RT Journal Article
SR Electronic
T1 Recurrent Processing in the Formation of Shape Percepts
JF The Journal of Neuroscience
JO J. Neurosci.
FD Society for Neuroscience
SP 185
OP 192
DO 10.1523/JNEUROSCI.2347-15.2016
VO 36
IS 1
A1 Jan Drewes
A1 Galina Goren
A1 Weina Zhu
A1 James H. Elder
YR 2016
UL http://www.jneurosci.org/content/36/1/185.abstract
AB The human visual system must extract reliable object information from cluttered visual scenes several times per second, and this temporal constraint has been taken as evidence that the underlying cortical processing must be strictly feedforward. Here we use a novel rapid reinforcement paradigm to probe the temporal dynamics of the neural circuit underlying rapid object shape perception and thus test this feedforward assumption. Our results show that two shape stimuli are optimally reinforcing when separated in time by ∼60 ms, suggesting an underlying recurrent circuit with a time constant (feedforward + feedback) of 60 ms. A control experiment demonstrates that this is not an attentional cueing effect. Instead, it appears to reflect the time course of feedback processing underlying the rapid perceptual organization of shape.SIGNIFICANCE STATEMENT Human and nonhuman primates can spot an animal shape in complex natural scenes with striking speed, and this has been taken as evidence that the underlying cortical mechanisms are strictly feedforward. Using a novel paradigm to probe the dynamics of shape perception, we find that two shape stimuli are optimally reinforcing when separated in time by 60 ms, suggesting a fast but recurrent neural circuit. This work (1) introduces a novel method for probing the temporal dynamics of cortical circuits underlying perception, (2) provides direct evidence against the feedforward assumption for rapid shape perception, and (3) yields insight into the role of feedback connections in the object pathway.