Synchronization between the end stages of the dorsal and the ventral visual stream

Verhoef, Bram-Ernst; Vogels, Rufin; Janssen, Peter

doi:10.1152/jn.00924.2010

Cited by 55 publications

(49 citation statements)

References 58 publications

(78 reference statements)

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“…Indeed, there was an enhanced synchronization in this band after the adapter stimulus presentation followed by desynchronization, which decreased with repetition. This is reminiscent of the stimulus-driven desynchronization between LIP and IT activity observed by Verhoef et al (2011) in the beta band during a depth discrimination task, which increased with stimulus strength. Thus the greater beta/low gamma desynchronization for the adapter compared with the test stimulus might reflect a greater saliency of the former stimulus.…”

Section: Discussionmentioning

confidence: 82%

“…To control for the contribution of spiking rate differences when comparing the coherence values for two different stimuli, e.g., adapter and test stimuli, we equated the firing rates for the two stimuli before computing the spectra (Gregoriou et al 2009;Verhoef et al 2011). For each site and condition, we equated the average firing rate computed in 1-ms bins within an interval of 1,000 ms that started 250 ms before stimulus onset by randomly removing spikes of the corresponding bin for the stimulus with a larger firing rate at that bin.…”

Section: Discussionmentioning

confidence: 99%

“…Details about implants and surgery can be found in Kaliukhovich and Vogels (2011) and are only summarized briefly here. The placement of the plastic recording chamber was guided with a preoperative MRI scan and verified with MRI scans obtained at the beginning and between recording sessions.…”

Section: Subjectsmentioning

confidence: 99%

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Stimulus repetition affects both strength and synchrony of macaque inferior temporal cortical activity

Kaliukhovich

Vogels

2012

Journal of Neurophysiology

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Kaliukhovich DA, Vogels R. Stimulus repetition affects both strength and synchrony of macaque inferior temporal cortical activity. J Neurophysiol 107: 3509 -3527, 2012. First published April 4, 2012 doi:10.1152/jn.00059.2012.-Repetition of a visual stimulus reduces the firing rate of macaque inferior temporal (IT) neurons. The neural mechanisms underlying this adaptation or repetition suppression are still unclear. In particular, we do not know how the IT circuit is affected by stimulus repetition. To address this, we measured local field potentials (LFPs) and multiunit spiking activity (MUA) simultaneously at 16 sites with a laminar electrode in IT while repeating visual images. Stimulus exposures and interstimulus intervals were each 500 ms. The rhesus monkeys were performing a passive fixation task during the recordings. Induced LFP power decreased with repetition for spectral frequencies above 60 Hz but increased with repetition for lower frequencies, the latter because of a delayed decrease in power when repeating a stimulus. LFP-LFP and MUA-LFP coherences decreased with repetition for frequencies above 60 Hz. This repetition suppression of the MUA-LFP coherence was not due to differences in firing rate since it was present when spike counts were equated for the adapter and repeated stimuli. For frequencies between 15 and 40 Hz, the effect of repetition on synchronization depended on the electrode depth: For the putative superficial layers synchronization was enhanced with repetition, while the LFPs of the putative deep layers decreased their synchrony across layers. The between-site, trial-to-trial covariations in MUA ("noise correlations") decreased with repetition, but this might have reflected repetition suppression of the firing rate. This work demonstrates that short-term stimulus repetition affects the synchronized activity, in addition to response strength, in IT cortex.inferior temporal cortex; multiunit activity; local field potentials THE RESPONSES of many macaque inferior temporal (IT) neurons decrease with stimulus repetition (Baylis and Rolls 1987;

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Section: Discussionmentioning

confidence: 82%

Section: Discussionmentioning

confidence: 99%

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Stimulus repetition affects both strength and synchrony of macaque inferior temporal cortical activity

Kaliukhovich

Vogels

2012

Journal of Neurophysiology

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“…Furthermore, the population latency of the neuronal selectivity in F5a (75-85 ms) was slightly longer than that of AIP (50 -70 ms) (Srivastava et al, 2009;Theys et al, 2012), but nevertheless shorter than in IT (100 -120 ms) (Janssen et al, 1999;Verhoef et al, 2011). F5a neurons tended to preserve their selectivities across fewer positions in depth (median number of positions, 3) compared to AIP (median number of positions, 4), suggesting that mean disparity exerts a stronger influence in F5a than in AIP.…”

Section: Discussionmentioning

confidence: 83%

“…AIP neurons, in contrast, encode 3D information in a faster, coarser, and more metric (as opposed to the categorical coding in IT) manner (Srivastava et al, 2009). The correlation between AIP activity and perceptual choice emerges late and after the decision has been formed when monkeys categorize 3D shape (Verhoef et al, 2011), and reversible inactivation of 3D-shape-selective AIP sites produces a grasping deficit but no deficit in 3D-shape categorization (Verhoef et al, 2009). Here, the preponderance of 3D-shape-selective F5a neurons that respond during object grasping also indicates a different role for higher-order disparity selective neurons, i.e., object analysis for the purpose of grasping.…”

Section: Discussionmentioning

confidence: 99%

Selectivity for Three-Dimensional Shape and Grasping-Related Activity in the Macaque Ventral Premotor Cortex

Theys

Pani²,

Loon

et al. 2012

J. Neurosci.

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Anatomical studies indicate that area F5 in the macaque ventral premotor cortex consists of three different sectors. One of these is F5a in the posterior bank of the inferior arcuate sulcus, but no functional characterization of F5a at the single-cell level exists. We investigated the neuronal selectivity for three-dimensional (3D) shape and grasping activity in F5a. In contrast to neighboring regions F5p and 45B, the great majority of F5a neurons showed selectivity for disparity-defined curved surfaces, and most neurons preserved this selectivity across positions in depth, indicating higher-order disparity selectivity. Thus, as predicted by monkey fMRI data, F5a neurons showed robust 3D-shape selectivity in the absence of a motor response. To investigate the relationship between disparity selectivity and grasping activity, we recorded from 3D-shape-selective F5a neurons during a visually guided grasping task and during grasping in the dark. F5a neurons encoding the depth profile of curved surfaces frequently responded during grasping of real-world objects in the light, but not in the dark, whereas nearby neurons were also active in the dark. The presence of 3D-shape-selective and "visual-dominant" neurons demonstrates that the F5a sector is distinct from neighboring regions of ventral premotor cortex, in line with recent anatomical connectivity studies.

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The Visual Neuroscience of Robotic Grasping

Chinellato

Pobil

2016

Cognitive Systems Monographs

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Synchronization between the end stages of the dorsal and the ventral visual stream

Cited by 55 publications

References 58 publications

Stimulus repetition affects both strength and synchrony of macaque inferior temporal cortical activity

Stimulus repetition affects both strength and synchrony of macaque inferior temporal cortical activity

Selectivity for Three-Dimensional Shape and Grasping-Related Activity in the Macaque Ventral Premotor Cortex

The Visual Neuroscience of Robotic Grasping

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