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Laura M. Hack

2 papers in the library · 30 citations · publishing 2021-2023

Papers

Randomized Trial of Ketamine Masked by Surgical Anesthesia in Depressed Patients

medRxiv Preprint Server April 28, 2023 Theresa R. Lii, Ashleigh E. Smith, Josephine R. Flohr et al. 28 citations preprint

A single dose of intravenous ketamine (0.5 mg/kg) delivered during surgical anesthesia did not reduce depressive symptoms more than placebo in adults with major depressive disorder. In a triple-masked, randomized trial of 40 patients, depression severity scores on the Montgomery-Åsberg Depression Rating Scale (MADRS) did not differ between the ketamine and placebo groups at 1, 2, or 3 days after infusion. Clinical response rates were similar (60% versus 50% on day 1). Only 36.8% of participants correctly guessed their treatment assignment, indicating successful masking. One serious adverse event occurred in each group, unrelated to ketamine. The findings suggest that ketamine's acute psychoactive effects may contribute to previously reported antidepressant results through subject-expectancy bias.

Acute Ketamine Modulated Functional Brain Coupling and Dissociative and Affective States in Human Subjects: Interim Analyses

bioRxiv Preprint Server September 20, 2021 Laura M. Hack, Katherine G. Warthen, Xue Zhang et al. 2 citations preprint

Ketamine, a drug used for depression and anesthesia, causes dose-dependent increases in dissociation and intoxication, reduces emotional insensitivity, and raises stress as measured by cortisol. It alters brain connectivity, particularly between reward and negative affect circuits and thalamic sub-regions. Increased coupling between the amygdala and anteroventral thalamus correlates with greater dissociation and intoxication, while decreased coupling of anteromedial and posterior parietal thalamus correlates with increased sensory reward responsiveness. Drug-altered connectivity involving the nucleus accumbens and thalamic sub-regions shows negative associations with anxiety. These findings help disentangle the brain states underlying ketamine's acute effects, informing its therapeutic use and abuse risk.