electrophysiological effect of working memory load on involuntary attention in an auditory-visual distraction paradigm: an ERP study
Event-related brain potentials (ERPs) were used to examine the electrophysiological effect of working memory (WM) load on involuntary attention caused by a task-irrelevant sound in an auditory-visual distraction paradigm. The different WM loads were manipulated by requiring subjects to remember the...
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| Published in | Experimental brain research Vol. 205; no. 1; pp. 81 - 86 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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Berlin/Heidelberg : Springer-Verlag
01.08.2010
Springer-Verlag Springer Springer Nature B.V |
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| Abstract | Event-related brain potentials (ERPs) were used to examine the electrophysiological effect of working memory (WM) load on involuntary attention caused by a task-irrelevant sound in an auditory-visual distraction paradigm. The different WM loads were manipulated by requiring subjects to remember the order of either three digits (low-load condition) or seven digits (high-load condition), and the irrelevant auditory stimuli consisted of repetitive standard sounds (80%) and environmental novel sounds (20%). We found that the difference waves (novel-minus-standard) showed significant MMN and Novelty-P3 components in the two WM load conditions. The amplitude of MMN increased with increasing the WM load, which indicated a more engaged change detection process under high-load condition. Then, the amplitude of Novelty-P3 was attenuated under high-load condition, which indicated a much reduced involuntary orienting of attention to novel sounds when increasing the WM load. These results indicated the top-down control of involuntary attention might be mainly active at the early change detection stage and the control of the later involuntary orienting of attention might be passive. |
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| AbstractList | Event-related brain potentials (ERPs) were used to examine the electrophysiological effect of working memory (WM) load on involuntary attention caused by a task-irrelevant sound in an auditory-visual distraction paradigm. The different WM loads were manipulated by requiring subjects to remember the order of either three digits (low-load condition) or seven digits (high-load condition), and the irrelevant auditory stimuli consisted of repetitive standard sounds (80%) and environmental novel sounds (20%). We found that the difference waves (novel-minus-standard) showed significant MMN and Novelty-P3 components in the two WM load conditions. The amplitude of MMN increased with increasing the WM load, which indicated a more engaged change detection process under high-load condition. Then, the amplitude of Novelty-P3 was attenuated under high-load condition, which indicated a much reduced involuntary orienting of attention to novel sounds when increasing the WM load. These results indicated the top-down control of involuntary attention might be mainly active at the early change detection stage and the control of the later involuntary orienting of attention might be passive. Event-related brain potentials (ERPs) were used to examine the electrophysiological effect of working memory (WM) load on involuntary attention caused by a task-irrelevant sound in an auditory-visual distraction paradigm. The different WM loads were manipulated by requiring subjects to remember the order of either three digits (low-load condition) or seven digits (high-load condition), and the irrelevant auditory stimuli consisted of repetitive standard sounds (80%) and environmental novel sounds (20%). We found that the difference waves (novel-minus-standard) showed significant MMN and Novelty-P3 components in the two WM load conditions. The amplitude of MMN increased with increasing the WM load, which indicated a more engaged change detection process under high-load condition. Then, the amplitude of Novelty-P3 was attenuated under high-load condition, which indicated a much reduced involuntary orienting of attention to novel sounds when increasing the WM load. These results indicated the top-down control of involuntary attention might be mainly active at the early change detection stage and the control of the later involuntary orienting of attention might be passive.Event-related brain potentials (ERPs) were used to examine the electrophysiological effect of working memory (WM) load on involuntary attention caused by a task-irrelevant sound in an auditory-visual distraction paradigm. The different WM loads were manipulated by requiring subjects to remember the order of either three digits (low-load condition) or seven digits (high-load condition), and the irrelevant auditory stimuli consisted of repetitive standard sounds (80%) and environmental novel sounds (20%). We found that the difference waves (novel-minus-standard) showed significant MMN and Novelty-P3 components in the two WM load conditions. The amplitude of MMN increased with increasing the WM load, which indicated a more engaged change detection process under high-load condition. Then, the amplitude of Novelty-P3 was attenuated under high-load condition, which indicated a much reduced involuntary orienting of attention to novel sounds when increasing the WM load. These results indicated the top-down control of involuntary attention might be mainly active at the early change detection stage and the control of the later involuntary orienting of attention might be passive. Event-related brain potentials (ERPs) were used to examine the electrophysiological effect of working memory (WM) load on involuntary attention caused by a task-irrelevant sound in an auditory-visual distraction paradigm. The different WM loads were manipulated by requiring subjects to remember the order of either three digits (low-load condition) or seven digits (high-load condition), and the irrelevant auditory stimuli consisted of repetitive standard sounds (80%) and environmental novel sounds (20%). We found that the difference waves (novel-minus-standard) showed significant MMN and Novelty-P3 components in the two WM load conditions. The amplitude of MMN increased with increasing the WM load, which indicated a more engaged change detection process under high-load condition. Then, the amplitude of Novelty-P3 was attenuated under high-load condition, which indicated a much reduced involuntary orienting of attention to novel sounds when increasing the WM load. These results indicated the top-down control of involuntary attention might be mainly active at the early change detection stage and the control of the later involuntary orienting of attention might be passive.[PUBLICATION ABSTRACT] |
| Author | Tu, Shen Lv, Jie-Yu Wei, Dong-Tao Feng, Si-Hai Wang, Ting Qiu, Jiang |
| Author_xml | – sequence: 1 fullname: Lv, Jie-Yu – sequence: 2 fullname: Wang, Ting – sequence: 3 fullname: Qiu, Jiang – sequence: 4 fullname: Feng, Si-Hai – sequence: 5 fullname: Tu, Shen – sequence: 6 fullname: Wei, Dong-Tao |
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| Cites_doi | 10.1016/j.tics.2006.02.001 10.1016/S0926-6410(99)00044-0 10.1162/jocn.2008.20078 10.1046/j.1460-9568.2003.02527.x 10.1016/S0926-6410(00)00044-6 10.1016/j.neuroimage.2004.06.025 10.1016/S0896-6273(01)00285-9 10.1037/0096-1523.33.5.1062 10.1159/000013877 10.1016/j.tics.2004.12.004 10.1016/j.brainres.2006.12.020 10.1016/j.neuroscience.2005.08.023 10.1016/j.neuroscience.2005.06.005 10.1017/S004857729800211X 10.1027/0269-8803.21.34.251 10.1016/S0149-7634(01)00019-7 10.1146/annurev.psych.52.1.629 10.1162/089892998562997 10.1038/35097575 10.1016/j.brainres.2005.12.125 10.1017/S0140525X00078407 10.1162/jocn.1996.8.6.527 10.1037/0096-3445.133.3.339 10.1111/1469-8986.3520211 10.3758/BF03196525 10.1027/1618-3169.51.4.249 10.3758/BF03196756 |
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| Keywords | Working memory (WM) Involuntary attention Novelty-P3 Mismatch negativity (MMN) Human Load Central nervous system Electrophysiology Encephalon Mismatch negativity Repetitive stimulus Working memory Visual attention Event evoked potential |
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