Main Symptomatic Treatment Targets in Suspected and Early Psychosis: New Insights From Network Analysis

Bulnes, Natalia Jimeno; Gómez‐Pilar, Javier; Poza, Jesús; Hornero, Roberto; Vogeley, Kai; Meisenzahl, Eva; Haidl, Theresa; Rosen, Marlene; Klosterkötter, Joachim; Schultze‐Lutter, Frauke

doi:10.1093/schbul/sbz140

Cited by 26 publications

(39 citation statements)

References 73 publications

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“…Alternatively, the increase of CSA might be caused by cortical reorganization: Taking into consideration that UHR-symptoms are thought to develop from basic symptoms 63 or eventually arise in response to them, and the majority of UHR subjects in our sample also presents basic symptoms, the increased CSA might reflect these compensational processes, also discussed as indicator of resilience 60 . Yet, CSA increases did not correlate with symptoms.…”

Section: Discussionmentioning

confidence: 99%

Cortical Volume Differences in Subjects at Risk for Psychosis Are Driven by Surface Area

Buechler

Wotruba

Michels

et al. 2020

Schizophrenia Bulletin

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In subjects at risk for psychosis, the studies on gray matter volume (GMV) predominantly reported volume loss compared with healthy controls (CON). However, other important morphological measurements such as cortical surface area (CSA) and cortical thickness (CT) were not systematically compared. So far, samples mostly comprised subjects at genetic risk or at clinical risk fulfilling an ultra-high risk (UHR) criterion. No studies comparing UHR subjects with at-risk subjects showing only basic symptoms (BS) investigated the differences in CSA or CT. Therefore, we aimed to unravel the contribution of the 2 morphometrical measures constituting the cortical volume (CV) and to test whether these groups inhere different morphometric features. We conducted a surface-based morphometric analysis in 34 CON, 46 BS, and 39 UHR to examine between-group differences in CV, CSA, and CT vertex-wise across the whole cortex. Compared with BS and CON, UHR individuals presented increased CV in frontal and parietal regions, which was driven by larger CSA. These groups did not differ in CT. Yet, at-risk subjects who later developed schizophrenia showed thinning in the occipital cortex. Furthermore, BS presented increased CSA compared with CON. Our results suggest that volumetric differences in UHR subjects are driven by CSA while CV loss in converters seems to be based on cortical thinning. We attribute the larger CSA in UHR to aberrant pruning representing a vulnerability to develop psychotic symptoms reflected in different levels of vulnerability for BS and UHR, and cortical thinning to a presumably stress-related cortical decomposition.

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Section: Discussionmentioning

confidence: 99%

Cortical Volume Differences in Subjects at Risk for Psychosis Are Driven by Surface Area

Buechler

Wotruba

Michels

et al. 2020

Schizophrenia Bulletin

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“…Moreover, social anhedonia played a central role in mediating the relationship between positive and negative schizotypal personality traits ( Christensen et al, 2018 ). In health-seeking individuals, network analysis revealed that prodromal symptoms mediated the relationship between basic symptoms and frank symptoms of psychosis, with disorganized communication again playing a particularly central role ( Jimeno et al, 2020 ). Finally, by using network analysis, studies have shown that clinical manifestations that are not necessarily specific to psychosis, including in particular affective dysregulation, may play a prominent role in influencing the presence of psychotic-like experiences, in adolescence ( Fonseca-Pedrero et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Characterization and prediction of clinical pathways of vulnerability to psychosis through graph signal processing

Sandini

Zöller

Schneider

et al. 2021

eLife

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Causal interactions between specific psychiatric symptoms could contribute to the heterogenous clinical trajectories observed in early psychopathology. Current diagnostic approaches merge clinical manifestations that co-occur across subjects and could significantly hinder our understanding of clinical pathways connecting individual symptoms. Network analysis techniques have emerged as alternative approaches that could help shed light on the complex dynamics of early psychopathology. The present study attempts to address the two main limitations that have in our opinion hindered the application of network approaches in the clinical setting. Firstly, we show that a multi-layer network analysis approach, can move beyond a static view of psychopathology, by providing an intuitive characterization of the role of specific symptoms in contributing to clinical trajectories over time. Secondly, we show that a Graph-Signal-Processing approach, can exploit knowledge of longitudinal interactions between symptoms, to predict clinical trajectories at the level of the individual. We test our approaches in two independent samples of individuals with genetic and clinical vulnerability for developing psychosis. Novel network approaches can allow to embrace the dynamic complexity of early psychopathology and help pave the way towards a more a personalized approach to clinical care.

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“…DCNA is a data mining method based on presenting variables as nodes (translated as gene expression in genetics) and pairwise correlations between them as links in the network. Due to the versatility of this method and its utility for visualizing and recognizing patterns in complex systems, it has been exported to several different areas apart from genetics, such as psychiatry 82 , neuroscience 83 or plant ecology 84 .…”

Section: Methodsmentioning

confidence: 99%

The role of gene to gene interaction in the breast’s genomic signature of pregnancy

Gutiérrez-Diez

Gómez‐Pilar

Hornero

et al. 2021

Sci Rep

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Full-term pregnancy at an early age confers long-term protection against breast cancer. Published data shows a specific transcriptomic profile controlling chromatin remodeling that could play a relevant role in the pregnancy-induced protection. This process of chromatin remodeling, induced by the breast differentiation caused by the first full-term pregnancy, has mainly been measured by the expression level of genes individually considered. However, genes equally expressed during the process of chromatin remodeling may behave differently in their interaction with other genes. These changes at the gene cluster level could constitute an additional dimension of chromatin remodeling and therefore of the pregnancy-induced protection. In this research, we apply Information and Graph Theories, Differential Co-expression Network Analysis, and Multiple Regression Analysis, specially designed to examine structural and informational aspects of data sets, to analyze this question. Our findings demonstrate that, independently of the changes in the gene expression at the individual level, there are significant changes in gene–gene interactions and gene cluster behaviors. These changes indicate that the parous breast, through the process of early full-term pregnancy, generates more modules in the networks, with higher density, and a genomic structure performing additional and more complex functions than those found in the nulliparous breast.

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Main Symptomatic Treatment Targets in Suspected and Early Psychosis: New Insights From Network Analysis

Cited by 26 publications

References 73 publications

Cortical Volume Differences in Subjects at Risk for Psychosis Are Driven by Surface Area

Cortical Volume Differences in Subjects at Risk for Psychosis Are Driven by Surface Area

Characterization and prediction of clinical pathways of vulnerability to psychosis through graph signal processing

The role of gene to gene interaction in the breast’s genomic signature of pregnancy

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