Characterizing Electrocortical Profiles During Two Cognitive Tasks in Transitional Aged Youth With and Without Depression

Staff, Corrine

16 February 2022

Depression in transitional aged youth (TAY; aged ~16-24yr) has become a major issue of concern, with 14-25% of those aged 12-21yr experiencing at least one episode of depression. As such, the burden of disease of depression in this population is substantial. Depression in TAY is characterized as a chronic, relapsing disorder, with 50-70% of remitted patients developing a subsequent depressive episode within five years. Further, in younger adulthood (~21-38yr) individuals who experience depression do not always show complete functional recovery between episodes and report residual cognitive impairments. However, research examining the neural correlates of putative cognitive impairments in depressed individuals has traditionally focused on adult populations, with more limited research in depressed TAY. One means of characterizing neural profiles during cognitive processing is via electroencephalography (EEG), and event-related potentials (ERPs) extracted from EEG. To date, it is unclear if ERP profiles during tasks tapping into certain cognitive processes known to be altered in depressed adults are comparable in depressed TAY. Greater insight into the neural features of cognitive processes in the context of depression can, ultimately, help in refining intervention and perhaps prevention strategies in depressed youth. The primary aim of this work was to assess ERP-indexed neural profiles of attention, including novelty orienting, and inhibition via the auditory oddball and visual flanker tasks in depressed, unmedicated TAY (DEP) vs. non-depressed TAY (HC). Specifically, the N2 and P3 ERPs elicited by incongruent and congruent stimuli in a visual flanker task were assessed, as were the P3a and P3b ERPs extracted from an auditory novelty oddball task. Further, behavioural scores on three tasks, measured by the National Institutes of Health (NIH) Toolbox, that tap into similar cognitive processes as the ERP tasks (i.e., executive function, stimulus evaluation, inhibition, and working memory) were compared between groups using well-validated cognitive tests. Finally, correlations were carried out on the entire sample’s cognition scores and ERP measures, as well as the DEP group’s clinical scores and ERP measures to explore the relation between behavioural and neural features. A significant difference was found between groups for the early P3a (eP3a) latency elicited by unexpected novel sounds in the oddball task; the DEP group had a significantly shorter latency than the HC group. For the flanker task, group differences were found for N2 amplitude to incongruent flanker stimuli, wherein the DEP group showed significantly higher amplitudes than the HC group. No group differences were found between composite scores of three NIH Toolbox tasks assessed. Correlations revealed a positive relation between the Dimensional Change Card Sort test (NIH Card Sort task), generally regarded as a test of executive function, and P3 amplitude to both congruent and incongruent stimuli on the ERP Flanker task. Second, a positive relation existed between the Flanker Inhibitory Control and Attention task (NIH Flanker) and P3 latency on the ERP Flanker task. This study failed to replicate previous reports of reduced ERP amplitudes and increased latencies of the oddball and flanker tasks in a depressed adult populations population. However, they contribute to our limited knowledge on the effects of depression in youth on cognitive processes and associated neuronal profiles. Indeed, the data suggest that non-severely depressed and unmedicated young people exhibited more efficient cortical processing to novelty orienting than matched controls, perhaps reflecting a hyper-vigilant state. Further, depressed TAY appeared to exhibit more pronounced cortical resource allocation to processes implicated in inhibition. Across all participants, we were also able to demonstrate a relation between better executive function and increased cortical resource allocation to attentive processes, and greater behavioural inhibition being associated with longer cortical processes of attention. Collectively, these data inform our understanding of the neural processes in young people with depression; such insight may aid in more refined intervention and prevention strategies in the future.

Depression

Youth

EEG

ERP

P3a

P3b

early P3a

late P3a

N2

Cognition

Emotion lies in the eye of the listener: emotional arousal to novel sounds is reflected in the sympathetic contribution to the pupil dilation response and the P3

Widmann, Andreas, Schröger, Erich, Wetzel, Nicole

16 January 2019

Novel sounds in the auditory oddball paradigm elicit a biphasic dilation of the pupil (PDR) and P3a as well as novelty P3 event-related potentials (ERPs). The biphasic PDR has been hypothesized to reflect the relaxation of the iris sphincter muscle due to parasympathetic inhibition and the constriction of the iris dilator muscle due to sympathetic activation. We measured the PDR and the P3 to neutral and to emotionally arousing negative novels in dark and moderate lighting conditions. By means of principal component analysis (PCA) of the PDR data we extracted two components: the early one was absent in darkness and, thus, presumably reflects parasympathetic inhibition, whereas the late component occurred in darkness and light and presumably reflects sympathetic activation. Importantly, only this sympathetic late component was enhanced for emotionally arousing (as compared to neutral) sounds supporting the hypothesis that emotional arousal specifically activates the sympathetic nervous system. In the ERPs we observed P3a and novelty P3 in response to novel sounds. Both components were enhanced for emotionally arousing (as compared to neutral) novels. Our results demonstrate that sympathetic and parasympathetic contributions to the PDR can be separated and link emotional arousal to sympathetic nervous system activation.

