Does over-reliance on auditory feedback cause disfluency? An fMRI study of induced fluency in people who stutter

AbstractThis study tested the idea that stuttering is caused by over-reliance on auditory feedback. The theory is motivated by the observation that many fluency-inducing situations, such as synchronised speech and masked speech, alter or obscure the talker’s feedback. Typical speakers show ‘speaking-induced suppression’ of neural activation in superior temporal gyrus (STG) during self-produced vocalisation, compared to listening to recorded speech. If people who stutter over-attend to auditory feedback, they may lack this suppression response. In a 1.5T fMRI scanner, people who stutter spoke in synchrony with an experimenter, in synchrony with a recording, on their own, in noise, listened to the experimenter speaking and read silently. Behavioural testing outside the scanner demonstrated that synchronising with another talker resulted in a marked increase in fluency regardless of baseline stuttering severity. In the scanner, participants stuttered most when they spoke alone, and least when they synchronised with a live talker. There was no reduction in STG activity in the Speak Alone condition, when participants stuttered most. There was also strong activity in STG in response to the two synchronised speech conditions, when participants stuttered least, suggesting that either stuttering does not result from over-reliance on feedback, or that the STG activation seen here does not reflect speech feedback monitoring. We discuss this result with reference to neural responses seen in the typical population.

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An Event-Related fMRI Study of Visual and Auditory Oddball Tasks

Journal of Psychophysiology ◽

10.1027//0269-8803.15.4.221 ◽

2001 ◽

Vol 15 (4) ◽

pp. 221-240 ◽

Cited By ~ 78

Author(s):

Kent A. Kiehl ◽

Kristin R. Laurens ◽

Timothy L. Duty ◽

Bruce B. Forster ◽

Peter F. Liddle

Keyword(s):

Superior Temporal Gyrus ◽

Hemodynamic Response ◽

Brain Regions ◽

Visual Modality ◽

Auditory Modality ◽

Neural Activation ◽

Temporal Lobes ◽

Auditory Oddball ◽

Fmri Study ◽

Occipital Lobes

Abstract Whole brain event-related functional magnetic resonance imaging (fMRI) techniques were employed to elucidate the cerebral sites involved in processing rare target and novel visual stimuli during an oddball discrimination task. The analyses of the hemodynamic response to the visual target stimuli revealed a distributed network of neural sources in anterior and posterior cingulate, inferior and middle frontal gyrus, bilateral parietal lobules, anterior superior temporal gyrus, amygdala, and thalamus. The analyses of the hemodynamic response for the visual novel stimuli revealed an extensive network of neural activations in occipital lobes and posterior temporal lobes, bilateral parietal lobules, and lateral frontal cortex. The hemodynamic response associated with processing target and novel stimuli in the visual modality were also compared with data from an analogous study in the auditory modality ( Kiehl et al., 2001 ). Similar patterns of activation were observed for target and novel stimuli in both modalities, but there were some significant differences. The results support the hypothesis that target detection and novelty processing are associated with neural activation in widespread neural areas, suggesting that the brain seems to adopt a strategy of activating many potentially useful brain regions despite the low probability that these brain regions are necessary for task performance.

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Neural activation in mothers of preterm and full-term infants: Preliminary findings from a 3T fMRI study

PsycEXTRA Dataset ◽

10.1037/e579192013-354 ◽

2012 ◽

Author(s):

R. Montirosso ◽

S. Moriconi ◽

B. Riccardi ◽

G. Reni ◽

F. Arrigoni ◽

...

Keyword(s):

Full Term ◽

Neural Activation ◽

Term Infants ◽

Fmri Study

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Working memory task induced neural activation: a simultaneous PET/fMRI study

NeuroImage ◽

10.1016/j.neuroimage.2021.118131 ◽

2021 ◽

pp. 118131

Author(s):

Isabelle KD Ripp ◽

Lara A Wallenwein ◽

Qiong Wu ◽

Monica Emch ◽

Kathrin Koch ◽

...

Keyword(s):

Working Memory ◽

Memory Task ◽

Neural Activation ◽

Fmri Study

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The Effects of 10 Hz and 20 Hz tACS in Network Integration and Segregation in Chronic Stroke: A Graph Theoretical fMRI Study

Brain Sciences ◽

10.3390/brainsci11030377 ◽

2021 ◽

Vol 11 (3) ◽

pp. 377

Author(s):

Cheng Chen ◽

Kai Yuan ◽

Winnie Chiu-wing Chu ◽

Raymond Kai-yu Tong

Keyword(s):

