Alpha peak frequency-based Brainmarker-I as a method to stratify to pharmacotherapy and brain stimulation treatments in depression

Helena T. S. Voetterl; Alexander T. Sack; Sebastian Olbrich; Sven Stuiver; Renee Rouwhorst; Amourie Prentice; Diego A. Pizzagalli; Nikita van der Vinne; Jeroen A. van Waarde; Martin Brunovsky; Iris van Oostrom; Ben Reitsma; Johan Fekkes; Hanneke van Dijk; Martijn Arns

doi:10.1038/s44220-023-00160-7

Alpha peak frequency-based Brainmarker-I as a method to stratify to pharmacotherapy and brain stimulation treatments in depression

Helena T. S. Voetterl^*, Alexander T. Sack, Sebastian Olbrich, Sven Stuiver, Renee Rouwhorst, Amourie Prentice, Diego A. Pizzagalli, Nikita van der Vinne, Jeroen A. van Waarde, Martin Brunovsky, Iris van Oostrom, Ben Reitsma, Johan Fekkes, Hanneke van Dijk, Martijn Arns^*

^*Corresponding author for this work

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

Abstract

Biomarkers predicting treatment outcome in major depressive disorder could enhance clinical improvement. Here this observational and prospective accuracy study investigates whether an age- and sex-normalized electroencephalography biomarker, based on the individual alpha frequency (iAF), can successfully stratify patients to different interventions such as repetitive transcranial magnetic stimulation (rTMS) and electroconvulsive therapy (ECT). Differential iAF directions were explored for sertraline, as well as rTMS (N = 196) and ECT (N = 41). A blinded out-of-sample validation (EMBARC; N = 240) replicated the previously found association between low iAF and better sertraline response. The subgroup of patients with an iAF around 10 Hz had a higher remission rate following 10 Hz rTMS compared with the group level, while the high-iAF subgroup had highest remission to 1 Hz rTMS and the low-iAF subgroup to ECT. Blinded out-of-sample validations for 1 Hz (N = 39) and ECT (N = 51) corroborated these findings. The present study suggests a clinically actionable electroencephalography biomarker that can successfully stratify between various antidepressant treatments.

Original language	English
Article number	3151
Pages (from-to)	1023–1032
Number of pages	10
Journal	Nature Mental Health
Volume	1
Issue number	12
DOIs	https://doi.org/10.1038/s44220-023-00160-7
Publication status	Published - Dec 2023

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Voetterl, H. T. S., Sack, A. T., Olbrich, S., Stuiver, S., Rouwhorst, R., Prentice, A., Pizzagalli, D. A., van der Vinne, N., van Waarde, J. A., Brunovsky, M., van Oostrom, I., Reitsma, B., Fekkes, J., van Dijk, H., & Arns, M. (2023). Alpha peak frequency-based Brainmarker-I as a method to stratify to pharmacotherapy and brain stimulation treatments in depression. Nature Mental Health, 1(12), 1023–1032. Article 3151. https://doi.org/10.1038/s44220-023-00160-7

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title = "Alpha peak frequency-based Brainmarker-I as a method to stratify to pharmacotherapy and brain stimulation treatments in depression",

abstract = "Biomarkers predicting treatment outcome in major depressive disorder could enhance clinical improvement. Here this observational and prospective accuracy study investigates whether an age- and sex-normalized electroencephalography biomarker, based on the individual alpha frequency (iAF), can successfully stratify patients to different interventions such as repetitive transcranial magnetic stimulation (rTMS) and electroconvulsive therapy (ECT). Differential iAF directions were explored for sertraline, as well as rTMS (N = 196) and ECT (N = 41). A blinded out-of-sample validation (EMBARC; N = 240) replicated the previously found association between low iAF and better sertraline response. The subgroup of patients with an iAF around 10 Hz had a higher remission rate following 10 Hz rTMS compared with the group level, while the high-iAF subgroup had highest remission to 1 Hz rTMS and the low-iAF subgroup to ECT. Blinded out-of-sample validations for 1 Hz (N = 39) and ECT (N = 51) corroborated these findings. The present study suggests a clinically actionable electroencephalography biomarker that can successfully stratify between various antidepressant treatments.",

