Beyond production: Brain responses during speech perception in adults who stutter

Halag-Milo, Tali; Stoppelman, Nadav; Kronfeld-Duenias, Vered; Civier, Oren; Amir, Ofer; Ezrati-Vinacour, Ruth; Ben-Shachar, Michal

doi:10.1016/j.nicl.2016.02.017

Cited by 22 publications

(12 citation statements)

References 99 publications

(182 reference statements)

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“…It seems possible that even lower noise levels might be sufficient to induce motor activity in PWS, especially in light of observed differences in auditory processing that may alter auditory-motor interactions (Hampton and Weber-Fox, 2008;Kikuchi et al, 2011;Mock et al, 2015;Kikuchi et al, 2017). Referencing other developmentally disordered populations (e.g., autism and dyslexia), Halag-Milo et al (2016) address this possibility in a cautionary note following a recent fMRI speech perception study in PWS. Clues to how motor systems in PWS might be impacted by white noise come from studies demonstrating enhancement of fluency under masking (Andrews et al, 1983;Martin et al, 1985;Bloodstein and Ratner, 1995).…”

Section: Discussionmentioning

confidence: 99%

“…These include evidence that PWS rely more heavily on the right hemisphere for speech processing (Weber-Fox et al, 2004;Liotti et al, 2010; Robb et al, 2013;Halag-Milo et al, 2016) and exhibit differences in left hemisphere activity patterns for complex speech processing but not for simple tone processing (Biermann-Ruben et al, 2005;Corbera et al, 2005). ERP responses to speech stimuli in adults (Beal et al, 2010) and children (Beal et al, 2011;Jansson-Verkasalo et al, 2014) who stutter also suggest evidence of auditory-motor integration deficits.…”

Section: Introductionmentioning

confidence: 99%

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EEG Mu ( µ ) rhythm spectra and oscillatory activity differentiate stuttering from non-stuttering adults

et al. 2017

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Stuttering is linked to sensorimotor deficits related to internal modeling mechanisms. This study compared spectral power and oscillatory activity of EEG mu (μ) rhythms between persons who stutter (PWS) and controls in listening and auditory discrimination tasks. EEG data were analyzed from passive listening in noise and accurate (same/different) discrimination of tones or syllables in quiet and noisy backgrounds. Independent component analysis identified left and/or right μ rhythms with characteristic alpha (α) and beta (β) peaks localized to premotor/motor regions in 23 of 27 people who stutter (PWS) and 24 of 27 controls. PWS produced μ spectra with reduced β amplitudes across conditions, suggesting reduced forward modeling capacity. Group time-frequency differences were associated with noisy conditions only. PWS showed increased μ-β desynchronization when listening to noise and early in discrimination events, suggesting evidence of heightened motor activity that might be related to forward modeling deficits. PWS also showed reduced μ-α synchronization in discrimination conditions, indicating reduced sensory gating. Together these findings indicate spectral and oscillatory analyses of μ rhythms are sensitive to stuttering. More specifically, these analyses can reveal stuttering-related sensorimotor processing differences in passive listening and auditory discrimination tasks which may be influenced by basal ganglia deficits.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

EEG Mu ( µ ) rhythm spectra and oscillatory activity differentiate stuttering from non-stuttering adults

et al. 2017

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“…Interestingly, this study showed that activity in the 15 ACC was negatively correlated with the severity of stuttering symptoms, possibly reflecting a 16 failure to recruit conflict related regions to resolve stuttering (Liu et al, 2014). 17 Even though almost no studies examined functional brain activation in children who 18 stutter, some hypotheses can be derived from studies that related stuttering in children to showing less inhibitory control in CWS (Eggers et al, 2009(Eggers et al, , 2010(Eggers et al, , 2013 time, they were shown a feedback screen with the marble at the point at which they had 14 stopped it. These trials measured stimulus-driven action and were called Green-Go trials.…”

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confidence: 82%

Children who stutter show reduced action-related activity in the rostral cingulate zone

et al. 2017

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1Previous studies have indicated that children who stutter show not only speech-related 2 problems, but also wider difficulties in self-control. In this study we test the novel hypothesis 3 that children who stutter may experience difficulties with inhibitory control over voluntary 4 actions. We used functional MRI to compare brain activity between children who stutter and 5 children who do not stutter in a task that captures key cognitive aspects of voluntary action 6 control. Participants performed a rolling marble task, in which they were instructed to press a 7 key to stop a rolling marble from crashing on some of the trials (instructed action condition).

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“…Differences in brain activity patterns between AWS and adults who do not stutter can also be observed in speech perception tasks with both auditory and visual linguistic stimuli (Biermann-Ruben, Salmelin, & Schnitzler, 2005;Cuadrado & Weber-Fox, 2003;Halag-Milo et al, 2016;Weber-Fox, 2001, Weber-Fox & Hampton, 2008WeberFox et al, 2004). Using magnetoencephalography, BiermannRuben et al (2005) observed differences in brain activation in the left inferior frontal and right Rolandic regions in AWS compared with fluent adults in a language perception task that required no speech production.…”

Section: Central Neural Aspects Of Stutteringmentioning

confidence: 99%

How Stuttering Develops: The Multifactorial Dynamic Pathways Theory

Smith

Weber

2017

J Speech Lang Hear Res

221

153

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Purpose: We advanced a multifactorial, dynamic account of the complex, nonlinear interactions of motor, linguistic, and emotional factors contributing to the development of stuttering. Our purpose here is to update our account as the multifactorial dynamic pathways theory. Method: We review evidence related to how stuttering develops, including genetic/epigenetic factors; motor, linguistic, and emotional features; and advances in neuroimaging studies. We update evidence for our earlier claim: Although stuttering ultimately reflects impairment in speech sensorimotor processes, its course over the life span is strongly conditioned by linguistic and emotional factors.

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Beyond production: Brain responses during speech perception in adults who stutter

Cited by 22 publications

References 99 publications

EEG Mu ( µ ) rhythm spectra and oscillatory activity differentiate stuttering from non-stuttering adults

EEG Mu ( µ ) rhythm spectra and oscillatory activity differentiate stuttering from non-stuttering adults

Children who stutter show reduced action-related activity in the rostral cingulate zone

How Stuttering Develops: The Multifactorial Dynamic Pathways Theory

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