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Kurt Rasmussen

Delix Therapeutics, Inc, Bedford, MA 01730.

3 papers in the library · 62 citations · publishing 2023-2025

Papers

Molecular design of a therapeutic LSD analogue with reduced hallucinogenic potential

Proceedings of the National Academy of Sciences April 14, 2025 Jeremy R Tuck, Lee E Dunlap, Yara A Khatib et al. 32 citations

A newly designed compound, (+)-JRT, structurally similar to LSD but with reduced hallucinogenic effects, promotes the growth of dendritic spines in the cortex—a process that is diminished in neuropsychiatric diseases such as depression, addiction, and schizophrenia. In behavioral tests, (+)-JRT showed antidepressant-like and cognition-enhancing effects without worsening signs related to psychosis. This suggests that nonhallucinogenic compounds that promote neuroplasticity could be safer alternatives to psychedelics for treating conditions where psychedelics pose risks.

Clinical Trial Design Challenges and Opportunities for Emerging Treatments for Opioid Use Disorder: A Review.

JAMA psychiatry January 1, 2023 Brian D Kiluk, Bethea A Kleykamp, Sandra D Comer et al. 22 citations

A review sponsored by a public-private partnership addresses clinical trial design for new opioid use disorder (OUD) treatments that target systems other than the μ-opioid receptor. The authors present consensus recommendations for evaluating novel therapies such as cannabinoids, psychedelics, sedative-hypnotics, and immunotherapeutics. Key design elements include specifying the treatment stage (e.g., early abstinence, long-term recovery), defining the treatment's role (adjunctive or independent), selecting patient-informed primary outcomes that assess opioid use patterns, retention, and quality of life, and monitoring adverse events like relapse or overdose, especially when patients are not on maintenance opioid agonist or antagonist medications. Incorporating input from people with lived experience is urged to accelerate development and uptake of effective therapeutics.

Zalsupindole is a Nondissociative, Nonhallucinogenic Neuroplastogen with Therapeutic Effects Comparable to Ketamine and Psychedelics

ACS Chemical Neuroscience October 13, 2025 Rajiv Agrawal, Daniel J. Gillie, Alison E. Mungenast et al. 8 citations

A new compound called zalsupindole, designed to promote brain cell regrowth without causing hallucinations or dissociation, shows promise for treating depression. In rats, it produced robust structural and functional neuroplasticity in the prefrontal cortex and sustained antidepressant-like effects, comparable to or greater than ketamine, psilocybin, and DMT. Unlike these other compounds, zalsupindole lacked hallucinogenic or dissociative properties, suggesting it could be a safer and more scalable treatment for depression. This work addresses the need for neuroplastogens that promote cortical neuron regrowth without the safety concerns of psychedelics and dissociative anesthetics.