Amanda J. Davies scite author profile

Amanda J. Davies

3Publications

104Citation Statements Received

119Citation Statements Given

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102

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Monash University

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A Specialized Area in Limbic Cortex for Fast Analysis of Peripheral Vision

Chaplin

Davies

et al. 2012

Current Biology

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In primates, prostriata is a small area located between the primary visual cortex (V1) and the hippocampal formation. Prostriata sends connections to multisensory and high-order association areas in the temporal, parietal, cingulate, orbitofrontal, and frontopolar cortices. It is characterized by a relatively simple histological organization, alluding to an early origin in mammalian evolution. Here we show that prostriata neurons in marmoset monkeys exhibit a unique combination of response properties, suggesting a new pathway for rapid distribution of visual information in parallel with the traditionally recognized dorsal and ventral streams. Whereas the location and known connections of prostriata suggest a high-level association area, its response properties are unexpectedly simple, resembling those found in early stages of the visual processing: neurons have robust, nonadapting responses to simple stimuli, with latencies comparable to those found in V1, and are broadly tuned to stimulus orientation and spatiotemporal frequency. However, their receptive fields are enormous and form a unique topographic map that emphasizes the far periphery of the visual field. These results suggest a specialized circuit through which stimuli in peripheral vision can bypass the elaborate hierarchy of extrastriate visual areas and rapidly elicit coordinated motor and cognitive responses across multiple brain systems.

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Natural motion trajectory enhances the coding of speed in primate extrastriate cortex

Davies

Chaplin

Rosa

et al. 2016

Sci Rep

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The ability to estimate the speed of an object irrespective of size or texture is a crucial function of the visual system. However, previous studies have suggested that the neuronal coding of speed in the middle temporal area (MT, a key cortical area for motion analysis in primates) is ambiguous, with most neurons changing their speed tuning depending on the spatial frequency (SF) of a visual pattern. Here we demonstrate that the ability of MT neurons to encode speed is markedly improved when stimuli follow a trajectory across the visual field, prior to entering their receptive fields. We also show that this effect is much less marked in the primary visual area. These results indicate that MT neurons build up on computations performed at earlier levels of the visual system to provide accurate coding of speed in natural situations, and provide additional evidence that nonlinear pooling underlie motion processing.

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Neural Correlates of Speed Processing in the Primate Visual Area MT

Davies¹

2017

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Amanda J. Davies

A Specialized Area in Limbic Cortex for Fast Analysis of Peripheral Vision

Natural motion trajectory enhances the coding of speed in primate extrastriate cortex

Neural Correlates of Speed Processing in the Primate Visual Area MT

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