Timing of V1/V2 and V5+ activations during coherent motion of dots: An MEG study

In order to study the temporal activation course of visual areas V1 and V5 in response to a motion stimulus, a random dots kinematogram paradigm was applied to eight subjects while magnetic fields were recorded using magnetoencephalography (MEG). Sources generating the registered magnetic fields wer...

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Published in	NeuroImage (Orlando, Fla.) Vol. 37; no. 4; pp. 1384 - 1395
Main Authors	Prieto, Esther Alonso, Barnikol, Utako B., Soler, Ernesto Palmero, Dolan, Kevin, Hesselmann, Guido, Mohlberg, Hartmut, Amunts, Katrin, Zilles, Karl, Niedeggen, Michael, Tass, Peter A.
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.10.2007 Elsevier Limited
Subjects	Adult Aged Algorithms Brain Mapping Cadaver Evoked Potentials, Visual - physiology Humans Image Processing, Computer-Assisted m-VEF Magnetoencephalography Male Middle Aged Models, Statistical Motion Perception - physiology Normal Distribution Photic Stimulation Response latency Studies Visual Cortex - anatomy & histology Visual Cortex - physiology Visual motion Response latency m-VEF Visual motion V1 V5
Online Access	Get full text
ISSN	1053-8119 1095-9572
DOI	10.1016/j.neuroimage.2007.03.080