Perception de la voix humaine et hallucinations auditives : étude clinique et neurophysiologique / Human voice perception and auditory hallucinations : clinical and neurophysiological study

Graux, Jérôme

21 December 2012

L’hypothèse de ce travail est que les sujets schizophrènes souffrant d’hallucinations auditives verbales perçoivent leur propre voix comme une voix étrangère. L'objectif de notre travail est donc d'étudier les réponses électrophysiologiques évoquées par la voix des participants et celle d’une personne inconnue. Nos résultats chez les sujets sains montrent que nous allouons moins de ressources attentionnelles automatiques à notre propre voix que par rapport à une voix inconnue. Cet effet d’atténuation de l’orientation automatique de l’attention pour sa propre voix n’est pas observé chez les patients schizophrènes. De plus, conformément à notre hypothèse initiale, cet effet est d’autant plus faible que la sévérité des hallucinations est forte. / The hypothesis of this study was that schizophrenic patients with auditory verbal hallucinations perceive their own voices as alien voices. The aim of the study was to investigate the electrophysiological responses evoked by participants’own voices and those of unknown individuals. Our results in healthy subjects showed that they allocated fever automatic attentional resources to their own voices than to unfamiliar voices. This attenuation effect of the automatic orientation of attention to own voice was not observed in schizophrenic patients. In addition, in agreement with our initial hypothesis, the attenuation decreased even further as the hallucinations became more severe.

Hallucinations auditives verbales

Schizophrénie

Potentiels évoqués auditifs

MMN

P3a

Propre voix

Verbal auditory hallucinations

Schizophrenia

Auditory event-related potentials

MMN

P3a

Own voice

Are Stimuli Representing Increases in Acoustic Intensity Processed Differently? An Event-Related Potential Study

Macdonald, Margaret

08 January 2014

The present thesis employed event-related potentials, the minute responses of the brain, to examine the differences in processing of increases and decreases in auditory intensity. The manner in which intensity was manipulated (i.e., whether it represented physical or psychological change) varied across the studies of the thesis. Study 1 investigated the processing of physical intensity change during wakefulness and natural sleep. An oddball paradigm (80 dB standard, 90 dB increment, 60 dB decrement) was presented to subjects during the waking state and during sleep. The increment elicited a larger deviant-related negativity and P3a than the decrement in the waking state. During sleep, only the increment deviant continued to elicit ERPs related to the detection of change. The waking and sleeping findings support the notion that increases in intensity are more salient to an observer. Studies 2 and 3 of this thesis determined the degree to which this differential salience could be attributed to the fact that intensity increments result in increased activation of the change and transient detection systems while intensity decrements result in greater activation of only the change detection system. In order to address this question, an alternating intensity pattern was employed (HLHLHLHL) with deviants created by the repetition of a tone in the sequence (HLHLHHHL) that violated the expectancy for a higher (psychological decrements) or lower intensity tone (psychological increments). Because deviant stimuli were physically identical to preceding standards, this manipulation should not have led to increased output of the transient detection system (N1 enhancement), permitting isolation of the output of the change detection system (Mismatch Negativity, MMN). The findings of these studies indicated that psychological increments resulted in shorter latency and larger amplitude MMNs than psychological decrements and that these differences could not be explained by the physical differences between deviant stimuli or temporal integration. This thesis provides convincing evidence that stimuli representing increments in intensity result in faster and more robust change detection. Further, the increased salience of increment stimuli cannot be solely explained by the contribution of transient detector activation, as it persists even when deviance-related processing is isolated to the change detection system.

Mismatch Negativity (MMN)

Auditory Change Detection

Intensity Increments

P3a

Event-Related Potentials

Are Stimuli Representing Increases in Acoustic Intensity Processed Differently? An Event-Related Potential Study

