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Ioanna A Amaya

Neurocomputation and Neuroimaging Unit, Department of Education and Psychology, Freie Universität Berlin, Berlin, Germany.

1 paper in the library · publishing 2025

Papers

Thalamocortical interactions reflecting the intensity of flicker light-induced visual hallucinatory phenomena.

Network neuroscience (Cambridge, Mass.) January 1, 2025 Ioanna A Amaya, Till Nierhaus, Timo T Schmidt

Rhythmic flicker light stimulation at 10 Hz reliably induces transient visual hallucinations in healthy people, while arrhythmic flicker does so less. Using fMRI, rhythmic flicker produced stronger activation in higher order visual cortices and selectively increased connectivity between ventroanterior thalamic nuclei and those cortices, compared to arrhythmic control. The strength of this connectivity correlated positively with the subjective intensity of hallucinations. Because the ventroanterior thalamus and higher order visual areas do not receive primary visual inputs, the findings suggest the thalamus coordinates cortical activity to generate hallucinatory experiences, offering insight into pathological hallucinations.