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Predictors of responsiveness to ketamine: An updated systematic review of neuroimaging findings.

Iman Kiani, Giulia Cattarinussi, Fabio Sambataro, Giandomenico Schiena, Giuseppe Delvecchio, L Squarcina

Journal of affective disorders July 15, 2026 Peer reviewed DOI: 10.1016/j.jad.2026.121521 via PubMed

Summary

Neuroimaging studies indicate that specific brain regions, particularly the anterior cingulate cortex (ACC) and amygdala, may serve as biomarkers to predict how well patients with major depressive disorder (MDD) respond to ketamine treatment. Connectivity between the pregenual ACC and the amygdala is often linked to better treatment outcomes. Structural MRI suggests that a larger hippocampus volume correlates positively with ketamine response, while higher Glx/glutamate ratios in certain brain areas are also observed in responders.

Study at a glance

Design systematic review
Sample size 15
Population neuroimaging studies exploring biomarkers predictive of responsiveness to ketamine in MDD and suicidality
Key finding The anterior cingulate cortex and amygdala, along with their connectivity, are identified as potential neuroimaging biomarkers for predicting responsiveness to ketamine in major depressive disorder.

Abstract

Major depressive disorder (MDD) is a leading cause of disability worldwide, with a significant portion of patients experiencing treatment-resistant depression (TRD). Ketamine, a rapid-acting antidepressant, has shown promise in alleviating symptoms of TRD and suicidality, but variability in treatment response remains a challenge. Identifying neuroimaging biomarkers that predict responsiveness to ketamine could enhance treatment precision and efficacy. We conducted a systematic search on PubMed, Embase, Scopus, and Web of Science databases of neuroimaging studies exploring biomarkers predictive of responsiveness to ketamine in MDD and suicidality. Fifteen studies were included in this updated review. The anterior cingulate cortex (ACC) and the amygdala emerged as significant regions of interest. Notably, connectivity of the pregenual ACC and the amygdala with other brain regions was frequently associated with better response to ketamine. Furthermore, diffusion MRI showed higher fractional anisotropy in cingulum of responders to ketamine. Structural MRI studies, on the other hand, found that hippocampus volume had a significant positive correlation with response to ketamine. Moreover, proton magnetic resonance spectroscopy showed that responders had a higher Glx/glutamate ratio in the dorsomedial/dorsal anterolateral. Finally, also task-based imaging showed that ACC activity was predictive of antidepressant response. This review presents some limitations, including heterogeneity in psychological assessments, follow-up duration, ketamine dosage, and imaging protocols across the included studies. The review identifies the ACC, amygdala, and their connectivity with other brain regions as potential neuroimaging biomarkers for predicting responsiveness to ketamine in MDD. Future studies should aim to standardize methodologies and explore the role of different ketamine administration routes.

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