Crossmodal binding through neural coherence: implications for multisensory processing

Daniel Senkowski; Till R. Schneider; John J. Foxe; Andreas K. Engel

doi:10.1016/j.tins.2008.05.002

Crossmodal binding through neural coherence: implications for multisensory processing

Daniel Senkowski, Till R. Schneider, John J. Foxe, Andreas K. Engel

Research output: Contribution to journal › Review article › peer-review

298 Scopus citations

Abstract

Picture yourself on a crowded sideway with people milling about. The acoustic and visual signals generated by the crowd provide you with complementary information about their locations and motion which needs to be integrated. It is not well understood how such inputs from different sensory channels are combined into unified perceptual states. Coherence of oscillatory neural signals might be an essential mechanism supporting multisensory perception. Evidence is now emerging which indicates that coupled oscillatory activity might serve to link neural signals across uni- and multisensory regions and to express the degree of crossmodal matching of stimulus-related information. These results argue for a new view on multisensory processing which considers the dynamic interplay of neural populations as a key to crossmodal integration.

Original language	English (US)
Pages (from-to)	401-409
Number of pages	9
Journal	Trends in Neurosciences
Volume	31
Issue number	8
DOIs	https://doi.org/10.1016/j.tins.2008.05.002
State	Published - Aug 2008
Externally published	Yes

ASJC Scopus subject areas

General Neuroscience

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10.1016/j.tins.2008.05.002

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title = "Crossmodal binding through neural coherence: implications for multisensory processing",

abstract = "Picture yourself on a crowded sideway with people milling about. The acoustic and visual signals generated by the crowd provide you with complementary information about their locations and motion which needs to be integrated. It is not well understood how such inputs from different sensory channels are combined into unified perceptual states. Coherence of oscillatory neural signals might be an essential mechanism supporting multisensory perception. Evidence is now emerging which indicates that coupled oscillatory activity might serve to link neural signals across uni- and multisensory regions and to express the degree of crossmodal matching of stimulus-related information. These results argue for a new view on multisensory processing which considers the dynamic interplay of neural populations as a key to crossmodal integration.",

author = "Daniel Senkowski and Schneider, {Till R.} and Foxe, {John J.} and Engel, {Andreas K.}",

note = "Funding Information: We thank Markus Siegel, Peter K{\"o}nig, J{\"o}rg Hipp and Gernot Supp for helpful comments on the manuscript. D.S. received support from a NARSAD 2006 young investigator award and the German Research Foundation (SE 1859/1–1). J.J.F. received support from a U.S. National Institute of Mental Health grant (NIMH–RO1 MH65350). A.K.E. acknowledges support by the European Union (IST-027268, NEST-043457), the German Research Foundation (GRK 1247/1), the German Federal Ministry of Education and Research (01GW0561) and the Volkswagen Foundation (II/80609).",

year = "2008",

month = aug,

doi = "10.1016/j.tins.2008.05.002",

language = "English (US)",

volume = "31",

pages = "401--409",

journal = "Trends in Neurosciences",

issn = "0166-2236",

publisher = "Elsevier Limited",

number = "8",

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TY - JOUR

T1 - Crossmodal binding through neural coherence

T2 - implications for multisensory processing

AU - Senkowski, Daniel

AU - Schneider, Till R.

AU - Foxe, John J.

AU - Engel, Andreas K.

N1 - Funding Information: We thank Markus Siegel, Peter König, Jörg Hipp and Gernot Supp for helpful comments on the manuscript. D.S. received support from a NARSAD 2006 young investigator award and the German Research Foundation (SE 1859/1–1). J.J.F. received support from a U.S. National Institute of Mental Health grant (NIMH–RO1 MH65350). A.K.E. acknowledges support by the European Union (IST-027268, NEST-043457), the German Research Foundation (GRK 1247/1), the German Federal Ministry of Education and Research (01GW0561) and the Volkswagen Foundation (II/80609).

PY - 2008/8

Y1 - 2008/8

N2 - Picture yourself on a crowded sideway with people milling about. The acoustic and visual signals generated by the crowd provide you with complementary information about their locations and motion which needs to be integrated. It is not well understood how such inputs from different sensory channels are combined into unified perceptual states. Coherence of oscillatory neural signals might be an essential mechanism supporting multisensory perception. Evidence is now emerging which indicates that coupled oscillatory activity might serve to link neural signals across uni- and multisensory regions and to express the degree of crossmodal matching of stimulus-related information. These results argue for a new view on multisensory processing which considers the dynamic interplay of neural populations as a key to crossmodal integration.

AB - Picture yourself on a crowded sideway with people milling about. The acoustic and visual signals generated by the crowd provide you with complementary information about their locations and motion which needs to be integrated. It is not well understood how such inputs from different sensory channels are combined into unified perceptual states. Coherence of oscillatory neural signals might be an essential mechanism supporting multisensory perception. Evidence is now emerging which indicates that coupled oscillatory activity might serve to link neural signals across uni- and multisensory regions and to express the degree of crossmodal matching of stimulus-related information. These results argue for a new view on multisensory processing which considers the dynamic interplay of neural populations as a key to crossmodal integration.

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JO - Trends in Neurosciences

JF - Trends in Neurosciences

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Crossmodal binding through neural coherence: implications for multisensory processing

Abstract

ASJC Scopus subject areas

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