Presentation is loading. Please wait.

Presentation is loading. Please wait.

-8.00 3.20 ANT Z=52 R ACUE - PASSIVE VCUE - PASSIVE 1300 msVoltageCSD.31uV.03uV/cm 2 AIM We investigate the mechanisms of this hypothesized switch-ERP.

Published byCody Johns Modified over 8 years ago

Similar presentations

Presentation on theme: "-8.00 3.20 ANT Z=52 R ACUE - PASSIVE VCUE - PASSIVE 1300 msVoltageCSD.31uV.03uV/cm 2 AIM We investigate the mechanisms of this hypothesized switch-ERP."— Presentation transcript:

1 -8.00 3.20 ANT Z=52 R ACUE - PASSIVE VCUE - PASSIVE 1300 msVoltageCSD.31uV.03uV/cm 2 AIM We investigate the mechanisms of this hypothesized switch-ERP and ask whether it involves a modality-specific or supra-modal process. Neural Correlates of Cross-Modality Attentional Switching Evelijne M. Bekker, Santani Teng, David M. Horton, George R. Mangun Center for Mind and Brain, University of California, Davis RESULTS: TARGETS Performance Invalidly cued targets evoked longer reaction times, especially in the auditory modality (F(1,13)=13.5,p<.01; F(1,7)=5.6,p<.05), and smaller variability of responding (F(1,13)=4.5,p<.05; F(1,7)=9.9, p<.02). Task Symbolic visual cues validly or invalidly signaled the modality of an upcoming target. Passive cues did not require preparation. Subjects pressed a button with the index/middle finger of the right hand upon presentation of a grating (visual) or a tone (auditory) with a high/low frequency. RESULTS: CUES Symbolic cues elicited more positivity from – ms, and more negativity from – ms. Auditory cues elicited more positivity/less negativity at posterior sites. Event-Related Potentials Invalid trials elicited more negativity than valid trials from 100-160 msec. This effect was largest at Cz (F(4,10)=3.7,p<.05), and did not interact with modality. ERP (n=14)*fMRI (n=8) *Same pattern of effects for n=8 REFERENCES Bekker et al. (2005a). The pure electrophysiology of stopping. Int.J.Psychophysiol.; 55:191-8. Bekker et al. (2005b): Disentangling deficits in adults with ADHD. Arch.Gen. Psych.; 62:1129-36. Corbetta et al. (2000). Voluntary orienting is dissociated from target detection in human posterior parietal cortex. Nat.Neurosci.; 3:292-7. Foxe et al. (2005). Biasing the brain's attentional set (I): cue driven deployments of intersensory selective attention. Exp. Brain Res.; 166: 370-92. Shomstein and Yantis (2004). Control of attention shifts between vision and audition in human cortex. J. Neurosci.; 24:10702-6. INTRODUCTION In the stop-task, a fast choice response to a visual stimulus must be withheld when an auditory signal is unpredictably presented after a short delay. Successful stops are associated with a larger frontocentral negative event-related potential (ERP) in the N1 latency range than failed stops, here referred to as the ‘switch-ERP’. In adult patients with attention deficit hyperactivity disorder (ADHD), this effect is absent, suggesting a disturbed link between the ability to switch attention from visual to auditory stimuli and subsequent inhibitory control (Bekker et al., 2005a,b). Auditory Valid Auditory Invalid Visual valid Visual Invalid METHODS Subjects ERP: 14 right-handed, healthy subjects participated (age=23.3 (3.6), 7 males). fMRI: 8 of those tested with ERPs (age=24.3(4.3), 5 males). SUMMARY/CONCLUSION Invalidly cued targets elicited a larger N1 than validly cued targets (replication of switch-ERP effect). Scalp distributions suggest similar although not identical generators across modalities. fMRI data shows activity in posterior parietal and superior prefrontal areas, in line with previous cross-modality switching studies (Shomstein and Yantis, 2004). In addition, TPJ activity previously reported for invalid trials in v isuo-spatial studies was found (not shown here) (Corbetta et al., 2000). Symbolic cues activated fronto-parietal attentional control regions. In contrast to Foxe et al. (2005), no modality differences were found for control. However, difference waves did reveal sensory specific biasing in line with both Shomstein and Yantis (2004) and Foxe et al. (2005 ). Data Acquisition EEG: 128 leads, 0.05-30Hz, A/D=250Hz, re-reference left mastoid fMRI: 3T, EPI w/ TR=2000, TE=25, 34 axial slices, 4mm, interleaved FUNDING AND CONTACT This study was supported by NIMH grant MH55741, and by NWO (Netherlands Organization of Scientific Research) Talent Fund. Correspondence: embekker@ucdavis.edu 140 AuditoryVisual Valid - Invalid Scalp distributions and fMRI indicated similar fronto-parietal activation when preparing for upcoming target in either modality. -8.00 -1.20 ANT Z=29 R Difference waves reveals specific biasing in sensory areas. VCUE - ACUE 1300 msVoltageCSD.10uV ANT -8.00 8.00 3.20 -3.20.01uV/cm 2 R X,Y,Z=-53,-24,9 X,Y,Z=-8,-92,10

Download ppt "-8.00 3.20 ANT Z=52 R ACUE - PASSIVE VCUE - PASSIVE 1300 msVoltageCSD.31uV.03uV/cm 2 AIM We investigate the mechanisms of this hypothesized switch-ERP."

Similar presentations

Neural systems for attention to threat in anxiety: an fMRI study Leor Shoker, Nazanin Derakshan, Anne Richards & Elaine Fox.

