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Gary Tarpley

Usona Institute, Fitchburg, Wisconsin.

3 papers in the library · 565 citations · publishing 2020-2023

Papers

Single-Dose Psilocybin Treatment for Major Depressive Disorder

JAMA August 31, 2023 Charles L Raison, Gerard Sanacora, Joshua Woolley et al. 493 citations

A single 25-mg dose of synthetic psilocybin, administered with psychological support, produced a clinically significant and sustained reduction in depressive symptoms and functional disability over 43 days in adults with major depressive disorder. In a phase 2 trial of 104 participants, those receiving psilocybin showed a mean 12.3-point greater improvement on the Montgomery-Asberg Depression Rating Scale at day 43 compared with those receiving a niacin placebo. Psilocybin also improved daily functioning and led to more sustained response, though not remission. No serious adverse events occurred, but psilocybin was associated with more overall and severe adverse events.

Direct Phosphorylation of Psilocin Enables Optimized cGMP Kilogram-Scale Manufacture of Psilocybin

ACS Omega July 1, 2020 Jessica Sable, Tura Patterson, Gary Tarpley et al. 41 citations

A new chemical process produces over one kilogram of high-purity psilocybin, the active compound in psychedelic mushrooms, using a second-generation synthesis designed for large-scale manufacturing. The method improves on earlier procedures by optimizing the Speeter-Anthony tryptamine synthesis to create the intermediate psilocin with better control and impurity removal. It then directly phosphorylates psilocin with phosphorous oxychloride, avoiding a complex benzyl-protecting group strategy used in previous methods. This approach addresses challenges in yield, purity, atom economy, and suitability for pilot plant-scale reactors, providing a more efficient and consistent route for producing psilocybin under current Good Manufacturing Practices.

An Improved, Practical, and Scalable Five-Step Synthesis of Psilocybin

Synthesis January 8, 2020 Robert B. Kargbo, Alexander M. Sherwood, Poncho Meisenheimer et al. 31 citations

An improved chemical synthesis of psilocybin produces multigram quantities in five steps with 23% overall yield from an inexpensive acetoxyindole starting material. The protocol identifies critical in-process parameters and isolates psilocybin without chromatography, thin-layer chromatography, or aqueous workup. The procedure emphasizes process control and impurity fate and removal to deliver high-quality psilocybin.