Disrupted Working Memory Circuitry in Adolescent Psychosis

Disrupted Working Memory Circuitry in Adolescent Psychosis

Individuals with schizophrenia (SZ) consistently show deficits in spatial working memory (WM) and associated atypical patterns of neural activity within key WM regions, including the dorsolateral prefrontal cortex (dlPFC) and parietal cortices. However, little research has focused on adolescent psyc...

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Main Authors: Ariel Eckfeld, Katherine H. Karlsgodt, Kristen M. Haut, Peter Bachman, Maria Jalbrzikowski, Jamie Zinberg, Theo G. M. van Erp, Tyrone D. Cannon, Carrie E. Bearden
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-08-01
Series:Frontiers in Human Neuroscience
Subjects:
schizophrenia
connectivity
development
adolescence
working memory capacity
Online Access:http://journal.frontiersin.org/article/10.3389/fnhum.2017.00394/full
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spelling doaj-efcf443023544434b29bf09dd4d5782c2020-11-25T02:14:46ZengFrontiers Media S.A.Frontiers in Human Neuroscience1662-51612017-08-011110.3389/fnhum.2017.00394269736Disrupted Working Memory Circuitry in Adolescent PsychosisAriel Eckfeld0Katherine H. Karlsgodt1Kristen M. Haut2Peter Bachman3Maria Jalbrzikowski4Jamie Zinberg5Theo G. M. van Erp6Tyrone D. Cannon7Carrie E. Bearden8Carrie E. Bearden9Department of Psychology, UCLALos Angeles, CA, United StatesDepartment of Psychology, UCLALos Angeles, CA, United StatesDepartment of Psychiatry, Rush University Medical CenterChicago, IL, United StatesDepartment of Psychiatry, University of PittsburghPittsburgh, PA, United StatesDepartment of Psychiatry, University of PittsburghPittsburgh, PA, United StatesSemel Institute for Neuroscience and Human Behavior, UCLALos Angeles, CA, United StatesDepartment of Psychiatry and Human Behavior, University of California, IrvineIrvine, CA, United StatesDepartments of Psychology and Psychiatry, Yale UniversityNew Haven, CT, United StatesDepartment of Psychology, UCLALos Angeles, CA, United StatesSemel Institute for Neuroscience and Human Behavior, UCLALos Angeles, CA, United StatesIndividuals with schizophrenia (SZ) consistently show deficits in spatial working memory (WM) and associated atypical patterns of neural activity within key WM regions, including the dorsolateral prefrontal cortex (dlPFC) and parietal cortices. However, little research has focused on adolescent psychosis (AP) and potential age-associated disruptions of WM circuitry that may occur in youth with this severe form of illness. Here we utilized each subject’s individual spatial WM capacity to investigate task-based neural dysfunction in 17 patients with AP (16.58 ± 2.60 years old) as compared to 17 typically developing, demographically comparable adolescents (18.07 ± 3.26 years old). AP patients showed lower behavioral performance at higher WM loads and lower overall WM capacity compared to healthy controls. Whole-brain activation analyses revealed greater bilateral precentral and right postcentral activity in controls relative to AP patients, when controlling for individual WM capacity. Seed-based psychophysiological interaction (PPI) analyses revealed significantly greater co-activation between the left dlPFC and left frontal pole in controls relative to AP patients. Significant group-by-age interactions were observed in both whole-brain and PPI analyses, with AP patients showing atypically greater neural activity and stronger coupling between WM task activated brain regions as a function of increasing age. Additionally, AP patients demonstrated positive relationships between right dlPFC neural activity and task performance, but unlike healthy controls, failed to show associations between neural activity and out-of-scanner neurocognitive performance. Collectively, these findings are consistent with atypical WM-related functioning and disrupted developmental processes in youth with AP.http://journal.frontiersin.org/article/10.3389/fnhum.2017.00394/fullschizophreniaconnectivitydevelopmentadolescenceworking memory capacity
collection DOAJ
language English
format Article
sources DOAJ
author Ariel Eckfeld
Katherine H. Karlsgodt
Kristen M. Haut
Peter Bachman
Maria Jalbrzikowski
Jamie Zinberg
Theo G. M. van Erp
Tyrone D. Cannon
Carrie E. Bearden
Carrie E. Bearden
spellingShingle Ariel Eckfeld
Katherine H. Karlsgodt
Kristen M. Haut
Peter Bachman
Maria Jalbrzikowski
Jamie Zinberg
Theo G. M. van Erp
Tyrone D. Cannon
Carrie E. Bearden
Carrie E. Bearden
Disrupted Working Memory Circuitry in Adolescent Psychosis
Frontiers in Human Neuroscience
schizophrenia
connectivity
development
adolescence
working memory capacity
author_facet Ariel Eckfeld
Katherine H. Karlsgodt
Kristen M. Haut
Peter Bachman
Maria Jalbrzikowski
Jamie Zinberg
Theo G. M. van Erp
Tyrone D. Cannon
Carrie E. Bearden
Carrie E. Bearden
author_sort Ariel Eckfeld
title Disrupted Working Memory Circuitry in Adolescent Psychosis
title_short Disrupted Working Memory Circuitry in Adolescent Psychosis
title_full Disrupted Working Memory Circuitry in Adolescent Psychosis
title_fullStr Disrupted Working Memory Circuitry in Adolescent Psychosis
title_full_unstemmed Disrupted Working Memory Circuitry in Adolescent Psychosis
title_sort disrupted working memory circuitry in adolescent psychosis
publisher Frontiers Media S.A.
series Frontiers in Human Neuroscience
issn 1662-5161
publishDate 2017-08-01
description Individuals with schizophrenia (SZ) consistently show deficits in spatial working memory (WM) and associated atypical patterns of neural activity within key WM regions, including the dorsolateral prefrontal cortex (dlPFC) and parietal cortices. However, little research has focused on adolescent psychosis (AP) and potential age-associated disruptions of WM circuitry that may occur in youth with this severe form of illness. Here we utilized each subject’s individual spatial WM capacity to investigate task-based neural dysfunction in 17 patients with AP (16.58 ± 2.60 years old) as compared to 17 typically developing, demographically comparable adolescents (18.07 ± 3.26 years old). AP patients showed lower behavioral performance at higher WM loads and lower overall WM capacity compared to healthy controls. Whole-brain activation analyses revealed greater bilateral precentral and right postcentral activity in controls relative to AP patients, when controlling for individual WM capacity. Seed-based psychophysiological interaction (PPI) analyses revealed significantly greater co-activation between the left dlPFC and left frontal pole in controls relative to AP patients. Significant group-by-age interactions were observed in both whole-brain and PPI analyses, with AP patients showing atypically greater neural activity and stronger coupling between WM task activated brain regions as a function of increasing age. Additionally, AP patients demonstrated positive relationships between right dlPFC neural activity and task performance, but unlike healthy controls, failed to show associations between neural activity and out-of-scanner neurocognitive performance. Collectively, these findings are consistent with atypical WM-related functioning and disrupted developmental processes in youth with AP.
topic schizophrenia
connectivity
development
adolescence
working memory capacity
url http://journal.frontiersin.org/article/10.3389/fnhum.2017.00394/full
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