Accelerated intermittent theta burst stimulation in major depression induces decreases in modularity: A connectome analysis

Accelerated intermittent theta burst stimulation in major depression induces decreases in modularity: A connectome analysis

Accelerated intermittent theta burst stimulation (aiTBS) is a noninvasive neurostimulation technique that shows promise for improving clinical outcome in patients suffering from treatment-resistant depression (TRD). Although it has been suggested that aiTBS may evoke beneficial neuroplasticity effec...

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Bibliographic Details
Published in:Network neuroscience (Cambridge, Mass.) Vol. 3; no. 1; pp. 157 - 172
Main Authors: Caeyenberghs, Karen, Duprat, Romain, Leemans, Alexander, Hosseini, Hadi, Wilson, Peter H., Klooster, Debby, Baeken, Chris
Format: Journal Article
Language:English
Published: One Rogers Street, Cambridge, MA 02142-1209, USA MIT Press 2019
MIT Press Journals, The
The MIT Press
Subjects:
Brain
Brain architecture
Brain stimulation
Clinical trials
Data acquisition
Depression
Diffusion MRI
Graph theory
Mental depression
Modularity
Networks
Neural networks
Neural plasticity
Patients
Prefrontal cortex
Stimulation
Structural connectivity
Substantia alba
Topology
Depression
Diffusion MRI
Brain stimulation
Structural connectivity
graph theory
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Summary:Accelerated intermittent theta burst stimulation (aiTBS) is a noninvasive neurostimulation technique that shows promise for improving clinical outcome in patients suffering from treatment-resistant depression (TRD). Although it has been suggested that aiTBS may evoke beneficial neuroplasticity effects in neuronal circuits, the effects of aiTBS on brain networks have not been investigated until now. Fifty TRD patients were enrolled in a randomized double-blind sham-controlled crossover trial involving aiTBS, applied to the left dorsolateral prefrontal cortex. Diffusion-weighted MRI data were acquired at each of three time points (T at baseline; T after the first week of real/sham aiTBS stimulation; and T after the second week of treatment). Graph analysis was performed on the structural connectivity to examine treatment-related changes in the organization of brain networks. Changes in depression severity were assessed using the Hamilton Depression Rating Scale (HDRS). Baseline data were compared with 60 healthy controls. We observed a significant reduction in depression symptoms over time ( < 0.001). At T , both TRD patients and controls exhibited a small-world topology in their white matter networks. More importantly, the TRD patients demonstrated a significantly shorter normalized path length ( = 0.01), and decreased assortativity ( = 0.035) of the structural networks, compared with the healthy control group. Within the TRD group, graph analysis revealed a less modular network configuration between T and T in the TRD group who received real aiTBS stimulation in the first week ( < 0.013). Finally, there were no significant correlations between changes on HDRS scores and reduced modularity. Application of aiTBS in TRD is characterized by reduced modularity, already evident 4 days after treatment. These findings support the potential clinical application of such noninvasive brain stimulation in TRD. Accelerated noninvasive neurostimulation has shown promise to rapidly improve clinical symptoms in patients suffering from treatment-resistant depression. However, the stimulation effects on brain networks have not been well investigated but may be necessary to improve clinical outcome. To examine treatment-related changes in the organization of brain networks, graph analysis was performed on structural connectivity in 50 treatment-resistant depressed patients which underwent such a stimulation protocol. Compared to nondepressed individuals, depressed patients displayed less structural integration, especially in more distal networks of the brain. More densely interconnected regions, especially when actively stimulated, may be of essence to explain the clinical improvement, already present after 4 days of accelerated neurostimulation.
Bibliography:December, 2018
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Handling Editor: Xi-Nian Zuo
Competing Interests: The authors have declared that no competing interests exist.
ISSN:2472-1751
2472-1751
DOI:10.1162/netn_a_00060