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Will new brain circuit focused methods (EEG, fMRI etc) lead to more personalized care options?

Published online by Cambridge University Press:  11 October 2023

Ian B. Hickie*
Affiliation:
Brain and Mind Centre, The University of Sydney, Sydney, NSW, Australia
Leanne M. Williams
Affiliation:
Department of Psychiatry and Behavioral Sciences, Stanford University, Stanford, CA, USA
*
Corresponding author: Ian B. Hickie; Email: [email protected]
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Extract

The advent of new non-invasive (largely EEG and MRI-based) methods for recording the activity of critical brain circuits (frontotemporal and subcortical) and networks (Default Mode, Salience, Central Executive), cross-sectionally and longitudinally, as well as concurrently (EEG and fMRI), has led to a focus on whether such techniques could be used to guide individual treatment selection. While this work has commenced with specific relevance to depression and other mood disorders (Goldstein-Piekarski et al., 2022; Hack et al., 2023; Scangos et al., 2023), there is still much to be learnt and a great need to replicate findings across different cohorts and different research centres.

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This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press

Context

The advent of new non-invasive (largely EEG and MRI-based) methods for recording the activity of critical brain circuits (frontotemporal and subcortical) and networks (Default Mode, Salience, Central Executive), cross-sectionally and longitudinally, as well as concurrently (EEG and fMRI), has led to a focus on whether such techniques could be used to guide individual treatment selection. While this work has commenced with specific relevance to depression and other mood disorders (Goldstein-Piekarski et al., Reference Goldstein-Piekarski, Ball, Samara, Staveland, Keller, Fleming, Grisanzio, Holt-Gosselin, Stetz, Ma and Williams2022; Hack et al., Reference Hack, Tozzi, Zenteno, Olmsted, Hilton, Jubeir, Korgaonkar, Schatzberg, Yesavage, O’Hara and Williams2023; Scangos et al., Reference Scangos, State, Miller, Baker and Williams2023), there is still much to be learnt and a great need to replicate findings across different cohorts and different research centres.

For various depressive disorder sub-types, and for various more specific phenomena (such as ruminations, obsessive thoughts, concurrent anxiety, catastrophic thinking, motor retardation or agitation), links to specific circuits, or under or overactivity of specific networks, have been proposed (1–3). The concept of identifying such specific changes pre-treatment, selecting more targeted treatments on the basis of these changes and then monitoring changes in those circuits or networks post-treatment (assuming that such changes are correlated with specific symptom improvement) is a very attractive one.

The apparent impact of certain treatments (pharmacological or behavioural) on the activity of specific networks – for example, the effects of psychedelics or meditation on the Default Mode Network (DMN), which otherwise appears overactive in those with ruminative states – has sparked great interest in these approaches. Others have suggested a focus on the Salience Network, given its importance for switching attention from internal (and potentially ruminative processes) to externally focused and action-orientated behavioural and emotional responses. New brain stimulation tools are available both to test the integrity, and manipulate the function, of these putative circuits – in humans as well as more extensively and directly in animal models.

Larger-scale data acquisition processes are now underway, with attempts to define new biotypes of depression and other mood disorders and to relate these to specific patterns of treatment response. While these developments are at any early stage, they do have the potential to move quickly from the research laboratory to the clinic.

To facilitate these developments, replication of findings related to cohort stratification and links to more specific treatment responses are urgently required. There are real challenges in the way that data are acquired, analysed and reported. Development of common methods and sharing of relevant data across differing research centres are likely to be key drivers of progress in this area.

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Competing interests

IBH is the Co-Director of Health and Policy at the Brain and Mind Centre (BMC) University of Sydney, Australia. The BMC operates an early-intervention youth services at Camperdown under contract to Headspace. Professor Hickie has previously led community-based and pharmaceutical industry-supported (Wyeth, Eli Lily, Servier, Pfizer, AstraZeneca, Janssen Cilag) projects focused on the identification and better management of anxiety and depression. He is the Chief Scientific Advisor to, and a 3.2% equity shareholder in, InnoWell Pty Ltd which aims to transform mental health services through the use of innovative technologies.

References

Goldstein-Piekarski, AN, Ball, TM, Samara, Z, Staveland, BR, Keller, AS, Fleming, SL, Grisanzio, KA, Holt-Gosselin, B, Stetz, P, Ma, J and Williams, LM (2022) Mapping neural circuit biotypes to symptoms and behavioral dimensions of depression and anxiety. Biological Psychiatry 91(6), 561571.CrossRefGoogle ScholarPubMed
Hack, LM, Tozzi, L, Zenteno, S, Olmsted, AM, Hilton, R, Jubeir, J, Korgaonkar, MS, Schatzberg, AF, Yesavage, JA, O’Hara, R and Williams, LM (2023) A cognitive biotype of depression and symptoms, behavior measures, neural circuits, and differential treatment outcomes: A prespecified secondary analysis of a randomized clinical trial. JAMA Network Open 6(6), e2318411.CrossRefGoogle ScholarPubMed
Scangos, KW, State, MW, Miller, AH, Baker, JT and Williams, LM (2023) New and emerging approaches to treat psychiatric disorders. Nature Medicine 29(2), 317333.CrossRefGoogle ScholarPubMed