversive) saccadic eye movements were evoked by microstimulation i
150 r to the anterior frontal sulcus, from which saccadic eye movements were evoked with electrical stimu
151 ked by SC stimulation as well as spontaneous saccadic eye movements were larger in the dark-reared mi
152                                              Saccadic eye movements were measured using infra-red ocu
153 ectrical microstimulation to the SC, so that saccadic eye movements were not evoked.
154                                              Saccadic eye movements were recorded using an infrared s
155 icant increase in the probability of evoking saccadic eye movements when low current electrical stimu
156 to recall the sequence and reproduce it with saccadic eye movements when presented with an array of o
157       We examined whether the preparation of saccadic eye movements, when behaviorally dissociated fr
158 model can be used to evaluate populations of saccadic eye movements with different ranges of amplitud

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