Neural systems for attention to threat in anxiety: an fMRI study Leor Shoker, Nazanin Derakshan, Anne Richards & Elaine Fox.
fMRI Methods Lecture 9 – The brain at rest

fMRI Methods Lecture 9 – The brain at rest
Helen Gaeta, David Friedman, & Gregory Hunt Cognitive Electrophysiology Laboratory New York State Psychiatric Institute Differential Effects of Stimulus.

Helen Gaeta, David Friedman, & Gregory Hunt Cognitive Electrophysiology Laboratory New York State Psychiatric Institute Differential Effects of Stimulus.
Are We Paying Attention Yet? A review of the relation between attention and saccades By Travis McKinney.

Are We Paying Attention Yet? A review of the relation between attention and saccades By Travis McKinney.
Neural Correlates of Consciousness By Charlene Campbell.

Neural Correlates of Consciousness By Charlene Campbell.
ERP correlates of retrieval orientation: cue- related and item-related measures Jane E. Herron and Edward L. Wilding, School of Psychology, Cardiff University.

ERP correlates of retrieval orientation: cue- related and item-related measures Jane E. Herron and Edward L. Wilding, School of Psychology, Cardiff University.
Electrophysiology of Visual Attention. Does Visual Attention Modulate Visual Evoked Potentials? The theory is that Visual Attention modulates visual information.

Electrophysiology of Visual Attention. Does Visual Attention Modulate Visual Evoked Potentials? The theory is that Visual Attention modulates visual information.
Inhibitory neural activity produces a significant BOLD response in human cortical areas Archana Purushotham, Seong-Gi Kim Center for Magnetic Resonance.

Inhibitory neural activity produces a significant BOLD response in human cortical areas Archana Purushotham, Seong-Gi Kim Center for Magnetic Resonance.
Gene-gene interaction of COMT and DRD2 modulates context updating and novelty processing Manuel Garcia-Garcia, Francisco Barceló, Iria SanMiguel, Immaculada.

Gene-gene interaction of COMT and DRD2 modulates context updating and novelty processing Manuel Garcia-Garcia, Francisco Barceló, Iria SanMiguel, Immaculada.
Results and Discussion Logan Pedersen & Dr. Mei-Ching Lien School of Psychological Science, College of Liberal Arts Introduction A classic finding in Psychology.

Results and Discussion Logan Pedersen & Dr. Mei-Ching Lien School of Psychological Science, College of Liberal Arts Introduction A classic finding in Psychology.
Detecting Conflict-Related Changes in the ACC Judy Savitskaya 1, Jack Grinband 1,3, Tor Wager 2, Vincent P. Ferrera 3, Joy Hirsch 1,3 1.Program for Imaging.

Detecting Conflict-Related Changes in the ACC Judy Savitskaya 1, Jack Grinband 1,3, Tor Wager 2, Vincent P. Ferrera 3, Joy Hirsch 1,3 1.Program for Imaging.
P3 target cue 200400 target long CTI cue 200 400 600 800 1000 target cue 200 400 600 800 1000 short CTI children old PZ cue 200400 target Cue-related ERPs.

P3 target cue target long CTI cue target cue short CTI children old PZ cue target Cue-related ERPs.
The Physiology of Attention. Physiology of Attention Neural systems involved in orienting Neural correlates of selection.

The Physiology of Attention. Physiology of Attention Neural systems involved in orienting Neural correlates of selection.
Word Imagery Effects on Explicit and Implicit Memory Nicholas Bube, Drew Finke, Darcy Lemon, and Meaghan Topper.

Word Imagery Effects on Explicit and Implicit Memory Nicholas Bube, Drew Finke, Darcy Lemon, and Meaghan Topper.
The Activation and Self-Regulation of Stereotypes in the Brain Anja Achtziger 1, Andreas Keil 2, Stephan Moratti 3, Alexander Jaudas 1 & Peter M. Gollwitzer.

The Activation and Self-Regulation of Stereotypes in the Brain Anja Achtziger 1, Andreas Keil 2, Stephan Moratti 3, Alexander Jaudas 1 & Peter M. Gollwitzer.
ERPs to Semantic and Physical Anomalies in Cartoon Videos Jennifer Michelson 1, Courtney Brown 1, Laura Davis 1, Tatiana Sitnikova 2 & Phillip J. Holcomb.

ERPs to Semantic and Physical Anomalies in Cartoon Videos Jennifer Michelson 1, Courtney Brown 1, Laura Davis 1, Tatiana Sitnikova 2 & Phillip J. Holcomb.
NEUR 3680 Midterm II Review Megan Metzler

NEUR 3680 Midterm II Review Megan Metzler
Psych 216: Movement Attention. What is attention? There is too much information available in the world to process it all. Demonstration: change-detection.

Psych 216: Movement Attention. What is attention? There is too much information available in the world to process it all. Demonstration: change-detection.
Presented by: Vanessa Wong Corbetta et al..  Inability to pay attention to space  Most common cause is stroke  Caused by focal injury to temporoparietal.

Presented by: Vanessa Wong Corbetta et al..  Inability to pay attention to space  Most common cause is stroke  Caused by focal injury to temporoparietal.
Read this article for next week: A Neural Basis for Visual Search in Inferior Temporal Cortex Leonardo Chelazzi et al. (1993) Nature.

Read this article for next week: A Neural Basis for Visual Search in Inferior Temporal Cortex Leonardo Chelazzi et al. (1993) Nature.

Similar presentations

Ads by Google