Spatial constancy mechanisms in motor control

Medendorp, W. Pieter

doi:10.1098/rstb.2010.0089

Cited by 73 publications

(71 citation statements)

References 144 publications

(164 reference statements)

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“…But what is new in Cavanagh et al's proposal is to challenge the entire idea of dynamic receptive fields by suggesting that attention moves but receptive fields stay fixed. It does seem difficult, initially, to reconcile their proposal with all of the research showing receptive field shifts (see reviews in [20,21,23]). Another departure in their proposal is the claim that attentional pointers represent only a spatial location (in retinal coordinates), not objects or their features.…”

Section: The Role Of Selective Attention In Visual Stabilitymentioning

confidence: 99%

“…The change in the spatial profile of the receptive fields of neurons around the time of saccades is called 'remapping' [20][21][22], since the spatial map of the receptive field is temporarily altered. The neurophysiological evidence for remapping is discussed in detail in several of the reviews in this theme issue [20,21,23]. A number of studies which explore the pattern of remapping neurons in the brain, including the proportion of neurons that show remapping in different brain regions and the potential pathways that underlie remapping, are beginning to shed light on this process.…”

Section: Neural Mechanisms Of Visual Stability: Remapping and Spatiotopymentioning

confidence: 99%

“…There is also evidence, both from single-cell recording in primates and functional MRI (fMRI) in humans, for dynamic receptive fields in the visual system itself (see [20,23]). One possibility is that the well-established connection from the FEF to visual areas such as V4 [75,76] plays a role in predictive remapping of visual neurons.…”

Section: A Visual Stability Networkmentioning

confidence: 99%

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Visual stability

Melcher

2011

Phil. Trans. R. Soc. B

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Our vision remains stable even though the movements of our eyes, head and bodies create a motion pattern on the retina. One of the most important, yet basic, feats of the visual system is to correctly determine whether this retinal motion is owing to real movement in the world or rather our own selfmovement. This problem has occupied many great thinkers, such as Descartes and Helmholtz, at least since the time of Alhazen. This theme issue brings together leading researchers from animal neurophysiology, clinical neurology, psychophysics and cognitive neuroscience to summarize the state of the art in the study of visual stability. Recently, there has been significant progress in understanding the limits of visual stability in humans and in identifying many of the brain circuits involved in maintaining a stable percept of the world. Clinical studies and new experimental methods, such as transcranial magnetic stimulation, now make it possible to test the causal role of different brain regions in creating visual stability and also allow us to measure the consequences when the mechanisms of visual stability break down.

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Section: The Role Of Selective Attention In Visual Stabilitymentioning

confidence: 99%

Section: Neural Mechanisms Of Visual Stability: Remapping and Spatiotopymentioning

confidence: 99%

Section: A Visual Stability Networkmentioning

confidence: 99%

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Visual stability

Melcher

2011

Phil. Trans. R. Soc. B

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“…We (and many others) suggest that the reason for this is that the information integrated from one fixation to the next is information about features-such as motion and form-not light elements or pixels. As other reviews in this issue point out [16][17][18][19][20][21], the process is not like 'sticking postage stamps on a tailor's dummy', integrating detailed 'snapshots' within a trans-saccadic buffer with an external metric. This would suggest that very early stages of analysis, such as V1, should not be spatiotopic, while higher centres responsible for motion and form (including middle temporal (MT) and medial superior temporal (MST) areas) might be spatiotopic.…”

Section: Spatiotopicitymentioning

confidence: 99%

Spatiotopic coding and remapping in humans

Burr

Morrone

2011

Phil. Trans. R. Soc. B

116

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How our perceptual experience of the world remains stable and continuous in the face of continuous rapid eye movements still remains a mystery. This review discusses some recent progress towards understanding the neural and psychophysical processes that accompany these eye movements. We firstly report recent evidence from imaging studies in humans showing that many brain regions are tuned in spatiotopic coordinates, but only for items that are actively attended. We then describe a series of experiments measuring the spatial and temporal phenomena that occur around the time of saccades, and discuss how these could be related to visual stability. Finally, we introduce the concept of the spatio-temporal receptive field to describe the local spatiotopicity exhibited by many neurons when the eyes move.

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“…Such wide CBF modulations are in keeping with previous works indicating the activation of frontoparietal networks where the integration of sensory feedforward and feedback signals (including tactile, visual, and auditory stimuli provided near the body) related to the motor task demand and the surrounding environment occurs (Bremmer et al., 2001; Duhamel, Bremmer, Ben Hamed, & Graf, 1997; Graziano & Cooke, 2006; Graziano, Yap, & Gross, 1994; Gritsenko, Yakovenko, & Kalaska, 2009; Makin et al., 2007; Medendorp, 2011; Rizzolatti et al., 1981; Serino, Canzoneri, & Avenanti, 2011). These networks are functionally separated from that controlling the extrapersonal space, as suggested by control experiment (ii) results.…”

Section: Discussionmentioning

confidence: 99%

Detecting peripersonal space: The promising role of ultrasonics

et al. 2018

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IntroductionThe approach of an external stimulus to the peripersonal space (PPS) modifies some physiological measures, including the cerebral blood flow (CBF) in the supplementary motor area and premotor cortex. CBF measurement may be useful to assess brain activations when producing specific motor responses, likely mediated by cortical and subcortical neural circuits.MethodsThis study investigated PPS in 15 healthy humans by characterizing the hemodynamic responses (pulsatility index, PI; and heart rate, HR) related to different directions of movements of individual's hand toward and backward his/her own face, so to perturb PPS).ResultsWe observed that the CBF and HR were enhanced more when the stimulated hand was inside the PPS of the face in the passive and active condition than when the hand was outside the PPS and during motor imagery task.ConclusionsThese results suggest that the modulation of PPS‐related brain responses depends on specific sensory‐motor integration processes related to the location and the final position of a target in the PPS. We may thus propose TCD as a rapid and easy approach to get information concerning brain responses related to stimuli approaching the PPS. Understanding the modulations of brain activations during tasks targeting PPS can help to understand the results of psychophysical and behavioral trials and to plan patient‐tailored cognitive rehabilitative training.

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Spatial constancy mechanisms in motor control

Cited by 73 publications

References 144 publications

Visual stability

Visual stability

Spatiotopic coding and remapping in humans

Detecting peripersonal space: The promising role of ultrasonics

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