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Attention Modulates Responses in the Human Lateral Geniculate Nucleus

Attention Modulates Responses in the Human Lateral Geniculate Nucleus. Nature Neuroscience, 2002, 5(11): 1203-1210 Presented by Juan Mo. Study Questions. what is the structure and function of LGN? What is Functional Magnetic Resonance Imaging? What is BOLD response?

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Attention Modulates Responses in the Human Lateral Geniculate Nucleus

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  1. Attention Modulates Responses in the Human Lateral Geniculate Nucleus Nature Neuroscience, 2002, 5(11): 1203-1210 Presented by Juan Mo

  2. Study Questions • what is the structure and function of LGN? • What is Functional Magnetic Resonance Imaging? • What is BOLD response? • In what ways that attention modulates neural activity in the human LGN?

  3. Attention • Human select particular aspects of a visual scene for detailed analysis and control of subsequent behavior, but ignore other aspects so completely that moments after they disappear from view we cannot report anything about them. Nat. rev. Neurosic., 2000, 1: 91-100

  4. Ways that Selective Attention Modulates Neural Activity in the Visual System • Attention affects processing at the first stage of cortical information processing, in the primary visual cortex. • Attention not only modulates the gain on incoming visual information, but can also add a pure top-down signal that increases baseline activity in striate and extrastriate cortex. • Attention can under different conditions select locations, features, objects or a combination thereof. • Large regions within the fronto-parietal network, which apparently provide the source of top-down blas signals in visual areas, support a very heterogeneous set of attention tasks.

  5. LGN Acts as the Gateway for Sensory information to Enter the Visual Cortex

  6. Functional Magnetic Resonance Imaging • fMRI: relies on the fact that cerebral blood flow and neuronal activation are coupled. • BOLD (blood-oxygen-level dependent)

  7. MRI scanner Subject inside Head Coil

  8. Relationship Between Glucose Metabolism and Blood Flow • Sokoloff (1981) used autoradiography • Measured both glucose metabolism and blood flow • 39 brain regions in rat brain • Correlation r=0.95 • Slope m=2.6

  9. Basic Model of Relationship Between BOLD fMRI & Neuronal Activity

  10. Comparison of Neurophysiological/Neuroimaging Techniques: Spatial and Temporal Resolution 10 cm PET EEG/ MEG 1 cm fMRI Spatial Resolution 1 mm 0.1 mm Electro- physiology 10 m 1 ms 10 ms 0.1 s 1 s 10 s Temporal Resolution All these methodologies have been used in both monkeys and humans.

  11. Time Course of BOLD Response BOLD = Blood oxygenation-level dependent % Response Change from Background Levels Time (seconds) Courtesy of Dr. Geoffrey Boynton Salk Institute

  12. A Demo of BOLD Response to Visual Stimuli Courtesy of Dr. David Heeger, New York University

  13. Ways that Selective Attention Affects Visual Processing at the Cortex Level • Attentional enhancement: Neural responses to visual stimuli are greater when those stimuli are attended versus when they are ignored. • Attentional suppression: Neural responses to ignored stimuli are attenuated depending on the load of attentional resources engaged elsewhere. • Attention-related baseline increases: Directing attention to a location in the absence of visual stimulation and in anticipation of stimulus onset increases neural baseline activity.

  14. Hypothesis • Attentional response modulation is not confined to cortical processing, but can occur as early as the thalamic level in three ways: attentional enhancement, attentional suppression and attention-related baseline increases.

  15. Figure 1 Visual Stimuli and Experimental Design High-contrast checkerboard stimuli Low-contrast checkerboard stimuli

  16. Experiment 1 • Checkerboard stimuli of high- or low- contrast were presented to the left or right hemifield while subjects directed attention to the stimulus (attended condition) or away from the stimulus (unattended condition) in separate runs.

  17. Figure 2 Enhancement of Responses to Attended Stimuli LGN High-contrast stimulus Low-contrast stimulus Black: unattended condition Red: attended condition Unattended condition: subjects counted letters at fixation, which directed attention away from the stimulus. Attended condition: subjects were instructed to covertly direct attention to the checkerboard stimulus.

  18. Experiment 2 • High- and low- contrast checkerboard stimuli were presented to the left or right hemifield while subjects performed either an easy or difficult attention task at fixation and ignored the peripheral checkerboard stimuli.

  19. Figure 2 Suppression of Responses to Ignored Stimuli High-contrast stimulus Low-contrast stimulus Black: hard task condition Blue: easy task condition Hard attention task: subjects counted letters at fixation. Easy attention task: subjects counted brief, infrequent color changes of the fixation cross.

  20. Experiment 3 • Subjects were cued to covertly direct attention to the periphery of the left or right visual hemifield and to expect the onset of the stimulus. After the expectation period, during which subjects attended to the periphery without receiving visual input, a high-contrast checkerboard was presented at the expected location.

  21. Figure 2 Attention-related Increases of Baseline Activity Directed attention to the periphery of the visual hemifield in expectation of the stimulus onset Periods of checkerboard presentation

  22. Figure 2 Similar Effects of Attention in Visual Cortex

  23. Figure 3 Attention response Modulation in the LGN and in Visual Cortical Areas • All three attentional effects increased from earlier to later processing stages along both the ventral and dorsal pathways of visual cortex.

  24. Figure 3 Attention response Modulation in the LGN and in Visual Cortical Areas • All three attentional effects tended to be stronger in the LGN than in striate cortex.

  25. Experiment 4 • High-contrast checkerboard stimuli are presented simultaneously to both hemifields. Subjects are instructed to direct attention either to the left or right checkerboard and to detect luminance changes as in experiments 1 and 3.

  26. Figure 4 Spatial Selectivity of Attention Effects in the LGN and in Visual Cortex Attended Unattended

  27. Figure 5 Eye Movement Controls Horizontal eye position left of fixation Vertical eye position left of fixation Horizontal eye position right of fixation Vertical eye position right of fixation

  28. Conclusions • Selective attention modulates neural activity in the LGN in three ways: 1)by enhancing neural responses to attended stimuli, 2)by attenuating neural responses to ignored stimuli, 3)by increasing baseline activity in the absence of visual stimulation. • The effects of attentional response are spatially specific. • Eye movements are not systematically correlated with the different task conditions. The HGN may be the first stage in the processing of visual information that is modulated by attentional signals

  29. Study Questions • what is the structure and function of LGN? • What is Functional Magnetic Resonance Imaging? • What is BOLD response? • What are the ways that attention modulates neural activity in the human LGN?

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