Hippocampal subfield volumes in treatment resistant depression and serial ketamine treatment
A. Zavaliangos-Petropulu, Shawn M. Mcclintock, S. Joshi, B. Taraku, Noor B. Al-Sharif, Randall T. Espinoza, K. Narr
Frontiers in Psychiatry October 9, 2023 DOI: 10.3389/fpsyt.2023.1227879 via Semantic Scholar
Summary
In patients with treatment-resistant depression, smaller hippocampal subfield volumes (left CA4 and GC-ML-DG) were observed before ketamine treatment compared to healthy controls. Four ketamine infusions over two weeks did not change hippocampal subfield volumes, and pre-treatment volumes did not predict improvement in depressive symptoms. However, smaller pre-treatment left CA4 and GC-ML-DG volumes were associated with greater improvement in processing speed after ketamine, and larger right CA3 volume was linked to better working memory at follow-up. Baseline hippocampal subfield volumes may serve as biomarkers for cognitive, but not antidepressant, response to ketamine.
Study at a glance
| Characteristics | Observational cohort Peer reviewed |
|---|---|
| Sample size | 66 |
| Population | Patients with treatment-resistant depression |
| Keywords | Medicine Psychology |
| Citations | 6 |
| Key finding | Pre-treatment hippocampal subfield volumes were associated with neurocognitive improvement but not with changes in depressive symptoms following serial ketamine treatment. |
Abstract
Introduction Subanesthetic ketamine is a rapidly acting antidepressant that has also been found to improve neurocognitive performance in adult patients with treatment resistant depression (TRD). Provisional evidence suggests that ketamine may induce change in hippocampal volume and that larger pre-treatment volumes might be related to positive clinical outcomes. Here, we examine the effects of serial ketamine treatment on hippocampal subfield volumes and relationships between pre-treatment subfield volumes and changes in depressive symptoms and neurocognitive performance. Methods Patients with TRD (N = 66; 31M/35F; age = 39.5 ± 11.1 years) received four ketamine infusions (0.5 mg/kg) over 2 weeks. Structural MRI scans, the National Institutes of Health Toolbox (NIHT) Cognition Battery, and Hamilton Depression Rating Scale (HDRS) were collected at baseline, 24 h after the first and fourth ketamine infusion, and 5 weeks post-treatment. The same data was collected for 32 age and sex matched healthy controls (HC; 17M/15F; age = 35.03 ± 12.2 years) at one timepoint. Subfield (CA1/CA3/CA4/subiculum/molecular layer/GC-ML-DG) volumes corrected for whole hippocampal volume were compared across time, between treatment remitters/non-remitters, and patients and HCs using linear regression models. Relationships between pre-treatment subfield volumes and clinical and cognitive outcomes were also tested. All analyses included Bonferroni correction. Results Patients had smaller pre-treatment left CA4 (p = 0.004) and GC.ML.DG (p = 0.004) volumes compared to HC, but subfield volumes remained stable following ketamine treatment (all p > 0.05). Pre-treatment or change in hippocampal subfield volumes over time showed no variation by remission status nor correlated with depressive symptoms (p > 0.05). Pre-treatment left CA4 was negatively correlated with improved processing speed after single (p = 0.0003) and serial ketamine infusion (p = 0.005). Left GC.ML.DG also negatively correlated with improved processing speed after single infusion (p = 0.001). Right pre-treatment CA3 positively correlated with changes in list sorting working memory at follow-up (p = 0.0007). Discussion These results provide new evidence to suggest that hippocampal subfield volumes at baseline may present a biomarker for neurocognitive improvement following ketamine treatment in TRD. In contrast, pre-treatment subfield volumes and changes in subfield volumes showed negligible relationships with ketamine-related improvements in depressive symptoms.