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Experimental Brain Research
Published in: Experimental Brain Research 1/2011

Open Access 01-03-2011 | Research Article

A chronometric exploration of high-resolution ‘sensitive TMS masking’ effects on subjective and objective measures of vision

Authors: Tom A. de Graaf, Jim Herring, Alexander T. Sack

Published in: Experimental Brain Research | Issue 1/2011

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Abstract

Transcranial magnetic stimulation (TMS) can induce masking by interfering with ongoing neural activity in early visual cortex. Previous work has explored the chronometry of occipital involvement in vision by using single pulses of TMS with high temporal resolution. However, conventionally TMS intensities have been high and the only measure used to evaluate masking was objective in nature. Recent studies have begun to incorporate subjective measures of vision, alongside objective ones. The current study goes beyond previous work in two regards. First, we explored both objective vision (an orientation discrimination task) and subjective vision (a stimulus visibility rating on a four-point scale), across a wide range of time windows with high temporal resolution. Second, we used a very sensitive TMS-masking paradigm: stimulation was at relatively low TMS intensities, with a figure-8 coil, and the small stimulus was difficult to discriminate already at baseline level. We hypothesized that this should increase the effective temporal resolution of our paradigm. Perhaps for this reason, we are able to report a rather interesting masking curve. Within the classical-masking time window, previously reported to encompass broad SOAs anywhere between 60 and 120 ms, we report not one, but at least two dips in objective performance, with no masking in-between. The subjective measure of vision did not mirror this pattern. These preliminary data from our exploratory design suggest that, with sensitive TMS masking, we might be able to reveal visual processes in early visual cortex previously unreported.
Footnotes
1
In the same session an equal number of trials, using the same stimuli, were obtained using a secondary task for a different experiment involving color judgment: this experiment will not be reported here or elsewhere. The original intentions behind this secondary experiment caused our stimuli to be red on half the orientation trials, and blue on the other half of trials. These color differences were balanced between time windows and of no further influence or import.
 
Literature
Amassian VE, Cracco RQ, Maccabee PJ, Cracco JB, Rudell A, Eberle L (1989) Suppression of visual perception by magnetic coil stimulation of human occipital cortex. Electroencephalogr Clin Neurophysiol 74:458–462CrossRefPubMed
Beckers G, Homberg V (1991) Impairment of visual perception and visual short term memory scanning by transcranial magnetic stimulation of occipital cortex. Exp Brain Res 87:421–432CrossRefPubMed
Boyer JL, Harrison S, Ro T (2005) Unconscious processing of orientation and color without primary visual cortex. Proc Natl Acad Sci USA 102:16875–16879CrossRefPubMed
Breitmeyer B, Ogmen H (2006) Visual masking: time slices through conscious and unconscious vision. Oxford University press, New York
Camprodon JA, Zohary E, Brodbeck V, Pascual-Leone A (2010) Two phases of V1 activity for visual recognition of natural images. J Cogn Neurosci 22:1262–1269CrossRefPubMed
Corthout E, Uttl B, Walsh V, Hallett M, Cowey A (1999) Timing of activity in early visual cortex as revealed by transcranial magnetic stimulation. Neuroreport 10:2631–2634CrossRefPubMed
Corthout E, Hallett M, Cowey A (2003) Interference with vision by TMS over the occipital pole: a fourth period. Neuroreport 14:651–655CrossRefPubMed
de Graaf TA, Sack AT (2011) Null results in TMS: from absence of evidence to evidence of absence. Neurosci Biobehav Rev 35:871–877CrossRefPubMed
de Graaf TA, Jacobs C, Roebroeck A, Sack AT (2009) FMRI effective connectivity and TMS chronometry: complementary accounts of causality in the visuospatial judgment network. PLoS One 4:e8307CrossRefPubMed
Foxe JJ, Simpson GV (2002) Flow of activation from V1 to frontal cortex in humans. A framework for defining “early” visual processing. Exp Brain Res 142:139–150CrossRefPubMed
Heinen K, Jolij J, Lamme VA (2005) Figure-ground segregation requires two distinct periods of activity in V1: a transcranial magnetic stimulation study. Neuroreport 16:1483–1487CrossRefPubMed
Jolij J, Lamme VA (2005) Repression of unconscious information by conscious processing: evidence from affective blindsight induced by transcranial magnetic stimulation. Proc Natl Acad Sci USA 102:10747–10751CrossRefPubMed
Kammer T (2007a) Masking visual stimuli by transcranial magnetic stimulation. Psychol Res 71:659–666CrossRefPubMed
Kammer T (2007b) Visual masking by transcranial magnetic stimulation in the first 80 milliseconds. Adv Cogn Psychol 3:177–179CrossRef
Kammer T, Scharnowski F, Herzog MH (2003) Combining backward masking and transcranial magnetic stimulation in human observers. Neurosci Lett 343:171–174PubMed
Koivisto M, Mantyla T, Silvanto J (2010) The role of early visual cortex (V1/V2) in conscious and unconscious visual perception. Neuroimage 51:828–834CrossRefPubMed
Lamme VA, Roelfsema PR (2000) The distinct modes of vision offered by feedforward and recurrent processing. Trends Neurosci 23:571–579CrossRefPubMed
Lau HC, Passingham RE (2006) Relative blindsight in normal observers and the neural correlate of visual consciousness. Proc Natl Acad Sci USA 103:18763–18768CrossRefPubMed
Laycock R, Crewther DP, Fitzgerald PB, Crewther SG (2007) Evidence for fast signals and later processing in human V1/V2 and V5/MT+: a TMS study of motion perception. J Neurophysiol 98:1253–1262CrossRefPubMed
Moliadze V, Zhao Y, Eysel U, Funke K (2003) Effect of transcranial magnetic stimulation on single-unit activity in the cat primary visual cortex. J Physiol 553:665–679CrossRefPubMed
Moliadze V, Giannikopoulos D, Eysel UT, Funke K (2005) Paired-pulse transcranial magnetic stimulation protocol applied to visual cortex of anaesthetized cat: effects on visually evoked single-unit activity. J Physiol 566:955–965CrossRefPubMed
Paulus W, Korinth S, Wischer S, Tergau F (1999) Differential inhibition of chromatic and achromatic perception by transcranial magnetic stimulation of the human visual cortex. Neuroreport 10:1245–1248CrossRefPubMed
Romei V, Murray MM, Merabet LB, Thut G (2007) Occipital transcranial magnetic stimulation has opposing effects on visual and auditory stimulus detection: implications for multisensory interactions. J Neurosci 27:11465–11472CrossRefPubMed
Silvanto J, Lavie N, Walsh V (2005) Double dissociation of V1 and V5/MT activity in visual awareness. Cereb Cortex 15:1736–1741CrossRefPubMed
Wassermann EM, Epstein CM, Ziemann U, Walsh V, Paus T, Lisanby SH (2008) The Oxford handbook of transcranial stimulation. Oxford University Press, New York
Metadata
Title
A chronometric exploration of high-resolution ‘sensitive TMS masking’ effects on subjective and objective measures of vision
Authors
Tom A. de Graaf
Jim Herring
Alexander T. Sack
Publication date
01-03-2011
Publisher
Springer-Verlag
Published in
Experimental Brain Research / Issue 1/2011
Print ISSN: 0014-4819
Electronic ISSN: 1432-1106
DOI
https://doi.org/10.1007/s00221-010-2512-z

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