Modeling Heterogeneous Brain Dynamics of Depression and Melancholia Using Energy Landscape Analysis

Paul Rossener Regonia; Masahiro Takamura; Takashi Nakano; Naho Ichikawa; Alan Fermin; Go Okada; Yasumasa Okamoto; Shigeto Yamawaki; Kazushi Ikeda; Junichiro Yoshimoto

doi:10.3389/fpsyt.2021.780997

Modeling Heterogeneous Brain Dynamics of Depression and Melancholia Using Energy Landscape Analysis

Paul Rossener Regonia, Masahiro Takamura, Takashi Nakano, Naho Ichikawa, Alan Fermin, Go Okada, Yasumasa Okamoto, Shigeto Yamawaki, Kazushi Ikeda, Junichiro Yoshimoto

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

Our current understanding of melancholic depression is shaped by its position in the depression spectrum. The lack of consensus on how it should be treated—whether as a subtype of depression, or as a distinct disorder altogethe—interferes with the recovery of suffering patients. In this study, we analyzed brain state energy landscape models of melancholic depression, in contrast to healthy and non-melancholic energy landscapes. Our analyses showed significant group differences on basin energy, basin frequency, and transition dynamics in several functional brain networks such as basal ganglia, dorsal default mode, and left executive control networks. Furthermore, we found evidences suggesting the connection between energy landscape characteristics (basin characteristics) and depressive symptom scores (BDI-II and SHAPS). These results indicate that melancholic depression is distinguishable from its non-melancholic counterpart, not only in terms of depression severity, but also in brain dynamics.

Original language	English
Article number	780997
Journal	Frontiers in Psychiatry
Volume	12
DOIs	https://doi.org/10.3389/fpsyt.2021.780997
Publication status	Published - 25-11-2021
Externally published	Yes

All Science Journal Classification (ASJC) codes

Psychiatry and Mental health

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3389/fpsyt.2021.780997

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title = "Modeling Heterogeneous Brain Dynamics of Depression and Melancholia Using Energy Landscape Analysis",

abstract = "Our current understanding of melancholic depression is shaped by its position in the depression spectrum. The lack of consensus on how it should be treated—whether as a subtype of depression, or as a distinct disorder altogethe—interferes with the recovery of suffering patients. In this study, we analyzed brain state energy landscape models of melancholic depression, in contrast to healthy and non-melancholic energy landscapes. Our analyses showed significant group differences on basin energy, basin frequency, and transition dynamics in several functional brain networks such as basal ganglia, dorsal default mode, and left executive control networks. Furthermore, we found evidences suggesting the connection between energy landscape characteristics (basin characteristics) and depressive symptom scores (BDI-II and SHAPS). These results indicate that melancholic depression is distinguishable from its non-melancholic counterpart, not only in terms of depression severity, but also in brain dynamics.",

keywords = "depression, energy landscape analysis, functional brain network, melancholia, resting state fMRI",

author = "Regonia, {Paul Rossener} and Masahiro Takamura and Takashi Nakano and Naho Ichikawa and Alan Fermin and Go Okada and Yasumasa Okamoto and Shigeto Yamawaki and Kazushi Ikeda and Junichiro Yoshimoto",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 Regonia, Takamura, Nakano, Ichikawa, Fermin, Okada, Okamoto, Yamawaki, Ikeda and Yoshimoto.",

year = "2021",

month = nov,

day = "25",

doi = "10.3389/fpsyt.2021.780997",

language = "English",

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AU - Regonia, Paul Rossener

AU - Takamura, Masahiro

AU - Nakano, Takashi

AU - Ichikawa, Naho

AU - Fermin, Alan

AU - Okada, Go

AU - Okamoto, Yasumasa

AU - Yamawaki, Shigeto

AU - Ikeda, Kazushi

AU - Yoshimoto, Junichiro

PY - 2021/11/25

Y1 - 2021/11/25

N2 - Our current understanding of melancholic depression is shaped by its position in the depression spectrum. The lack of consensus on how it should be treated—whether as a subtype of depression, or as a distinct disorder altogethe—interferes with the recovery of suffering patients. In this study, we analyzed brain state energy landscape models of melancholic depression, in contrast to healthy and non-melancholic energy landscapes. Our analyses showed significant group differences on basin energy, basin frequency, and transition dynamics in several functional brain networks such as basal ganglia, dorsal default mode, and left executive control networks. Furthermore, we found evidences suggesting the connection between energy landscape characteristics (basin characteristics) and depressive symptom scores (BDI-II and SHAPS). These results indicate that melancholic depression is distinguishable from its non-melancholic counterpart, not only in terms of depression severity, but also in brain dynamics.

AB - Our current understanding of melancholic depression is shaped by its position in the depression spectrum. The lack of consensus on how it should be treated—whether as a subtype of depression, or as a distinct disorder altogethe—interferes with the recovery of suffering patients. In this study, we analyzed brain state energy landscape models of melancholic depression, in contrast to healthy and non-melancholic energy landscapes. Our analyses showed significant group differences on basin energy, basin frequency, and transition dynamics in several functional brain networks such as basal ganglia, dorsal default mode, and left executive control networks. Furthermore, we found evidences suggesting the connection between energy landscape characteristics (basin characteristics) and depressive symptom scores (BDI-II and SHAPS). These results indicate that melancholic depression is distinguishable from its non-melancholic counterpart, not only in terms of depression severity, but also in brain dynamics.

KW - depression

KW - energy landscape analysis

KW - functional brain network

KW - melancholia

KW - resting state fMRI

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JO - Frontiers in Psychiatry

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Modeling Heterogeneous Brain Dynamics of Depression and Melancholia Using Energy Landscape Analysis

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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