Selective Attention to Visual Stimuli Reduces Cochlear Sensitivity in Chinchillas

Délano, Paul H.; Elgueda, Diego; Hamamé, Carlos M.; Robles, Luis

doi:10.1523/jneurosci.3702-06.2007

Cited by 147 publications

(160 citation statements)

References 49 publications

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“…In addition, experiments using crossmodal manipulations have demonstrated interactions between emotional and exogenous attention in the form of decreased P3 amplitude to auditory startle probes when emotionally intense visual stimuli are presented concurrently (Cuthbert, Schupp, Bradley, McManis, & Lang, 1998;Keil et al, 2007). In animal work, crossmodal interactions between different attention systems may even affect sensory processing at the level of sensory transduction (e.g., in the cochlea, see Delano, Elgueda, Hamame, & Robles, 2007). Altogether, these findings suggest that the different attention systems may initially operate relatively independently (i.e., not tap into each other's resources), but may compete and interact at later time points (e.g., at the level of the P3 component) or when different sensory modalities are integrated.…”

Section: Discussionmentioning

confidence: 99%

Additive effects of emotional, endogenous, and exogenous attention: Behavioral and electrophysiological evidence

et al. 2011

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Please cite this article in press as: Brosch, T., et al. Selective attention is not a unitary construct, but is composed of several processes. Attention selection may be guided by low-level stimulus properties, by the emotional value of the stimulus, or more voluntarily by the goals and plans of the observer. Whether these three systems operate independently during attention selection or not remains a debated question. We report results from two studies investigating the extent to which these different attention mechanisms may interact with one another. Using a standard dot probe paradigm wherein effects of exogenous, emotional, and endogenous attention were orthogonally manipulated, we found attentional facilitation effects for each component, indicated by faster decision times for validly, as opposed to invalidly cued targets. Moreover, results confirmed that these three attentional effects added up in a linear fashion. Complementing ERP results allowed us to disentangle the respective contributions of the two reflexive, bottom-up attention processes (exogenous vs. emotional) by showing non-overlapping temporal loci for attentional effects related either to low-level physical properties or the emotional content of the stimulus. These findings suggest that multiple separate attention mechanisms can operate simultaneously to yield a rapid and efficient visual processing of various classes of potentially relevant stimuli.

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Section: Discussionmentioning

confidence: 99%

Additive effects of emotional, endogenous, and exogenous attention: Behavioral and electrophysiological evidence

et al. 2011

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“…Thus the observed increase in MT cells inhibitory responses during the discrimination task may arise from the activation of the piriform cortex-OB circuit. It cannot be rule out, however, that because both PE and TA tasks required previous extensive learning, increased inhibition would not reflect learning but other cognitive process, such as attention, which would reflect as a top down modulation of lower level structures (Delano et al 2007;Reynolds and Desimone 1999).…”

Section: Task Dependency Of Neuronal Responsesmentioning

confidence: 99%

Neuronal Activity of Mitral-Tufted Cells in Awake Rats During Passive and Active Odorant Stimulation

Fuentes¹,

M²,

Aylwin³

et al. 2008

Journal of Neurophysiology

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Fuentes RA, Aguilar MI, Aylwin ML, Maldonado PE. Neuronal activity of mitral-tufted cells in awake rats during passive and active odorant stimulation. J Neurophysiol 100: 422-430, 2008. First published May 21, 2008 doi:10.1152/jn.00095.2008. Odorants induce specific modulation of mitral/tufted (MT) cells' firing rate in the mammalian olfactory bulb (OB), inducing temporal patterns of neuronal discharge embedded in an oscillatory local field potential (LFP). While most studies have examined anesthetized animals, little is known about the firing rate and temporal patterns of OB single units and population activity in awake behaving mammals. We examined the firing rate and oscillatory activity of MT cells and LFP signals in behaving rats during two olfactory tasks: passive exposure (PE) and two-alternative (TA) choice discrimination. MT inhibitory responses are predominant in the TA task (76.5%), whereas MT excitatory responses predominate in the PE task (59.2%). Rhythmic discharge in the 12-to 100-Hz range was found in 79.0 and 68.9% of MT cells during PE and TA tasks, respectively. Most odorants presented in PE task increase rhythmic discharges at frequencies Ͼ50 Hz, whereas in TA, one of four odorants produced a modest increment Ͻ40 Hz. LFP oscillations were clearly modulated by odorants during the TA task, increasing their oscillatory power at frequencies centered at 20 Hz and decreasing power at frequencies Ͼ50 Hz. Our results indicate that firing rate responses of MT cells in awake animals are behaviorally modulated with inhibition being a prominent feature of this modulation. The occurrence of oscillatory patterns in single-and multiunitary discharge is also related to stimulation and behavioral context, while the oscillatory patterns of the neuronal population showed a strong dependence on odorant stimulation.

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“…In other studies, Hocherman et al (Hocherman et al, 1981;Hocherman and Yirmiya, 1990) showed that responses of auditory cortical neurons as well as thalamic neurons in In line with the notion that attention may be able to influence early stages of auditory sensory pathway, several early study in cats (Hernandez-Peon et al, 1956;Oatman, 1971Oatman, , 1976Oatman, 1988) and a recent study in chinchillas (Delano et al, 2007) showed that visual attention during a visual discrimination task can significantly decrease cochlear sensitivity, measured by sound-evoked auditory-nerve compound action potentials and cochlear microphonics, and cochlea nucleus responses. In contrast, when the animal is performing an auditory discrimination task, little effect on the early auditory processing pathway was observed.…”

Section: Auditory Attention Studies In Animalsmentioning

confidence: 79%

Neural Mechanisms of Selective Auditory Attention in Rats (Dissertation)

Tai

Zador

2008

Nature Precedings

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of the Dissertation Neural Mechanisms of Selective Auditory Attention in Rats by Lung-Hao Tai Doctor of Philosophy in Neuroscience Stony Brook University 2008How does attention modulate sensory representations? In order to probe the underlying neural mechanisms, we established a simple rodent model of modality-specific attention. Rats were trained to perform distinct auditory two-tone discrimination and olfactory odor discrimination in a two alternative choice (2AC) paradigm.To determine auditory cortex's role in this frequency discrimination task, we used GABA-A receptor agonist muscimol to transiently and reversibly inactivate auditory cortexes bilaterally in rats performing simple interleaved auditory and olfactory discrimination. With olfactory discrimination performance serving as internal control for motivation and decision making capability, we found only auditory two-tone

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Selective Attention to Visual Stimuli Reduces Cochlear Sensitivity in Chinchillas

Cited by 147 publications

References 49 publications

Additive effects of emotional, endogenous, and exogenous attention: Behavioral and electrophysiological evidence

Additive effects of emotional, endogenous, and exogenous attention: Behavioral and electrophysiological evidence

Neuronal Activity of Mitral-Tufted Cells in Awake Rats During Passive and Active Odorant Stimulation

Neural Mechanisms of Selective Auditory Attention in Rats (Dissertation)

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