Audiovisual contrast enhancement is articulated primarily via the M-pathway

Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been explicitly assessed in the context of different visual processing pathways. In the present study, we test auditory influences on visual process...

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Veröffentlicht in:Brain research Jg. 1366; S. 85 - 92
Hauptverfasser: Jaekl, Philip M., Soto-Faraco, Salvador
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Amsterdam Elsevier B.V 17.12.2010
Elsevier
Schlagworte:
Acoustic Stimulation
Adult
Analysis of Variance
Anatomical correlates of behavior
Attention - physiology
Audiovisual
Behavioral psychophysiology
Biological and medical sciences
Contrast sensitivity
Contrast Sensitivity - physiology
Detection
Eye and associated structures. Visual pathways and centers. Vision
Female
Fundamental and applied biological sciences. Psychology
Humans
Magnocellular pathway
Male
Multisensory
Neurology
Orientation - physiology
Parvocellular pathway
Perceptual enhancement
Photic Stimulation
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Psychophysics
Reaction Time - physiology
Sensory Thresholds - physiology
Sound
Vertebrates: nervous system and sense organs
Visual Pathways - physiology
Young Adult
Audiovisual
Magnocellular pathway
Contrast sensitivity
Parvocellular pathway
Detection
Perceptual enhancement
Multisensory
Human
Multisensory integration
Medical screening
Contrast
Sensitivity
Visual pathway
Intermodal perception
ISSN:0006-8993, 1872-6240, 1872-6240
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Abstract Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been explicitly assessed in the context of different visual processing pathways. In the present study, we test auditory influences on visual processing employing a psychophysical paradigm that reveals distinct spatial contrast signatures of magnocellular and parvocellular visual pathways. We found that contrast thresholds are reduced when noninformative sounds are presented with transient, low-frequency Gabor patch stimuli and thus favor the M-system. In contrast, visual thresholds are unaffected by concurrent sounds when detection is primarily attributed to P-pathway processing. These results demonstrate that the visual detection enhancement resulting from multisensory integration is mainly articulated by the magnocellular system, which is most sensitive at low spatial frequencies. Such enhancement may subserve stimulus-driven processes including the orientation of spatial attention and fast, automatic ocular and motor responses. This dissociation helps explain discrepancies between the results of previous studies investigating visual enhancement by sounds. ►Audiovisual sensory interaction can increase visual contrast sensitivity. ►Audiovisual contrast enhancement is dependent on spatial frequency tuning. ►Enhancement occurs for visual stimuli more sensitive to the magnocellular system and not with stimuli tuned primarily to parvocellular processing channels.
AbstractList Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been explicitly assessed in the context of different visual processing pathways. In the present study, we test auditory influences on visual processing employing a psychophysical paradigm that reveals distinct spatial contrast signatures of magnocellular and parvocellular visual pathways. We found that contrast thresholds are reduced when noninformative sounds are presented with transient, low-frequency Gabor patch stimuli and thus favor the M-system. In contrast, visual thresholds are unaffected by concurrent sounds when detection is primarily attributed to P-pathway processing. These results demonstrate that the visual detection enhancement resulting from multisensory integration is mainly articulated by the magnocellular system, which is most sensitive at low spatial frequencies. Such enhancement may subserve stimulus-driven processes including the orientation of spatial attention and fast, automatic ocular and motor responses. This dissociation helps explain discrepancies between the results of previous studies investigating visual enhancement by sounds.
Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been explicitly assessed in the context of different visual processing pathways. In the present study, we test auditory influences on visual processing employing a psychophysical paradigm that reveals distinct spatial contrast signatures of magnocellular and parvocellular visual pathways. We found that contrast thresholds are reduced when noninformative sounds are presented with transient, low-frequency Gabor patch stimuli and thus favor the M-system. In contrast, visual thresholds are unaffected by concurrent sounds when detection is primarily attributed to P-pathway processing. These results demonstrate that the visual detection enhancement resulting from multisensory integration is mainly articulated by the magnocellular system, which is most sensitive at low spatial frequencies. Such enhancement may subserve stimulus-driven processes including the orientation of spatial attention and fast, automatic ocular and motor responses. This dissociation helps explain discrepancies between the results of previous studies investigating visual enhancement by sounds. ►Audiovisual sensory interaction can increase visual contrast sensitivity. ►Audiovisual contrast enhancement is dependent on spatial frequency tuning. ►Enhancement occurs for visual stimuli more sensitive to the magnocellular system and not with stimuli tuned primarily to parvocellular processing channels.
Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been explicitly assessed in the context of different visual processing pathways. In the present study, we test auditory influences on visual processing employing a psychophysical paradigm that reveals distinct spatial contrast signatures of magnocellular and parvocellular visual pathways. We found that contrast thresholds are reduced when noninformative sounds are presented with transient, low-frequency Gabor patch stimuli and thus favor the M-system. In contrast, visual thresholds are unaffected by concurrent sounds when detection is primarily attributed to P-pathway processing. These results demonstrate that the visual detection enhancement resulting from multisensory integration is mainly articulated by the magnocellular system, which is most sensitive at low spatial frequencies. Such enhancement may subserve stimulus-driven processes including the orientation of spatial attention and fast, automatic ocular and motor responses. This dissociation helps explain discrepancies between the results of previous studies investigating visual enhancement by sounds.Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been explicitly assessed in the context of different visual processing pathways. In the present study, we test auditory influences on visual processing employing a psychophysical paradigm that reveals distinct spatial contrast signatures of magnocellular and parvocellular visual pathways. We found that contrast thresholds are reduced when noninformative sounds are presented with transient, low-frequency Gabor patch stimuli and thus favor the M-system. In contrast, visual thresholds are unaffected by concurrent sounds when detection is primarily attributed to P-pathway processing. These results demonstrate that the visual detection enhancement resulting from multisensory integration is mainly articulated by the magnocellular system, which is most sensitive at low spatial frequencies. Such enhancement may subserve stimulus-driven processes including the orientation of spatial attention and fast, automatic ocular and motor responses. This dissociation helps explain discrepancies between the results of previous studies investigating visual enhancement by sounds.
Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been explicitly assessed in the context of different visual processing pathways. In the present study, we test auditory influences on visual processing employing a psychophysical paradigm that reveals distinct spatial contrast signatures of magnocellular and parvocellular visual pathways. We found that contrast thresholds are reduced when noninformative sounds are presented with transient, low-frequency Gabor patch stimuli and thus favor the M-system. In contrast, visual thresholds are unaffected by concurrent sounds when detection is primarily attributed to P-pathway processing. These results demonstrate that the visual detection enhancement resulting from multisensory integration is mainly articulated by the magnocellular system, which is most sensitive at low spatial frequencies. Such enhancement may subserve stimulus-driven processes including the orientation of spatial attention and fast, automatic ocular and motor responses. This dissociation helps explain discrepancies between the results of previous studies investigating visual enhancement by sounds. a-[ordmAudiovisual sensory interaction can increase visual contrast sensitivity. a-[ordmAudiovisual contrast enhancement is dependent on spatial frequency tuning. a-[ordmEnhancement occurs for visual stimuli more sensitive to the magnocellular system and not with stimuli tuned primarily to parvocellular processing channels.
Abstract Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been explicitly assessed in the context of different visual processing pathways. In the present study, we test auditory influences on visual processing employing a psychophysical paradigm that reveals distinct spatial contrast signatures of magnocellular and parvocellular visual pathways. We found that contrast thresholds are reduced when noninformative sounds are presented with transient, low-frequency Gabor patch stimuli and thus favor the M-system. In contrast, visual thresholds are unaffected by concurrent sounds when detection is primarily attributed to P-pathway processing. These results demonstrate that the visual detection enhancement resulting from multisensory integration is mainly articulated by the magnocellular system, which is most sensitive at low spatial frequencies. Such enhancement may subserve stimulus-driven processes including the orientation of spatial attention and fast, automatic ocular and motor responses. This dissociation helps explain discrepancies between the results of previous studies investigating visual enhancement by sounds.
Author Jaekl, Philip M.
Soto-Faraco, Salvador
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Keywords Audiovisual
Magnocellular pathway
Contrast sensitivity
Parvocellular pathway
Detection
Perceptual enhancement
Multisensory
Human
Multisensory integration
Medical screening
Contrast
Sensitivity
Visual pathway
Intermodal perception
Language English
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CC BY 4.0
Copyright © 2010 Elsevier B.V. All rights reserved.
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Snippet Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have not been...
Abstract Although it has been previously reported that audiovisual integration can modulate performance on some visual tasks, multisensory interactions have...
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StartPage 85
SubjectTerms Acoustic Stimulation
Adult
Analysis of Variance
Anatomical correlates of behavior
Attention - physiology
Audiovisual
Behavioral psychophysiology
Biological and medical sciences
Contrast sensitivity
Contrast Sensitivity - physiology
Detection
Eye and associated structures. Visual pathways and centers. Vision
Female
Fundamental and applied biological sciences. Psychology
Humans
Magnocellular pathway
Male
Multisensory
Neurology
Orientation - physiology
Parvocellular pathway
Perceptual enhancement
Photic Stimulation
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Psychophysics
Reaction Time - physiology
Sensory Thresholds - physiology
Sound
Vertebrates: nervous system and sense organs
Visual Pathways - physiology
Young Adult
Title Audiovisual contrast enhancement is articulated primarily via the M-pathway
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https://dx.doi.org/10.1016/j.brainres.2010.10.012
https://www.ncbi.nlm.nih.gov/pubmed/20940003
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