Neural sources involved in auditory target detection and novelty processing: An event-related fMRI study

Kiehl, Kent A.; Laurens, Kristin R.; Duty, Tim; Forster, Bruce B.; Liddle, Peter F.

doi:10.1017/s0048577201981867

Cited by 108 publications

(152 citation statements)

References 8 publications

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“…This extensive network of brain regions associated with target detection may be similar to the attention network discussed by Mesalum (Mesulam, 1990;Mesulam, 2000). Others have suggested that processing salient stimuli is associated with an 'reflexive' or 'automatic' orienting process that is reliably activates an extensive neural network despite the low probability that all activated brain regions are required for successful task performance (Kiehl et al, 2001a;Kiehl et al, 2001b;Kiehl & Liddle, 2003;Kiehl et al, 2005).Also consistent with study hypotheses, target detection was associated with greater hemodynamic activity during the single-tone condition compared to the two-tone condition in bilateral middle temporal gyrus, inferior frontal and middle prefrontal gyri. These findings are consistent with electrophysiological and magnetoencephalogram studies of single-, two-and three-tone oddball tasks.…”

supporting

confidence: 72%

“…This study illustrates that a large ensemble of brain regions, known to be involved in target detection during three-tone auditory oddball tasks (Kiehl et al, 2001a;Kiehl et al, 2001b;Kiehl & Liddle, 2003), also are engaged by target detection in single-and two-tone auditory oddball paradigms. Target detection in both single-tone and two-tone fMRI auditory oddball tasks elicited significant hemodynamic activity in all 34 a priori-defined regions of interest (ROIs).…”

Section: Discussionmentioning

confidence: 62%

“…Hemodynamic activity was examined in a group of participants who performed both a two-stimulus version of the oddball and a version containing only targets (single-stimulus) (Polich et al, 1994;Polich & Heine, 1996;Polich & Margala, 1997). The first aim of this study was to determine whether the brain areas previously activated by target detection during a three-stimulus oddball task (Kiehl et al, 2001a;Kiehl et al, 2001b;Kiehl & Liddle, 2003) also were activated by the different contextual task manipulations. It was hypothesized that target stimuli would elicit hemodynamic activity in the same diverse, spatially distributed neural network implicated in previous depth electrode and three-stimulus fMRI oddball studies.…”

mentioning

confidence: 99%

“…Statistical significance of activity within the ROIs was maintained below an alpha of .05 using small volume correction (Worsley et al, 1996) and the false discovery rate (Nichols & Hayasaka, 2003). 2 Relatively small clusters were used to prevent overlap for those ROIs that were close together; one ROI from previous work (Kiehl et al, 2001b); located in the right temporal pole was excluded because of such overlap.To address the question of whether there are differences in the amplitude of the hemodynamic response elicited in the single-and two-tone conditions, a supplementary analysis examining the entire brain was done. For these post hoc tests, a correction for multiple comparisons used the False Discovery Rate to control Type I error (Nichols & Hayasaka, 2003).…”

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confidence: 99%

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The hemodynamics of oddball processing during single-tone and two-tone target detection tasks

Stevens

Laurens

Liddle

et al. 2006

International Journal of Psychophysiology

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Event-related potential (ERP) studies have shown that the neural systems engaged during performance of oddball tasks are sensitive to contextual manipulations, such as the number of stimulus classes. Some ERP components (i.e., N1) are modulated by the number of stimulus types, while others (i.e., P3) are not greatly affected. However, little is known about how these contextual manipulations affect the hemodynamics underlying oddball processing. The purpose of this study was to examine the hemodynamic correlates of target stimulus processing in singletone (targets alone) and two-tone (targets and standard tones) auditory oddball tasks. The primary hypothesis was that processing of salient stimuli in both contextual conditions would engage the same spatially distributed cortical and subcortical networks observed in previous oddball fMRI studies. Results were consistent with this hypothesis and suggest that the brain engages many potentially useful brain regions during salient stimulus processing despite the low probability that said regions are necessary for task performance, which likely reflects a form of "adaptive reflexive processing." Results also were consistent with ERP data that shows the N1 is larger for single-tone tasks by showing greater amplitude of hemodynamic response for singletone targets, relative to two tone targets, in bilateral temporal cortex and bilateral inferior lateral frontal cortex. The results are discussed as they relate to the understanding of neurocognitive function pertaining to contextual manipulations in general, and orienting processes in particular. Keywords ORIENTING; MAGNETIC RESONANCE IMAGING; BRAIN; PSYCHOLOGY; COGNITIONThe neural systems underlying processing of low probability target stimuli have been studied for over four decades. The impact of salient stimulus processing on brain electrical activity was first described by Sutton et al. (1965), who demonstrated that infrequently-presented taskrelevant stimuli ("oddballs") produce a sequence of time-locked electrical components, the NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript most prominent of which is a large positive potential that peaks approximately 300 milliseconds following the stimulus onset. This late event-related potential (ERP), termed the P300 or P3, is thought to reflect stimulus evaluation/categorization, and cognitive processes necessary to update mental models of context within working memory (Donchin & Coles, 1988). Since Sutton et al's seminal study, numerous reports have been published that detail how contextual manipulations in the oddball paradigm (e.g., manipulations of stimulus probability, inter-trial interval, sensory modality, etc.) modulate the latency, amplitude or topographic distribution of the P3 .One contextual manipulation to the oddball task is to alter the number of stimulus classes presented within the task. Researchers most commonly use oddball tasks having either twostimulus classes (low probability targets juxtaposed with frequent standards) or ...

