Post on 22-Dec-2015
Consequences of Attentional Selection
Single unit recordings
Consequences of Attentional Selection
• Selection of one location or object or auditory stream has consequences for sensory responses evoked by that stimulus– ERP responses in auditory and visual cortex
• Are there effects of attentional selection observable at the cellular level?– This is going to require intracranial recordings– What animal would you choose?
Intracranial Recordings of Attentional Selection
• Moran and Desimone (1985)
• Recall that:– Cells in ventral stream pathway are selective for color,
orientation, complex shapes– “classical” notion of RF is that a cell should fire actively
whenever its preferred stimulus is present in its RF– V4 RFs are a few degrees of visual angle – much larger than the
resolution of attention
• What happens when attention selects an object in a cell’s RF if that cell isn’t “tuned” to the features of the object?
• Moran and Desimone (1985)– Response properties of cells are identified a priori
– Each cell is characterized by what is an “effective” and “ineffective” stimulus
– Monkeys were trained to attend to one of several locations within a V4 RF
– Monkey is given a target in a delayed match-to-sample task
– Respond when target stimulus occurs at cued location
Intracranial Recordings of Attentional Selection
• Moran and Desimone (1985)
• “Classical” RF prediction: there should be no difference in responses in these two conditions
Intracranial Recordings of Attentional Selection
• Moran and Desimone (1985)• Result:
Intracranial Recordings of Attentional Selection
Attend “effective” stimulus Attend “ineffective” stimulus
Target Response
• Moran and Desimone (1985)• Result: – Neuron responds vigorously only if its effective
stimulus is attended
– Interesting caveat: this only applies when there is an ineffective stimulus (to which the monkey attends) present in the V4 RF• When the ineffective stimulus is outside of the cell’s RF,
it’s responses are largely unmodulated
Intracranial Recordings of Attentional Selection
• What about the time course of this attention effect?
• Are cells modulated in advance by the cue?• Or are they modulated by attention when it is shifted
to the target location?
• What is needed is a experiment design such that the monkey orients attention after the target appears
Intracranial Recordings of Attentional Selection
• Chellazi et al ( 1993) Neural Correlates of Visual Search
– Monkey is trained in a delayed match-to-sample task• Cue appears 1.5 seconds before search array• Monkey saccades to target
– “good” and “poor” stimuli are identified for each recorded neuron
Intracranial Recordings of Attentional Selection
Intracranial Recordings of Attentional Selection
• Note that monkey isn’t “pre-cued” to attend to a location– Only target features are
known prior to choice array onset
• With this paradigm it is possible to measure cell activity during delay, during search, and after selection
Intracranial Recordings of Attentional Selection
• Initial response of cells is “classical”
Intracranial Recordings of Attentional Selection
• Initial response of cells is “classical”
• Response during delay represents the target feature
Intracranial Recordings of Attentional Selection
• Initial response of cells is “classical”
• Response during delay represents the target feature
• Initial response to search array is “classical”
Intracranial Recordings of Attentional Selection
• About 200 ms after array onset response of cell begins to depend on attention
– Response becomes more vigorous if cell is tuned to features of the target (i.e. the selected stimulus)
– Response becomes suppressed if cell is tuned to a distracter
Intracranial Recordings of Attentional Selection
• Conclusion: – Attentional selection of locations and/or objects
has physiological correlates and consequences
• How does attention get to where it needs to go?
Orienting Spatial Attention
• Corbetta et al. (1993)
– Subjects oriented attention according to a light moving in the visual field
Orienting Spatial Attention
• Results:
– Parietal and Pre-motor areas were activated by attention tracking task
– Hemisphere of activation depended on which visual field attention was being shifted in
Orienting Spatial Attention• Corbetta et al (1993)
confounded stimulus w/ orienting
• Hopfinger et al. (2000) used event-related fMRI to identify top-down orienting processes (distinct from stimulus-driven processes)– Cue-target paradigm using
arrows– What is the brain activity
caused by the cue?
Orienting Spatial Attention
• Result:– Cue-related activations
indicate a distributed network that mediates voluntary orienting
– Network includes mainly frontal and parietal structures
Orienting to Left Orienting to Right