Cortical generators of slow evoked responses elicited by spatial and nonspatial auditory working memory tasks

Anurova, Irina; Artchakov, Denis; Korvenoja, Antti; Ilmoniemi, Risto J.; Aronen, Hannu J.; Carlson, Synnöve

doi:10.1016/j.clinph.2005.02.029

Cited by 23 publications

(15 citation statements)

References 61 publications

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“…Some recent research papers have, however, investigated whether the possible dissociation in auditory system occurs during specific cognitive operations required during WM processing (Anurova et al 2003(Anurova et al , 2005Rämä et al 2004;Arnott et al 2005). Simultaneous electroencephalogram and magnetoencephalogram recordings provided evidence for dissociable neuronal substrates during encoding and feature-specific analysis of identity and location information whereas maintenance of auditory information was reported to recruit a common neuronal system (Anurova et al 2003).…”

Section: Domain-specificity In Spatial and Nonspatial Auditory Wmmentioning

confidence: 95%

Domain-dependent activation during spatial and nonspatial auditory working memory

Rama

2007

Cogn Process

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Visual system has been proposed to be divided into two, the ventral and dorsal, processing streams. The ventral pathway is thought to be involved in object identification whereas the dorsal pathway processes information regarding the spatial locations of objects and the spatial relationships among objects. Several studies on working memory (WM) processing have further suggested that there is a dissociable domain-dependent functional organization within the prefrontal cortex for processing of spatial and nonspatial visual information. Also the auditory system is proposed to be organized into two domain-specific processing streams, similar to that seen in the visual system. Recent studies on auditory WM have further suggested that maintenance of nonspatial and spatial auditory information activates a distributed neural network including temporal, parietal, and frontal regions but the magnitude of activation within these activated areas shows a different functional topography depending on the type of information being maintained. The dorsal prefrontal cortex, specifically an area of the superior frontal sulcus (SFS), has been shown to exhibit greater activity for spatial than for nonspatial auditory tasks. Conversely, ventral frontal regions have been shown to be more recruited by nonspatial than by spatial auditory tasks. It has also been shown that the magnitude of this dissociation is dependent on the cognitive operations required during WM processing. Moreover, there is evidence that within the nonspatial domain in the ventral prefrontal cortex, there is an across-modality dissociation during maintenance of visual and auditory information. Taken together, human neuroimaging results on both visual and auditory sensory systems support the idea that the prefrontal cortex is organized according to the type of information being maintained in WM.

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Section: Domain-specificity In Spatial and Nonspatial Auditory Wmmentioning

confidence: 95%

Domain-dependent activation during spatial and nonspatial auditory working memory

Rama

2007

Cogn Process

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“…However, it remains unclear whether the scalp topographies of LPPs are influenced by sensory modalities. Both central-parietal and occipital dominant LPPs have been shown to be elicited by auditory stimuli that would not appear to activate the visual cortex (Anurova et al, 2005;Czigler et al, 2007;Matsuda et al, 2009). Further studies are necessary to elucidate the neural sources and functional significance of the two LPP subcomponents.…”

Section: Implications Drawn From Neurophysiological Researchmentioning

confidence: 97%

“…The sources of the LPP elicited by auditory working memory tasks were presumed to be in the temporal and parietal cortical areas (Anurova et al, 2005). The sources of the P3 elicited by concealed information, whose potential would include the occipital dominant LPP, were presumptively located not only in the parietal region but also in the frontal region (Jung et al, 2013).…”

Section: Implications Drawn From Neurophysiological Researchmentioning

confidence: 99%

“…Comparing these results yields the conclusion that the LPPs in these studies appear to occur when the participants are engaging in effortful cognitive processing after identifying task-relevant stimuli. The LPP associated with cognitive effort has a parietal or occipital dominant distribution (Anurova et al, 2005;García-Larrea and Cézanne-Bert, 1998;Matsuda et al, 2013), sometimes with negative potentials in frontal regions (McCallum et al, 1983).…”

Section: Introductionmentioning

confidence: 99%

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Motivational significance and cognitive effort elicit different late positive potentials

Matsuda

Nittono

2015

Clinical Neurophysiology

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“…They directly processing of sound pitch [36] . In addition, the "where"-ver- Adapted from reference [19] .…”

Section: Functional Imaging Studies Using Identical Noisementioning

confidence: 99%

The dual-pathway model of auditory signal processing

Wang

2008

Neurosci. Bull.

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Similar to the visual dual-pathway model, neurophysiological studies in non-human primates have suggested that the dual-pathway model is also applicable for explaining auditory cortical processing, including the ventral "what" pathway for object identification and the dorsal "where" pathway for spatial localization. This review summarizes evidence from human neuroimaging studies supporting the dual-pathway model for auditory cortical processing in humans.

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Cortical generators of slow evoked responses elicited by spatial and nonspatial auditory working memory tasks

Cited by 23 publications

References 61 publications

Domain-dependent activation during spatial and nonspatial auditory working memory

Domain-dependent activation during spatial and nonspatial auditory working memory

Motivational significance and cognitive effort elicit different late positive potentials

The dual-pathway model of auditory signal processing

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