Macdonald, Margaret

January 2014

The present thesis employed event-related potentials, the minute responses of the brain, to examine the differences in processing of increases and decreases in auditory intensity. The manner in which intensity was manipulated (i.e., whether it represented physical or psychological change) varied across the studies of the thesis. Study 1 investigated the processing of physical intensity change during wakefulness and natural sleep. An oddball paradigm (80 dB standard, 90 dB increment, 60 dB decrement) was presented to subjects during the waking state and during sleep. The increment elicited a larger deviant-related negativity and P3a than the decrement in the waking state. During sleep, only the increment deviant continued to elicit ERPs related to the detection of change. The waking and sleeping findings support the notion that increases in intensity are more salient to an observer. Studies 2 and 3 of this thesis determined the degree to which this differential salience could be attributed to the fact that intensity increments result in increased activation of the change and transient detection systems while intensity decrements result in greater activation of only the change detection system. In order to address this question, an alternating intensity pattern was employed (HLHLHLHL) with deviants created by the repetition of a tone in the sequence (HLHLHHHL) that violated the expectancy for a higher (psychological decrements) or lower intensity tone (psychological increments). Because deviant stimuli were physically identical to preceding standards, this manipulation should not have led to increased output of the transient detection system (N1 enhancement), permitting isolation of the output of the change detection system (Mismatch Negativity, MMN). The findings of these studies indicated that psychological increments resulted in shorter latency and larger amplitude MMNs than psychological decrements and that these differences could not be explained by the physical differences between deviant stimuli or temporal integration. This thesis provides convincing evidence that stimuli representing increments in intensity result in faster and more robust change detection. Further, the increased salience of increment stimuli cannot be solely explained by the contribution of transient detector activation, as it persists even when deviance-related processing is isolated to the change detection system.

Mismatch Negativity (MMN)

Auditory Change Detection

Intensity Increments

P3a

Event-Related Potentials

Ontogénèse et spécificité de la voix humaine

Beauchemin, Maude

07 1900

La voix est un stimulus auditif omniprésent dans notre environnement sonore. Elle permet non seulement la parole, mais serait aussi l’équivalent d’un visage auditif transmettant notamment des informations identitaires et affectives importantes. Notre capacité à discriminer et reconnaître des voix est socialement et biologiquement importante et elle figure parmi les fonctions les plus importantes du système auditif humain. La présente thèse s’intéressait à l’ontogénèse et à la spécificité de la réponse corticale à la voix humaine et avait pour but trois objectifs : (1) mettre sur pied un protocole électrophysiologique permettant de mesurer objectivement le traitement de la familiarité de la voix chez le sujet adulte; (2) déterminer si ce même protocole pouvait aussi objectiver chez le nouveau-né de 24 heures un traitement préférentiel d’une voix familière, notamment la voix de la mère; et (3) mettre à l’épreuve la robustesse d’une mesure électrophysiologique, notamment la Fronto-Temporal Positivity to Voices, s’intéressant à la discrimination pré-attentionnelle entre des stimuli vocaux et non-vocaux. Les résultats découlant des trois études expérimentales qui composent cette thèse ont permis (1) d’identifier des composantes électrophysiologiques (Mismatch Negativity et P3a) sensibles au traitement de la familiarité d’une voix; (2) de mettre en lumière un patron d’activation corticale singulier à la voix de la mère chez le nouveau-né, fournissant le premier indice neurophysiologique de l’acquisition du langage, processus particulièrement lié à l’interaction mère-enfant; et (3) de confirmer l’aspect pré-attentionnel de la distinction entre une voix et un stimulus non-vocal tout en accentuant la sélectivité et la sensibilité de la réponse corticale réservée au traitement de la voix. / Voice is a very prominent auditory stimulus in our acoustic environment. It is not only the carrier of speech, but would also be an auditory face that conveys important affective and identity information. Our ability to discriminate and recognize voices is socially and biologically important as it is amongst the most important functions of the human auditory system. This thesis was interested in the ontogenesis and specificity of the cortical response to human voice and had three objectives: (1) to develop an electrophysiological protocol to objectively measure the processing of voice familiarity in adult subjects; (2) to assess whether the same electrophysiological protocol could also objectify preferential processing of a familiar voice in 24-hour-old newborns, in particular the mother’s voice; and (3) to test the robustness of an electrophysiological measure, more specifically the Fronto-Temporal Positivity to Voices, interested in pre-attentional discrimination between vocal and non-vocal stimuli. Results from these three experimental designs have enabled (1) to identify electrophysiological components (Mismatch Negativity and P3a) sensitive to the processing of voice familiarity; (2) to highlight a singular pattern of cortical activation to the mother’s voice in newborns, providing the first neurophysiological evidence of language acquisition, a process especially related to the mother-child interaction; and (3) to confirm that vocal/non-vocal discrimination is a pre-attentional process, while enhancing the selectivity and the specificity of voice processing cortical response.

