Network biomarkers in recovered psychosis patients who discontinued antipsychotics

Odkhuu, Soyolsaikhan; Kim, Woo-Sung; Tsogt, Uyanga; Shen, Jie; Cheraghi, Sahar; Li, Ling; Rami, Fatima Zahra; Le, Thi-Hung; Lee, Keon-Hak; Kang, Nam-In; Kim, Sung-Wan; Chung, Young-Chul

doi:10.1038/s41380-023-02279-6

Mol Psychiatry

2023

DOI: 10.1038/s41380-023-02279-6

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Network biomarkers in recovered psychosis patients who discontinued antipsychotics

Soyolsaikhan Odkhuu,

Woo-Sung Kim,

Uyanga Tsogt

et al.

Abstract: There are no studies investigating topological properties of resting-state fMRI (rs-fMRI) in patients who have recovered from psychosis and discontinued medication (hereafter, recovered patients [RP]). This study aimed to explore topological organization of the functional brain connectome in the RP using graph theory approach. We recruited 30 RP and 50 age and sex-matched healthy controls (HC). The RP were further divided into the subjects who were relapsed after discontinuation of antipsychotics (RP-R) and wh… Show more

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2024

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Cited by 3 publications

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Antipsychotic discontinuation in nonaffective first-episode psychosis after clinical remission: Insights from the PEPsNa naturalistic study

Gutierrez,

Garcia de Jalon,

Aranguren

et al. 2024

Psychiatry Research

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Antipsychotic discontinuation in nonaffective first-episode psychosis after clinical remission: Insights from the PEPsNa naturalistic study

Gutierrez,

Garcia de Jalon,

Aranguren

et al. 2024

Psychiatry Research

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Altered resting-state functional connectivity in a thalamo-cortico-cerebellar network in patients with schizophrenia

Forlim,

Klock,

Gallinat

et al. 2024

Sci Rep

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The diagnosis of schizophrenia is associated with a complex psychopathology related to disrupted brain circuitry causing a failure in coordinating information across brain sites with no consensus regarding the mechanisms. Although schizophrenia is well-studied, the great majority of studies investigated pre-selected ROIs or Seed-based connectivity. Whole brain ROI-wise studies that consider all ROIs available simultaneously are lacking. This technique helps understand large- and local-scale dynamics of information exchange across the whole brain. We investigated ROI-wise whole brain networks in 35 participants diagnosed with schizophrenia and 41 control participants. To unveil dysfunctions in brain subnetworks and to characterize network topology, we applied a statistical tool specially developed for network comparison called network-based statistic and graph theory. We observed a hyperconnected thalamo-cortico-cerebellar subnetwork in participants with schizophrenia; nodal analysis revealed higher number of thalamic connections. Our results suggest disruptions at the local level of the subnetwork rather than globally spread across the brain and driven by hyperconnectivity. Importantly, this subnetwork emerged from an exploratory analysis directly comparing ROI-wise whole brain network. This fact makes it an important contribution to the field as additional evidence, demonstrating the high reliability of malfunction in the local thalamo-cortico-cerebellar network.

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Psychotic relapse prediction via biomarker monitoring: a systematic review

Smyrnis,

Theleritis,

Ferentinos

et al. 2024

Front. Psychiatry

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BackgroundAssociating temporal variation of biomarkers with the onset of psychotic relapse could help demystify the pathogenesis of psychosis as a pathological brain state, while allowing for timely intervention, thus ameliorating clinical outcome. In this systematic review, we evaluated the predictive accuracy of a broad spectrum of biomarkers for psychotic relapse. We also underline methodological concerns, focusing on the value of prospective studies for relapse onset estimation.MethodsFollowing the PRISMA (Preferred Reporting Items for Systematic Review and Meta-Analysis) guidelines, a list of search strings related to biomarkers and relapse was assimilated and run against the PubMed and Scopus databases, yielding a total of 808 unique records. After exclusion of studies related to the distinction of patients from controls or treatment effects, the 42 remaining studies were divided into 5 groups, based on the type of biomarker used as a predictor: the genetic biomarker subgroup (n = 4, or 9%), the blood-based biomarker subgroup (n = 15, or 36%), the neuroimaging biomarker subgroup (n = 10, or 24%), the cognitive-behavioral biomarker subgroup (n = 5, or 12%) and the wearables biomarker subgroup (n = 8, or 19%).ResultsIn the first 4 groups, several factors were found to correlate with the state of relapse, such as the genetic risk profile, Interleukin-6, Vitamin D or panels consisting of multiple markers (blood-based), ventricular volume, grey matter volume in the right hippocampus, various functional connectivity metrics (neuroimaging), working memory and executive function (cognition). In the wearables group, machine learning models were trained based on features such as heart rate, acceleration, and geolocation, which were measured continuously. While the achieved predictive accuracy differed compared to chance, its power was moderate (max reported AUC = 0.77).DiscussionThe first 4 groups revealed risk factors, but cross-sectional designs or sparse sampling in prospective studies did not allow for relapse onset estimations. Studies involving wearables provide more concrete predictions of relapse but utilized markers such as geolocation do not advance pathophysiological understanding. A combination of the two approaches is warranted to fully understand and predict relapse.

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Network biomarkers in recovered psychosis patients who discontinued antipsychotics

Cited by 3 publications

References 52 publications

Antipsychotic discontinuation in nonaffective first-episode psychosis after clinical remission: Insights from the PEPsNa naturalistic study

Antipsychotic discontinuation in nonaffective first-episode psychosis after clinical remission: Insights from the PEPsNa naturalistic study

Altered resting-state functional connectivity in a thalamo-cortico-cerebellar network in patients with schizophrenia

Psychotic relapse prediction via biomarker monitoring: a systematic review

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