Subcortical connectivity correlates selectively with attention’s effects on spatial choice bias

Sreenivasan, Varsha; Sridharan, Devarajan

doi:10.1073/pnas.1902704116

Cited by 21 publications

(21 citation statements)

References 45 publications

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“…One possibility is that SC activity biases response choice without impacting sensory processing, as can be said of the effect of cueing on behavioral responses (6). A reanalysis of prior microstimulation studies within a signal detection framework ( 122), an analysis of interindividual differences in functional connectivity (fMRI) in the human (154), and correlations between SC activity and shifts in response criteria (20), suggest that the SC activity may impact target choice by shifting response criteria in favor of precued target locations, without generating a spatial bias in the global competition for sensory representation as suggested above (e.g., 116).…”

Section: The Superior Colliculusmentioning

confidence: 99%

“…However, SC inactivation had no measurable effect on the cue-related attentional modulation observed in MST and MT, meaning that visual information must have been prioritized via alternative pathways, which do not involve the amplification of firing rates (115). Sreenivasan and Sridharan (154) suggested that in the human brain, there is no need to find such alternative pathways because the SC only affects target choice. In the monkey brain, however, recent inactivation studies using a paradigm to separate shifts in criterion from shifts in sensitivity (122,156) indicate the SC does enhance sensitivity in the task.…”

Section: The Superior Colliculusmentioning

confidence: 99%

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Visual selective attention and the control of tracking eye movements: a critical review

Souto

Kerzel

2021

Journal of Neurophysiology

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People's eyes are directed at objects of interest with the aim of acquiring visual information. However, processing this information is constrained in capacity, requiring task-driven and salience-driven attentional mechanisms to select few among the many available objects. A wealth of behavioural and neurophysiological evidence has demonstrated that visual selection and motor selection of saccade targets rely on shared mechanisms. This coupling supports the premotor theory of visual attention put forth more than 30 years ago, postulating visual selection as a necessary stage in motor selection. We examine to which extent the coupling of visual and motor selection observed with saccades is replicated during ocular tracking. Ocular tracking combines catch-up saccades and smooth pursuit to foveate a moving object. We find evidence that ocular tracking requires visual selection of the speed and direction of the moving target, but the position of the motion signal may not coincide with the position of the pursuit target. Further, visual and motor selection can be spatially decoupled when pursuit is initiated (open-loop pursuit). We propose that a main function of coupled visual and motor selection is to serve the coordination of catch-up saccades and pursuit eye movements. A simple race-to-threshold model is proposed to explain the variable coupling of visual selection during pursuit, catch-up and regular saccades, while generating testable predictions. We discuss pending issues, such as disentangling visual selection from pre-attentive visual processing and response selection, and the pinpointing of visual selection mechanisms, which have begun to be addressed in the neurophysiological literature.

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Section: The Superior Colliculusmentioning

confidence: 99%

Section: The Superior Colliculusmentioning

confidence: 99%

Visual selective attention and the control of tracking eye movements: a critical review

Souto

Kerzel

2021

Journal of Neurophysiology

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“…Finally, some forms of attention appear to act in multiple ways on the same system. For example, visual attention is believed to both: (1) enhance the sensitivity of visual neurons in the cortex by modulating their activity and (2) change subcortical activity such that sensory information is readout differently (Birman and Gardner, 2019;Sreenivasan and Sridharan, 2019). In this way, attention uses two different mechanisms, in different parts of the brain, to create its effect.…”

Section: How To Enhance Performancementioning

confidence: 99%

Attention in Psychology, Neuroscience, and Machine Learning

Lindsay

2020

Front. Comput. Neurosci.

196

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Attention is the important ability to flexibly control limited computational resources. It has been studied in conjunction with many other topics in neuroscience and psychology including awareness, vigilance, saliency, executive control, and learning. It has also recently been applied in several domains in machine learning. The relationship between the study of biological attention and its use as a tool to enhance artificial neural networks is not always clear. This review starts by providing an overview of how attention is conceptualized in the neuroscience and psychology literature. It then covers several use cases of attention in machine learning, indicating their biological counterparts where they exist. Finally, the ways in which artificial attention can be further inspired by biology for the production of complex and integrative systems is explored.

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“…Studies performed in non-human primates have also shown that the pulvinar (in the posterior thalamus and strongly connected with visual occipital regions), is involved in coordinating functional interactions across cortical areas for visual attention (Saalmann et al, 2012;Zhou et al, 2016). This region is also connected with the superior colliculus, a midbrain structure that enables both stimulus-driven and goal-driven attention across species (Friedrich et al, 2020;V. Sreenivasan & Sridharan, 2019).…”

Section: Table 1 White Matter Tracts Associated With Attention Workmentioning

confidence: 99%

Same, same but different? A multi-method review of the processes underlying executive control.

Toba¹,

Ts²,

Howells³

et al. 2020

Preprint

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Attention, working memory, and executive control are commonly considered distinct cognitive functions with important reciprocal interactions. Lesion studies pioneered by Donald Stuss have demonstrated both overlap and dissociation in their behavioral expression and anatomical underpinnings. Here, we provide an overview of cognitive models as well as recent data from lesion studies and both invasive and noninvasive multimodal neuroimaging and brain stimulation, in order to provide an updated perspective on the relationship between attention, working memory, and executive control. Specifically, we address the functional and anatomical correspondence between these processes, toward the goal of identifying whether a lower dimensional theoretical framework should be employed to understand executive control (Karolis et al., 2019). We conclude by emphasizing that one avenue for moving the field, pioneered by Donald Stuss, forward consists of studying this low-dimensional space with a multi-method approach to identify converging evidence regarding the interaction between subfunctions, allowing to construct a model of executive control as the emergent consequence of efficient implementation of these processes.

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Subcortical connectivity correlates selectively with attention’s effects on spatial choice bias

Cited by 21 publications

References 45 publications

Visual selective attention and the control of tracking eye movements: a critical review

Visual selective attention and the control of tracking eye movements: a critical review

Attention in Psychology, Neuroscience, and Machine Learning

Same, same but different? A multi-method review of the processes underlying executive control.

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