bioRxiv (Cold Spring Harbor Laboratory)
March 24, 2026
Kenneth Shinozuka, Mattia Rosso, Anna Chaiken et al.
1 citation
A single dose of the atypical psychedelic ibogaine can be highly effective at treating PTSD in veterans up to twelve months later, according to an observational study of 30 veterans. Using a novel EEG analysis method, researchers found that ibogaine shifted high-beta (24 and 25 Hz) brain networks from frontal areas toward posterior regions, an effect seen both three to four days and one month after treatment. This posterior shift correlated with improvements in PTSD symptoms and was replicated in an independent dataset on ibogaine for opioid use disorder. Neural modeling suggested the shift reflects increased corticocortical, not corticothalamic, connectivity. The reconfiguration of high-beta networks may be a robust biomarker for ibogaine's therapeutic effects.
Research Square
February 27, 2026
Randi Brown, Kenneth Shinozuka, Irakli Kaloiani et al.
A survey of 151 US veterans who received funding for psychedelic treatment found that after their most memorable psychedelic experience, the proportion who endorsed an active belief in God or a higher power increased significantly, while the proportion who denied such belief decreased significantly. No significant changes occurred in affiliation with spiritual or religious groups, but qualitative analysis indicated shifts in the nature of participants' relationship with spirituality. The findings suggest that psychedelic experiences can catalyze increased spiritual connection and reorientation, especially among those who previously doubted or did not believe.
iScience
February 21, 2026
Andrew D. Geoly, John P. Coetzee, Derrick Matthew Buchanan et al.
In a small study of 22 military veterans with traumatic brain injury, a single treatment with magnesium-ibogaine was associated with changes in brain structure one month later. Brain scans showed an average reduction in predicted brain age of 1.3 years, increased thickness in 11 cortical regions, and volume expansion in 8 subcortical regions. While the authors note that the imaging technique can also reflect nonstructural changes, the overall pattern of results is consistent with neuroplastic change.