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Rapid neuroplasticity changes and response to intravenous ketamine: a randomized controlled trial in treatment-resistant depression

Jared M. Kopelman, Timothy A. Keller, Benjamin Panny, Angela Griffo, Michelle Degutis, Crystal Spotts, Nicolas Cruz, Elizabeth Bell, Kevin Do-Nguyen, Meredith L. Wallace, Sanjay J. Mathew, Robert H. Howland, Rebecca B. Price

2023Translational Psychiatry56 citationsDOIOpen Access PDF

Abstract

Intravenous ketamine is posited to rapidly reverse depression by rapidly enhancing neuroplasticity. In human patients, we quantified gray matter microstructural changes on a rapid (24-h) timescale within key regions where neuroplasticity enhancements post-ketamine have been implicated in animal models. In this study, 98 unipolar depressed adults who failed at least one antidepressant medication were randomized 2:1 to a single infusion of intravenous ketamine (0.5 mg/kg) or vehicle (saline) and completed diffusion tensor imaging (DTI) assessments at pre-infusion baseline and 24-h post-infusion. DTI mean diffusivity (DTI-MD), a putative marker of microstructural neuroplasticity in gray matter, was calculated for 7 regions of interest (left and right BA10, amygdala, and hippocampus; and ventral Anterior Cingulate Cortex) and compared to clinical response measured with the Montgomery-Asberg Depression Rating Scale (MADRS) and the Quick Inventory of Depressive Symptoms-Self-Report (QIDS-SR). Individual differences in DTI-MD change (greater decrease from baseline to 24-h post-infusion, indicative of more neuroplasticity enhancement) were associated with larger improvements in depression scores across several regions. In the left BA10 and left amygdala, these relationships were driven primarily by the ketamine group (group * DTI-MD interaction effects: p = 0.016-0.082). In the right BA10, these associations generalized to both infusion arms (p = 0.007). In the left and right hippocampus, on the MADRS only, interaction effects were observed in the opposite direction, such that DTI-MD change was inversely associated with depression change in the ketamine arm specifically (group * DTI-MD interaction effects: p = 0.032-0.06). The acute effects of ketamine on depression may be mediated, in part, by acute changes in neuroplasticity quantifiable with DTI.

Topics & Concepts

NeuroplasticityKetamineMajor depressive disorderMedicinePsychologyAntidepressantAmygdalaDiffusion MRIHippocampusRandomized controlled trialDepression (economics)Internal medicineAnesthesiaNeuroscienceMagnetic resonance imagingRadiologyEconomicsMacroeconomicsFunctional Brain Connectivity StudiesTreatment of Major DepressionAdvanced MRI Techniques and Applications
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