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supporting

confidence: 72%

Section: Discussionmentioning

confidence: 62%

mentioning

confidence: 99%

mentioning

confidence: 99%

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The hemodynamics of oddball processing during single-tone and two-tone target detection tasks

Stevens

Laurens

Liddle

et al. 2006

International Journal of Psychophysiology

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“…Specifically, attentional processes that involve sustained, and possibly selective, attention (Coull et al, 1996), switching from task-relevant local to global targets (Fink et al, 1996;Lamb et al, 1989), voluntary attentional control (Hopfinger et al, 2000), and the distinction between taskirrelevant and task-relevant events (Downar et al, 2001;Kiehl et al, 2001;McCarthy et al, 1997) support the view that this area is critical for the extraction and selection of task-relevant information. Moreover, this area has been implicated in inhibitory control in a number of different paradigms (Garavan et al, 1999;Menon et al, 2001;Rubia et al, 2001b;Steel et al, 2001;Doricchi et al, 1997), that is, the allocation of resources to a response that has to compete with a highly overlearned and potentially habitual behavior.…”

Section: Decision-making and Errors In Schizophreniamentioning

confidence: 94%

Schizophrenia Subjects Show Intact Success-Related Neural Activation but Impaired Uncertainty Processing during Decision-Making

Paulus

Frank

Brown

et al. 2002

Neuropsychopharmacol

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Decision-making is a complex process that is important for everyday life. This study examined the effect of the degree of success, and outcome uncertainty, on decision-making and associated neural substrate activation in schizophrenia subjects (SZS) and normal comparison subjects (NCS). A total of 15 subjects with a diagnosis of schizophrenia and 15 age-and education-matched NCS participated in this study. These subjects completed the two-choice prediction task during functional magnetic resonance imaging. Decision-making characteristics and activation of neural substrates were obtained at 20, 50, or 80% error rate. Success and uncertainty influenced the behavioral characteristics on the two-choice prediction task, and the task-related activation in SZS and NCS. Neither success nor uncertainty differentially affected the behavioral characteristics of SZS relative to NCS during the two-choice prediction task. Nonetheless, there was a significant interaction between group and error rate in bilateral parietal cortex. The activation in NCS was the highest when the outcome was most uncertain. In contrast, task-related activation in SZS was not modulated by the degree of uncertainty. Thus, SZS failed to utilize the parietal cortex to process decision-making situations with highly uncertain outcomes.

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Reproducibility of the hemodynamic response to auditory oddball stimuli: A six‐week test–retest study

Kiehl

Liddle

2002

Human Brain Mapping

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Determining the reliability and reproducibility of the hemodynamic response is important for the interpretation and understanding of the results of functional magnetic resonance imaging (fMRI) experiments. We describe a whole brain fMRI study designed to examine the reproducibility of the event-related hemodynamic response elicited by low-probability task-relevant target stimuli and low-probability task-irrelevant novel stimuli assessed 6 weeks apart. Reliable activation was observed during test and retest for processing of target stimuli in multiple frontal, temporal, parietal, cerebellar, and subcortical sites. Novel stimuli elicited reliable activation during test and retest in lateral frontal cortex, inferior parietal lobule, and lateral temporal cortex, though there was evidence of habituation at some cortical sites. The patterns of activation associated with target detection and novelty processing are consistent with the intracranial distribution of the neural sources generated during similar tasks and replicate the results of previous event-related fMRI studies. The observed pattern of results supports the hypothesis that the hemodynamic response to target and novel stimuli is highly reproducible over the 6-week test-retest period.

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Neural sources involved in auditory target detection and novelty processing: An event-related fMRI study

Cited by 108 publications

References 8 publications

The hemodynamics of oddball processing during single-tone and two-tone target detection tasks

The hemodynamics of oddball processing during single-tone and two-tone target detection tasks

Schizophrenia Subjects Show Intact Success-Related Neural Activation but Impaired Uncertainty Processing during Decision-Making

Reproducibility of the hemodynamic response to auditory oddball stimuli: A six‐week test–retest study

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