Collicular Microstimulation During Passive Rotation Does Not Generate Fixed Gaze Shifts

Beuzekom, A. D. Van; Gisbergen, J.A.M. van

doi:10.1152/jn.2002.87.6.2946

Cited by 6 publications

(2 citation statements)

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“…Here, we demonstrated that saccade behavior was modulated by pupil size adjusted to the level of global luminance, and pupillary luminance responses affected both pro‐ and anti‐saccade behavior. Many of saccade decisions, in the real‐world situation, are made when other important factors, for example, vestibular signals, are not well‐controlled (Rincon‐Gonzalez et al., 2016; Van Beuzekom & Van Gisbergen, 2002a, 2002b). Future research that explores the interactive processes between the oculomotor and other systems is thus important to advance our knowledge of eye movement control in the real world.…”

Section: Resultsmentioning

confidence: 99%

Effects of pupillary light and darkness reflex on the generation of pro‐ And anti‐saccades

Cherng

Crevecoeur

Wang

2020

Eur J of Neuroscience

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Saccades are often directed toward a stimulus that provides useful information for observers to navigate the visual world. The quality of visual signals of a stimulus is influenced by global luminance, and the pupil constricts or dilates after a luminance increase or decrease, respectively, to optimize visual signals for further information processing. Although luminance level changes regularly in the real environment, saccades are mostly studied in the luminance-unchanged setup. Whether pupillary responses triggered by global luminance changes modulate saccadic behavior are yet to be explored. Through varying background luminance level in an interleaved pro-and anti-saccade paradigm, we investigated the modulation of pupillary luminance responses on the generation of reflexive and voluntary saccades. Subjects were instructed to either automatically look at the peripheral stimulus (pro-saccade) or to suppress the automatic response and voluntarily look in the opposite direction from the stimulus (anti-saccade). Level of background luminance was increased (light), decreased (dark), or unchanged (control) during the instructed fixation period. Saccade reaction time distributions of correct pro-and anti-saccades in the light and dark conditions were differed significantly from those in the control condition. Moreover, the luminance condition modulated saccade kinematics, showing reduced performances in the light condition than in the control condition, particularly in pro-saccades. Modeling results further suggested that both pupil diameter and pupil size derivative significantly modulated saccade behavior, though effect sizes were small and mainly mediated by intersubject differences. Together, our results demonstrated the influence of pupillary luminance responses on the generation of pro-and anti-saccades.

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Section: Resultsmentioning

confidence: 99%

Effects of pupillary light and darkness reflex on the generation of pro‐ And anti‐saccades

Cherng

Crevecoeur

Wang

2020

Eur J of Neuroscience

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“…While the vertical component of the voluntary saccade was typically correct, the horizontal component was compromised, and biased in the direction of the quick phase. The same authors also tested how oblique saccades induced by electrical microstimulation in the monkey superior colliculus (SC) are modified by concurrent sinusoidal yaw rotation (Van Beuzekom and Van Gisbergen 2002b). Again, results showed a kinematic effect only on the horizontal component of the induced saccade, not the vertical component.…”

Section: Discussionmentioning

confidence: 99%

Decisions in motion: vestibular contributions to saccadic target selection

Rincon-Gonzalez

Selen

Halfwerk

et al. 2016

Journal of Neurophysiology

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The natural world continuously presents us with many opportunities for action, and thus a process of target selection must precede action execution. While there has been considerable progress in understanding target selection in stationary environments, little is known about target selection when we are in motion. Here we investigated the effect of self-motion signals on saccadic target selection in a dynamic environment. Human subjects were sinusoidally translated (f = 0.6 Hz, 30-cm peak-to-peak displacement) along an interaural axis with a vestibular sled. During the motion two visual targets were presented asynchronously but equidistantly on either side of fixation. Subjects had to look at one of these targets as quickly as possible. With an adaptive approach, the time delay between these targets was adjusted until the subject selected both targets equally often. We determined this balanced time delay for different phases of the motion in order to distinguish the effects of body acceleration and velocity on saccadic target selection. Results show that acceleration (or position, as these are indistinguishable during sinusoidal motion), but not velocity, affects target selection for saccades. Subjects preferred to look at targets in the direction of the acceleration—the leftward target was preferred when the sled accelerated to the left, and vice versa. Saccadic reaction times mimicked this selection bias by being reliably shorter to targets in the direction of acceleration. Our results provide evidence that saccade target selection mechanisms are modulated by self-motion signals, which could be derived directly from the otolith system.

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5 Untranslated Region (5 UTR)

Epstein¹,

Ebner²,

Popescu³

et al. 2008

Encyclopedia of Neuroscience

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Definition B1-B9 is the original designation of nine seratonincontaining cell groups visualized in the brainstem by the use of fluorescent histochemical methods. Some of these serotonergic groups project caudally to the spinal cord and others rostrally to different parts of the forebrain. Balance Laws 333 B ▶Baroreceptor ▶Blood Volume Regulation ▶Homeostasis ▶Sympathetic Pathways ▶Vagus Nerve Synonyms Barrel field cortex; Posteromedial barrel subfield; PMBSF Barrel Cortex 337B Definition Barrel Cortex. Figure 1 Three ascending pathways relaying touch-related information from the whiskers to the barrel field cortex and neighboring cortical areas (PrV: principal trigeminal nucleus, SpVi: interpolaris division of the spinal trigeminal nucleus, VPM dm: dorso-medial division of the ventral posterior nucleus of the thalamus, VPM vl: ventro-lateral division of the ventral posterior nucleus of the thalamus, POm: medial division of the posterior nucleus, Dys: dysgranular cortex, S II: secondary somatosensory cortex) Inset: Layer IV barrels in barrel field cortex replicate the spatial arrangement of whiskers on the face (cytochrome oxidase staining). Only the major projections are indicated.Barrel Cortex 339 B B Basal Ganglia 343 B 2. Schultz W, Dayan P, Montague PR (1997) A neural substrate of prediction and reward. [Rev] [37 refs]. Science 275:1593-1599 3. Haber SN, Fudge JL, McFarland NR (2000) Striatonigrostriatal pathways in primates form an ascending spiral from the shell to the dorsolateral striatum. J Neurosci 20(6):2369-2382 4. Everitt BJ, Robbins TW (2005) Neural systems of reinforcement for drug addiction: from actions to habits to compulsion. Nat Neurosci 8(11): DefinitionThe basal ganglia consist of four prominent nuclei, which are interposed between the cerebral cortex and the lower centers of the brain stem and spinal cord. These nuclei include the: References B 4. Alexander GE, Crutcher MD (1990) Functional architecture of basal ganglia circuits: neural substrates of parallel processing. Trends Neurosci 13:266-271 5. Kita K (1993) GABAergic circuits of the striatum, In: Arbuthnott GW, Emson PC (eds) Chemical signalling in the basal ganglia. Elsevier, Amsterdam, pp 51-72 6. Nambu A, Tokuno H, Takada M (2002) Functional significance of the cortico-subthalamo-pallidal 'hyperdirect' pathway. Neurosci Res 43:111-117 7. Graybiel AM (1990) Neurotransmitters and neuromodulators in the basal ganglia. Trends Neurosci 13:244-254

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Collicular Microstimulation During Passive Rotation Does Not Generate Fixed Gaze Shifts

Cited by 6 publications

References 50 publications

Effects of pupillary light and darkness reflex on the generation of pro‐ And anti‐saccades

Effects of pupillary light and darkness reflex on the generation of pro‐ And anti‐saccades

Decisions in motion: vestibular contributions to saccadic target selection

5 Untranslated Region (5 UTR)

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