ライフサイエンスコーパス: smooth pursuit eye movement

1 MT into estimates of target motion to drive smooth pursuit eye movement.

2 TEMENT When an object moves, we view it with smooth pursuit eye movements.

3 l-by-trial variations in neural activity and smooth pursuit eye movements.

4 area (MT) are correlated with variability in smooth pursuit eye movements.

5 ects were larger while the animal was making smooth pursuit eye movements.

6 e relationship between motion perception and smooth pursuit eye movements.

7 ides the visual inputs for behaviors such as smooth pursuit eye movements.

8 precise motor timing by studying learning in smooth pursuit eye movements.

9 time scale comparable with the initiation of smooth pursuit eye movements.

10 ppocampi and the right fusiform gyrus during smooth pursuit eye movements.

11 trong sequelae in the direction and speed of smooth pursuit eye movements.

12 e cerebral cortex is part of the circuit for smooth pursuit eye movements.

13 d the range of dynamics normally seen during smooth pursuit eye movements.

14 t is associated with a profound asymmetry in smooth pursuit eye movements.

15 intermediate stage in the neural circuit for smooth-pursuit eye movements.

16 sition dependence as seen in visually guided smooth-pursuit eye movements.

17 mensional derivative of eye position, during smooth-pursuit eye movements.

18 complications, and their relatives had worse smooth-pursuit eye movements.

19 und only small idiosyncratic anisotropies in smooth pursuit eye movements, a motor action requiring a

20 ve to other patients and control subjects in smooth pursuit eye movements and on the antisaccade task

21 schizophrenia and has a potential to disrupt smooth pursuit eye movements and other visual functions

22 astriate visual cortex and are used to drive smooth pursuit eye movements and perceptual judgments of

23 cortical and sub-cortical systems mediating smooth pursuit eye movements and sensorimotor gating.

24 ited the temporal specificity of learning in smooth pursuit eye movements and the well-defined anatom

25 lity to perform visually guided saccades and smooth pursuit eye movements and to suppress visually gu

26 leading (small anticipatory) saccades during smooth pursuit eye movements, and cancellation of reflex

27 consists of orienting saccades and tracking smooth pursuit eye movements, and found strong physiolog

28 ily studies have shown that abnormalities of smooth pursuit eye movement are increased in the adult r

29 Smooth pursuit eye movements are abnormal in patients wi

30 Deficits in smooth pursuit eye movements are an established phenotyp

31 Smooth pursuit eye movements are continuous, slow rotati

32 Smooth pursuit eye movements are generated by a motor sy

33 signal-to-noise ratio for the initiation of smooth-pursuit eye movements as a function of time and c

34 During smooth pursuit eye movements, both tracking position and

35 activity in the frontal eye fields controls smooth pursuit eye movements, but the relationship betwe

36 Learning was induced in smooth pursuit eye movements by repeated presentation of

37 The present paper asks how primate smooth pursuit eye movements choose targets, by analysis

38 the locus of this and other ketamine-induced smooth-pursuit eye-movement deficits involves NMDA recep

39 By means of infrared oculography, smooth pursuit eye movements during a 17 degrees /second

40 es for saccades and increasing responses for smooth pursuit eye movements from posterior/medial to an

41 half-angle rule of ocular kinematics during smooth-pursuit eye movements from eccentric positions.

42 Smooth pursuit eye movement gain (equal to the ratio of

43 Abnormal smooth pursuit eye movements have been found in many sch

44 ard systems alter motor behavior, we studied smooth pursuit eye movements in monkeys trained to assoc

45 ulus form and contrast for the initiation of smooth pursuit eye movements in monkeys, we show that vi

46 Abnormal smooth pursuit eye movements in patients with schizophre

47 of Caenorhabditis elegans to the control of smooth pursuit eye movements in primates, and from the c

48 Patients with schizophrenia have abnormal smooth pursuit eye movements in response to a step-ramp

49 Abnormal smooth pursuit eye movements in schizophrenia and relate

50 bance in a frontotemporal network subserving smooth pursuit eye movements in schizophrenia.

51 theory of mind in autism to abnormalities of smooth pursuit eye movements in schizophrenia.

52 oal was to test the hypothesis that abnormal smooth pursuit eye movements in schizophrenic patients a

53 Here we use visually guided smooth-pursuit eye movements in primates as a testing gr

54 ure-based attention on motion perception and smooth-pursuit eye movements in response to moving dicho

55 ficient velocity discrimination and impaired smooth pursuit eye movements, inasmuch as the brain regi

56 round stimuli sweep across the retina during smooth pursuit eye movements, non-pursued targets are us

57 During smooth pursuit eye movement, observers often misperceive

58 We have used motor learning in smooth pursuit eye movements of monkeys to determine how

59 je cells during trial-over-trial learning in smooth pursuit eye movements of monkeys.

60 dic target trajectories and emit pre-emptive smooth pursuit eye movements--prior to the emergence of

61 e we show that electrical stimulation of the smooth-pursuit eye movement region in the arcuate sulcus

62 the neural code for sensory-motor latency in smooth pursuit eye movements reveals general principles

63 tracked target motion with normal, high-gain smooth-pursuit eye movements right up until the target w

64 Qualitative smooth pursuit eye movement score was significantly wors

65 Abnormal smooth pursuit eye movements (SPEMs) are some of the mos

66 In the smooth pursuit eye movement system, neural integration i

67 Gain control is also an integral part of the smooth-pursuit eye movement system.

68 compare brain hemodynamic response during a smooth pursuit eye movement task in patients with schizo

69 d 14 healthy comparison subjects performed a smooth pursuit eye movement task while undergoing 1.5-T

70 or placebo in double-blind fashion during a smooth-pursuit eye-movement task.

71 In smooth pursuit eye movements, the response to a brief pe

72 nnection between visual motion estimates and smooth pursuit eye movements to measure stimulus-respons

73 Smooth-pursuit eye movements transform 100 ms of visual

74 es instructive signals for motor learning in smooth pursuit eye movements under natural conditions, s

75 ation/target gap and overlap conditions) and smooth pursuit eye movements using an infrared pupil-tra

76 gion is known to be involved in saccadic and smooth-pursuit eye movements, we propose that a nearby r

77 Smooth pursuit eye movements were assessed during both t

78 Also, the schizophrenic patients' smooth-pursuit eye movements were tested in response to

79 the stimulus, we assessed the initiation of smooth pursuit eye movements when two targets move in di