Lack of neuropsychological effects following short-term subcallosal cingulate gyrus deep brain stimulation in treatment-resistant depression: a randomised crossover study

Lack of neuropsychological effects following short-term subcallosal cingulate gyrus deep brain stimulation in treatment-resistant depression: a randomised crossover study

Background The subcallosal cingulate gyrus (SCG) is integral to cognitive function and mood regulation. Open-label SCG deep brain stimulation (DBS) studies demonstrate improvement or stabilisation of cognitive function in treatment-resistant depression (TRD).Objective This randomised controlled stud...

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Main Authors: Andres M Lozano, Wendy Lou, Peter Giacobbe, Sidney H Kennedy, Michelle Wu, Vanessa K Tassone, Venkat Bhat, Fatemeh Gholamali Nezhad, Yuelee Khoo, Qiaowei Lin, Ilya Demchenko, Reinhard Janssen-Aguilar, Amanda K Ceniti, Sakina J Rizvi, Mary Pat McAndrews
Format: Article
Language:English
Published: BMJ Publishing Group 2025-02-01
Series:BMJ Mental Health
Online Access:https://mentalhealth.bmj.com/content/28/1/e301408.full
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Summary:Background The subcallosal cingulate gyrus (SCG) is integral to cognitive function and mood regulation. Open-label SCG deep brain stimulation (DBS) studies demonstrate improvement or stabilisation of cognitive function in treatment-resistant depression (TRD).Objective This randomised controlled study aims to evaluate the neuropsychological effects of SCG-DBS.Methods 35 participants with TRD received active or sham stimulation over two 3-month periods. A neuropsychological battery was administered to assess processing speed, learning and memory, and cognitive flexibility. Composite measures were derived for each domain after Period I. A mixed model for repeated measures analysis was performed for each test, with further analysis of significant measures to determine sustainability after Period II.Findings No significant differences in changes in depression scores were observed between groups. There were no significant deteriorations in cognitive performance following active SCG-DBS. Category Fluency Test performance improved after 3 months of active SCG-DBS (p=0.002); however, this was non-significant after correcting for multiple comparisons and was not observed after Period II (p=0.615).Conclusion and implications While no cognitive deterioration was observed following SCG-DBS, significant improvements in cognitive function were not evident. There may be a transient enhancement in processing speed; however, this effect is not fully understood. Future studies should include larger cohorts and extended stimulation periods to explore the long-term effects of SCG-DBS in TRD and the sustainability of improvements in cognitive domains.
ISSN:2755-9734

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