Ketamine increased fronto-striatal functional connectivity in people with treatment-resistant major depression toward levels seen in healthy volunteers, while shifting connectivity in healthy volunteers toward a state similar to depressed participants under placebo. These effects occurred largely without changes in inflammatory markers (C-reactive protein) and were associated with both acute and sustained symptom improvements in the depressed group. Ketamine thus normalized reward-related brain circuitry in depression but disrupted it in healthy individuals, highlighting the potential importance of this circuitry in ketamine's mechanism of action for motivational symptoms.
Stress triggers inflammation in the brain, a pattern also seen in the blood of people with depression. This stress-induced inflammation may contribute to treatment-resistant depression. The rapid-acting antidepressant ketamine works partly by reducing inflammation through effects on the HPA axis, the kynurenine pathway, or by suppressing cytokines. Understanding the link between ketamine, inflammation, and stress could reveal how ketamine works and lead to new rapid-acting antidepressants that target inflammation.