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Abstract	In order to study the temporal activation course of visual areas V1 and V5 in response to a motion stimulus, a random dots kinematogram paradigm was applied to eight subjects while magnetic fields were recorded using magnetoencephalography (MEG). Sources generating the registered magnetic fields were localized with Magnetic Field Tomography (MFT). Anatomical identification of cytoarchitectonically defined areas V1/V2 and V5 was achieved by means of probabilistic cytoarchitectonic maps. We found that the areas V1/V2 and V5+ (V5 and other adjacent motion sensitive areas) exhibited two main activations peaks at 100–130 ms and at 140–200 ms after motion onset. The first peak found for V1/V2, which corresponds to the visual evoked field (VEF) M1, always preceded the peak found in V5+. Additionally, the V5+ peak was correlated significantly and positively with the second V1/V2 peak. This result supports the idea that the M1 component is generated not only by the visual area V1/V2 (as it is usually proposed), but also by V5+. It reflects a forward connection between both structures, and a feedback projection to V1/V2, which provokes a second activation in V1/V2 around 200 ms. This second V1/V2 activation (corresponding to motion VEF M2) appeared earlier than the second V5+ activation but both peaked simultaneously. This result supports the hypothesis that both areas also generate the M2 component, which reflects a feedback input from V5+ to V1/V2 and a crosstalk between both structures. Our study indicates that during visual motion analysis, V1/V2 and V5+ are activated repeatedly through forward and feedback connections and both contribute to m-VEFs M1 and M2.
AbstractList	In order to study the temporal activation course of visual areas V1 and V5 in response to a motion stimulus, a random dots kinematogram paradigm was applied to eight subjects while magnetic fields were recorded using magnetoencephalography (MEG). Sources generating the registered magnetic fields were localized with Magnetic Field Tomography (MFT). Anatomical identification of cytoarchitectonically defined areas V1/V2 and V5 was achieved by means of probabilistic cytoarchitectonic maps. We found that the areas V1/V2 and V5+ (V5 and other adjacent motion sensitive areas) exhibited two main activations peaks at 100-130 ms and at 140-200 ms after motion onset. The first peak found for V1/V2, which corresponds to the visual evoked field (VEF) M1, always preceded the peak found in V5+. Additionally, the V5+ peak was correlated significantly and positively with the second V1/V2 peak. This result supports the idea that the M1 component is generated not only by the visual area V1/V2 (as it is usually proposed), but also by V5+. It reflects a forward connection between both structures, and a feedback projection to V1/V2, which provokes a second activation in V1/V2 around 200 ms. This second V1/V2 activation (corresponding to motion VEF M2) appeared earlier than the second V5+ activation but both peaked simultaneously. This result supports the hypothesis that both areas also generate the M2 component, which reflects a feedback input from V5+ to V1/V2 and a crosstalk between both structures. Our study indicates that during visual motion analysis, V1/V2 and V5+ are activated repeatedly through forward and feedback connections and both contribute to m-VEFs M1 and M2. In order to study the temporal activation course of visual areas V1 and V5 in response to a motion stimulus, a random dots kinematogram paradigm was applied to eight subjects while magnetic fields were recorded using magnetoencephalography (MEG). Sources generating the registered magnetic fields were localized with Magnetic Field Tomography (MFT). Anatomical identification of cytoarchitectonically defined areas V1/V2 and V5 was achieved by means of probabilistic cytoarchitectonic maps. We found that the areas V1/V2 and V5+ (V5 and other adjacent motion sensitive areas) exhibited two main activations peaks at 100–130 ms and at 140–200 ms after motion onset. The first peak found for V1/V2, which corresponds to the visual evoked field (VEF) M1, always preceded the peak found in V5+. Additionally, the V5+ peak was correlated significantly and positively with the second V1/V2 peak. This result supports the idea that the M1 component is generated not only by the visual area V1/V2 (as it is usually proposed), but also by V5+. It reflects a forward connection between both structures, and a feedback projection to V1/V2, which provokes a second activation in V1/V2 around 200 ms. This second V1/V2 activation (corresponding to motion VEF M2) appeared earlier than the second V5+ activation but both peaked simultaneously. This result supports the hypothesis that both areas also generate the M2 component, which reflects a feedback input from V5+ to V1/V2 and a crosstalk between both structures. Our study indicates that during visual motion analysis, V1/V2 and V5+ are activated repeatedly through forward and feedback connections and both contribute to m-VEFs M1 and M2. In order to study the temporal activation course of visual areas V1 and V5 in response to a motion stimulus, a random dots kinematogram paradigm was applied to eight subjects while magnetic fields were recorded using magnetoencephalography (MEG). Sources generating the registered magnetic fields were localized with Magnetic Field Tomography (MFT). Anatomical identification of cytoarchitectonically defined areas V1/V2 and V5 was achieved by means of probabilistic cytoarchitectonic maps. We found that the areas V1/V2 and V5+ (V5 and other adjacent motion sensitive areas) exhibited two main activations peaks at 100-130 ms and at 140-200 ms after motion onset. The first peak found for V1/V2, which corresponds to the visual evoked field (VEF) M1, always preceded the peak found in V5+. Additionally, the V5+ peak was correlated significantly and positively with the second V1/V2 peak. This result supports the idea that the M1 component is generated not only by the visual area V1/V2 (as it is usually proposed), but also by V5+. It reflects a forward connection between both structures, and a feedback projection to V1/V2, which provokes a second activation in V1/V2 around 200 ms. This second V1/V2 activation (corresponding to motion VEF M2) appeared earlier than the second V5+ activation but both peaked simultaneously. This result supports the hypothesis that both areas also generate the M2 component, which reflects a feedback input from V5+ to V1/V2 and a crosstalk between both structures. Our study indicates that during visual motion analysis, V1/V2 and V5+ are activated repeatedly through forward and feedback connections and both contribute to m-VEFs M1 and M2.In order to study the temporal activation course of visual areas V1 and V5 in response to a motion stimulus, a random dots kinematogram paradigm was applied to eight subjects while magnetic fields were recorded using magnetoencephalography (MEG). Sources generating the registered magnetic fields were localized with Magnetic Field Tomography (MFT). Anatomical identification of cytoarchitectonically defined areas V1/V2 and V5 was achieved by means of probabilistic cytoarchitectonic maps. We found that the areas V1/V2 and V5+ (V5 and other adjacent motion sensitive areas) exhibited two main activations peaks at 100-130 ms and at 140-200 ms after motion onset. The first peak found for V1/V2, which corresponds to the visual evoked field (VEF) M1, always preceded the peak found in V5+. Additionally, the V5+ peak was correlated significantly and positively with the second V1/V2 peak. This result supports the idea that the M1 component is generated not only by the visual area V1/V2 (as it is usually proposed), but also by V5+. It reflects a forward connection between both structures, and a feedback projection to V1/V2, which provokes a second activation in V1/V2 around 200 ms. This second V1/V2 activation (corresponding to motion VEF M2) appeared earlier than the second V5+ activation but both peaked simultaneously. This result supports the hypothesis that both areas also generate the M2 component, which reflects a feedback input from V5+ to V1/V2 and a crosstalk between both structures. Our study indicates that during visual motion analysis, V1/V2 and V5+ are activated repeatedly through forward and feedback connections and both contribute to m-VEFs M1 and M2.
Author	Barnikol, Utako B. Prieto, Esther Alonso Mohlberg, Hartmut Soler, Ernesto Palmero Hesselmann, Guido Amunts, Katrin Tass, Peter A. Zilles, Karl Niedeggen, Michael Dolan, Kevin
Author_xml	– sequence: 1 givenname: Esther Alonso surname: Prieto fullname: Prieto, Esther Alonso email: esther.alonso@eemagine.com organization: Department of Medicine, INB, Research Center Jülich, Germany – sequence: 2 givenname: Utako B. surname: Barnikol fullname: Barnikol, Utako B. organization: Department of Medicine, INB, Research Center Jülich, Germany – sequence: 3 givenname: Ernesto Palmero surname: Soler fullname: Soler, Ernesto Palmero organization: Department of Medicine, INB, Research Center Jülich, Germany – sequence: 4 givenname: Kevin surname: Dolan fullname: Dolan, Kevin organization: Department of Medicine, INB, Research Center Jülich, Germany – sequence: 5 givenname: Guido surname: Hesselmann fullname: Hesselmann, Guido organization: Institute of Experimental Psychology, Heinrich Heine University Düsseldorf, Germany – sequence: 6 givenname: Hartmut surname: Mohlberg fullname: Mohlberg, Hartmut organization: Department of Medicine, INB, Research Center Jülich, Germany – sequence: 7 givenname: Katrin surname: Amunts fullname: Amunts, Katrin organization: Department of Medicine, INB, Research Center Jülich, Germany – sequence: 8 givenname: Karl surname: Zilles fullname: Zilles, Karl organization: Department of Medicine, INB, Research Center Jülich, Germany – sequence: 9 givenname: Michael surname: Niedeggen fullname: Niedeggen, Michael organization: Institute of Experimental Psychology, Heinrich Heine University Düsseldorf, Germany – sequence: 10 givenname: Peter A. surname: Tass fullname: Tass, Peter A. organization: Department of Medicine, INB, Research Center Jülich, Germany
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/17689986$$D View this record in MEDLINE/PubMed
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SubjectTerms	Adult Aged Algorithms Brain Mapping Cadaver Evoked Potentials, Visual - physiology Humans Image Processing, Computer-Assisted m-VEF Magnetoencephalography Male Middle Aged Models, Statistical Motion Perception - physiology Normal Distribution Photic Stimulation Response latency Studies Visual Cortex - anatomy & histology Visual Cortex - physiology Visual motion
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Title	Timing of V1/V2 and V5+ activations during coherent motion of dots: An MEG study
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