voix

familiarité

discrimination

timbre

électrophysiologie

N1

MMN

FTPV

P3a

analyse de sources

nouveau-nés

voice

familiarity

discrimination

timbre

electrophysiology

N1

MMN

FTPV

P3a

source analysis

newborns

Ontogénèse et spécificité de la voix humaine

Beauchemin, Maude

07 1900

La voix est un stimulus auditif omniprésent dans notre environnement sonore. Elle permet non seulement la parole, mais serait aussi l’équivalent d’un visage auditif transmettant notamment des informations identitaires et affectives importantes. Notre capacité à discriminer et reconnaître des voix est socialement et biologiquement importante et elle figure parmi les fonctions les plus importantes du système auditif humain. La présente thèse s’intéressait à l’ontogénèse et à la spécificité de la réponse corticale à la voix humaine et avait pour but trois objectifs : (1) mettre sur pied un protocole électrophysiologique permettant de mesurer objectivement le traitement de la familiarité de la voix chez le sujet adulte; (2) déterminer si ce même protocole pouvait aussi objectiver chez le nouveau-né de 24 heures un traitement préférentiel d’une voix familière, notamment la voix de la mère; et (3) mettre à l’épreuve la robustesse d’une mesure électrophysiologique, notamment la Fronto-Temporal Positivity to Voices, s’intéressant à la discrimination pré-attentionnelle entre des stimuli vocaux et non-vocaux. Les résultats découlant des trois études expérimentales qui composent cette thèse ont permis (1) d’identifier des composantes électrophysiologiques (Mismatch Negativity et P3a) sensibles au traitement de la familiarité d’une voix; (2) de mettre en lumière un patron d’activation corticale singulier à la voix de la mère chez le nouveau-né, fournissant le premier indice neurophysiologique de l’acquisition du langage, processus particulièrement lié à l’interaction mère-enfant; et (3) de confirmer l’aspect pré-attentionnel de la distinction entre une voix et un stimulus non-vocal tout en accentuant la sélectivité et la sensibilité de la réponse corticale réservée au traitement de la voix. / Voice is a very prominent auditory stimulus in our acoustic environment. It is not only the carrier of speech, but would also be an auditory face that conveys important affective and identity information. Our ability to discriminate and recognize voices is socially and biologically important as it is amongst the most important functions of the human auditory system. This thesis was interested in the ontogenesis and specificity of the cortical response to human voice and had three objectives: (1) to develop an electrophysiological protocol to objectively measure the processing of voice familiarity in adult subjects; (2) to assess whether the same electrophysiological protocol could also objectify preferential processing of a familiar voice in 24-hour-old newborns, in particular the mother’s voice; and (3) to test the robustness of an electrophysiological measure, more specifically the Fronto-Temporal Positivity to Voices, interested in pre-attentional discrimination between vocal and non-vocal stimuli. Results from these three experimental designs have enabled (1) to identify electrophysiological components (Mismatch Negativity and P3a) sensitive to the processing of voice familiarity; (2) to highlight a singular pattern of cortical activation to the mother’s voice in newborns, providing the first neurophysiological evidence of language acquisition, a process especially related to the mother-child interaction; and (3) to confirm that vocal/non-vocal discrimination is a pre-attentional process, while enhancing the selectivity and the specificity of voice processing cortical response.

voix

familiarité

discrimination

timbre

électrophysiologie

N1

MMN

FTPV

P3a

analyse de sources

nouveau-nés

voice

familiarity

discrimination

timbre

electrophysiology

N1

MMN

FTPV

P3a

source analysis

newborns

Auditory Pattern Representations Under Conditions of Uncertainty—An ERP Study

Bader, Maria, Schröger, Erich, Grimm, Sabine

27 March 2023

The auditory system is able to recognize auditory objects and is thought to form predictive models of them even though the acoustic information arriving at our ears is often imperfect, intermixed, or distorted. We investigated implicit regularity extraction for acoustically intact versus disrupted six-tone sound patterns via event-related potentials (ERPs). In an exact-repetition condition, identical patterns were repeated; in two distorted-repetition conditions, one randomly chosen segment in each sound pattern was replaced either by white noise or by a wrong pitch. In a roving-standard paradigm, sound patterns were repeated 1–12 times (standards) in a row before a new pattern (deviant) occurred. The participants were not informed about the roving rule and had to detect rarely occurring loudness changes. Behavioral detectability of pattern changes was assessed in a subsequent behavioral task. Pattern changes (standard vs. deviant) elicited mismatch negativity (MMN) and P3a, and were behaviorally detected above the chance level in all conditions, suggesting that the auditory system extracts regularities despite distortions in the acoustic input. However, MMN and P3a amplitude were decreased by distortions. At the level of MMN, both types of distortions caused similar impairments, suggesting that auditory regularity extraction is largely determined by the stimulus statistics of matching information. At the level of P3a, wrong-pitch distortions caused larger decreases than white-noise distortions. Wrong-pitch distortions likely prevented the engagement of restoration mechanisms and the segregation of disrupted from true pattern segments, causing stronger informational interference with the relevant pattern information

info:eu-repo/classification/ddc/610

ddc:610

L’influence d’un masque rétrograde sur le déploiement et l’engagement de l’attention

Losier, Talia

08 1900

No description available.

Attention

Mémoire de travail

Working memory

Masquage

Masking

Attentional blink

Clignement attentionnel

N2pc

P3a

P3b

N2pb

Électrophysiologie

Electrophysiology

EEG