author = "Voetterl, {Helena T. S.} and Sack, {Alexander T.} and Sebastian Olbrich and Sven Stuiver and Renee Rouwhorst and Amourie Prentice and Pizzagalli, {Diego A.} and {van der Vinne}, Nikita and {van Waarde}, {Jeroen A.} and Martin Brunovsky and {van Oostrom}, Iris and Ben Reitsma and Johan Fekkes and {van Dijk}, Hanneke and Martijn Arns",

year = "2023",

month = dec,

doi = "10.1038/s44220-023-00160-7",

language = "English",

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Voetterl, HTS, Sack, AT, Olbrich, S, Stuiver, S, Rouwhorst, R, Prentice, A, Pizzagalli, DA, van der Vinne, N, van Waarde, JA, Brunovsky, M, van Oostrom, I, Reitsma, B, Fekkes, J, van Dijk, H & Arns, M 2023, 'Alpha peak frequency-based Brainmarker-I as a method to stratify to pharmacotherapy and brain stimulation treatments in depression', Nature Mental Health, vol. 1, no. 12, 3151, pp. 1023–1032. https://doi.org/10.1038/s44220-023-00160-7

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T1 - Alpha peak frequency-based Brainmarker-I as a method to stratify to pharmacotherapy and brain stimulation treatments in depression

AU - Voetterl, Helena T. S.

AU - Sack, Alexander T.

AU - Olbrich, Sebastian

AU - Stuiver, Sven

AU - Rouwhorst, Renee

AU - Prentice, Amourie

AU - Pizzagalli, Diego A.

AU - van der Vinne, Nikita

AU - van Waarde, Jeroen A.

AU - Brunovsky, Martin

AU - van Oostrom, Iris

AU - Reitsma, Ben

AU - Fekkes, Johan

AU - van Dijk, Hanneke

AU - Arns, Martijn

PY - 2023/12

Y1 - 2023/12

N2 - Biomarkers predicting treatment outcome in major depressive disorder could enhance clinical improvement. Here this observational and prospective accuracy study investigates whether an age- and sex-normalized electroencephalography biomarker, based on the individual alpha frequency (iAF), can successfully stratify patients to different interventions such as repetitive transcranial magnetic stimulation (rTMS) and electroconvulsive therapy (ECT). Differential iAF directions were explored for sertraline, as well as rTMS (N = 196) and ECT (N = 41). A blinded out-of-sample validation (EMBARC; N = 240) replicated the previously found association between low iAF and better sertraline response. The subgroup of patients with an iAF around 10 Hz had a higher remission rate following 10 Hz rTMS compared with the group level, while the high-iAF subgroup had highest remission to 1 Hz rTMS and the low-iAF subgroup to ECT. Blinded out-of-sample validations for 1 Hz (N = 39) and ECT (N = 51) corroborated these findings. The present study suggests a clinically actionable electroencephalography biomarker that can successfully stratify between various antidepressant treatments.

AB - Biomarkers predicting treatment outcome in major depressive disorder could enhance clinical improvement. Here this observational and prospective accuracy study investigates whether an age- and sex-normalized electroencephalography biomarker, based on the individual alpha frequency (iAF), can successfully stratify patients to different interventions such as repetitive transcranial magnetic stimulation (rTMS) and electroconvulsive therapy (ECT). Differential iAF directions were explored for sertraline, as well as rTMS (N = 196) and ECT (N = 41). A blinded out-of-sample validation (EMBARC; N = 240) replicated the previously found association between low iAF and better sertraline response. The subgroup of patients with an iAF around 10 Hz had a higher remission rate following 10 Hz rTMS compared with the group level, while the high-iAF subgroup had highest remission to 1 Hz rTMS and the low-iAF subgroup to ECT. Blinded out-of-sample validations for 1 Hz (N = 39) and ECT (N = 51) corroborated these findings. The present study suggests a clinically actionable electroencephalography biomarker that can successfully stratify between various antidepressant treatments.

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DO - 10.1038/s44220-023-00160-7

M3 - Article

SN - 2731-6076

VL - 1

SP - 1023

EP - 1032

JO - Nature Mental Health

JF - Nature Mental Health

IS - 12

M1 - 3151

ER -

Alpha peak frequency-based Brainmarker-I as a method to stratify to pharmacotherapy and brain stimulation treatments in depression

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