Chronic Stroke ◽

Global Integration ◽

Neural Responses ◽

Whole Brain ◽

Brain Level ◽

Fmri Study ◽

Transcranial Alternating Current Stimulation ◽

Specific Stimulation ◽

Clinical Potential ◽

Local Segregation

Transcranial alternating current stimulation (tACS) has emerged as a promising technique to non-invasively modulate the endogenous oscillations in the human brain. Despite its clinical potential to be applied in routine rehabilitation therapies, the underlying modulation mechanism has not been thoroughly understood, especially for patients with neurological disorders, including stroke. In this study, we aimed to investigate the frequency-specific stimulation effect of tACS in chronic stroke. Thirteen chronic stroke patients underwent tACS intervention, while resting-state functional magnetic resonance imaging (fMRI) data were collected under various frequencies (sham, 10 Hz and 20 Hz). The graph theoretical analysis indicated that 20 Hz tACS might facilitate local segregation in motor-related regions and global integration at the whole-brain level. However, 10 Hz was only observed to increase the segregation from whole-brain level. Additionally, it is also observed that, for the network in motor-related regions, the nodal clustering characteristic was decreased after 10 Hz tACS, but increased after 20 Hz tACS. Taken together, our results suggested that tACS in various frequencies might induce heterogeneous modulation effects in lesioned brains. Specifically, 20 Hz tACS might induce more modulation effects, especially in motor-related regions, and they have the potential to be applied in rehabilitation therapies to facilitate neuromodulation. Our findings might shed light on the mechanism of neural responses to tACS and facilitate effectively designing stimulation protocols with tACS in stroke in the future.

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Role of left superior temporal gyrus during name recall process: An event-related fMRI study

NeuroImage ◽

10.1016/j.neuroimage.2008.03.008 ◽

2008 ◽

Vol 41 (3) ◽

pp. 1142-1153 ◽

Cited By ~ 8

Author(s):

Sho Yagishita ◽

Takamitsu Watanabe ◽

Tomoki Asari ◽

Hiroshi Ito ◽

Motoichiro Kato ◽

...

Keyword(s):

Superior Temporal Gyrus ◽

Fmri Study

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A Fundamental Distinction in Early Neural Processing of Implicit Social Interpretation in Schizophrenia and Bipolar Disorder

10.1101/2021.03.08.21253057 ◽

2021 ◽

Author(s):

Nuno Gonçalo Gomes Fernandes Madeira ◽

Ricardo Filipe Alves Martins ◽

João Valente Duarte ◽

Gabriel Nascimento Ferreira Costa ◽

António João Ferreira Macedo Santos ◽

...

Keyword(s):

Bipolar Disorder ◽

Social Cognitive ◽

Characteristic Curve ◽

Superior Temporal Gyrus ◽

Neural Responses ◽

Opposite Pattern ◽

Activation Patterns ◽

Temporoparietal Junction ◽

Distinctive Features ◽

The Right

ABSTRACTBackgroundSocial cognition impairment is a key phenomenon in serious mental disorders such as schizophrenia (SCZ) and bipolar disorder (BPD). Although genetic and neurobiological studies have suggested common neural correlates, here we hypothesized that a fundamental dissociation of social processing occurs at an early level in these conditions.MethodsBased on the hypothesis that key structures in the social brain, namely the temporoparietal junction, should present distinctive features in SCZ and BPD during low-level social judgment, we conducted a case-control study in SCZ (n=20) and BPD (n=20) patients and controls (n=20), using task-based fMRI during a Theory-of-Mind (ToM) visual paradigm leading to interpretation of social meaning based on simple geometric figures.ResultsWe found opposite neural responses in two core ToM regions : SCZ patients showed social content-related deactivation (relative to controls and BPD) of the right supramarginal gyrus, a region which activity is required to overcome egocentric “overmentalizing”, while the opposite pattern was found in BPD; reverse patterns, relative to controls and SCZ, were found in the left posterior superior temporal gyrus, a region involved in inferring other’s intentions. Receiver-operating-characteristic curve analysis showed 88% accuracy in discriminating the two clinical groups based on these neural responses.ConclusionsThese contrasting activation patterns of the temporoparietal junction in SCZ and BPD represent mechanistic differences of social cognitive dysfunction that may be explored as biomarkers or therapeutic targets.

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Exploring the transition into fatherhood: behavioral, hormonal, and neural underpinnings of responses to infant crying

10.31234/osf.io/5bxk9 ◽

2020 ◽

Author(s):

Kim Alyousefi-van Dijk ◽

Sandra Thijssen ◽

Anna Elisabeth van 't Veer ◽

Renate S. M. Buisman ◽

Marinus H. van IJzendoorn ◽

...

Keyword(s):

Paternal Care ◽

Longitudinal Design ◽

Perinatal Period ◽

Postnatal Period ◽

Neural Activation ◽

Neural Responses ◽

Parental Sensitivity ◽

Infant Crying ◽

Neural Underpinnings ◽

First Time

In the present hypothesis generating study, behavioral and neural responses to infant crying, as well as paternal hormone levels, were measured in both the prenatal and early postnatal period. Using a longitudinal design, we investigated parental sensitivity, handgrip force, and neural activation in response to infant crying sounds, in addition to testosterone baseline levels, in 25 first-time fathers. We describe the extent to which these aspects of paternal care are related across the perinatal period. The current exploratory study adds to the understudied field of early paternal care by making recommendations, and proposing hypotheses for future studies.

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