Research Keyword: Synaptogenesis

Microdosing Psychedelics to Restore Synaptic Density in Schizophrenia

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Schizophrenia involves excessive loss of connections between brain cells in areas responsible for emotion and thinking, leading to negative symptoms and cognitive problems. Research shows that small doses of psychedelics like psilocybin can promote the growth of new brain connections and reduce inflammation. The authors suggest that microdosing psychedelics alongside standard treatments might help restore these lost connections and improve symptoms that don’t respond well to current medications.

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Psilocybin as Transformative Fast-Acting Antidepressant: Pharmacological Properties and Molecular Mechanisms

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Psilocybin, a compound from certain mushrooms, is being studied as a potential rapid-acting treatment for severe depression that doesn’t respond to standard antidepressants. Unlike conventional antidepressants that take weeks to work, psilocybin shows promise for producing mood improvements within days. The drug works by activating serotonin receptors in the brain and promoting the growth of new neural connections, though researchers are still working to fully understand how it achieves its antidepressant effects.

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Safety, feasibility, and tolerability of psilocybin in older adults with amnestic MCI: Preliminary data from a SV2a PET imaging study

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Researchers investigated whether psilocybin, a compound from certain mushrooms, could be safely used to treat memory problems in older adults with mild cognitive impairment. In this early-stage study, participants received either psilocybin or a placebo while researchers used brain imaging to measure changes in synaptic connections. The preliminary results suggest psilocybin was well-tolerated with manageable side effects like dizziness, and participants were able to complete the study without serious problems.

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Neonatal Tactile Stimulation Downregulates Dendritic Spines in Layer V Pyramidal Neurons of the WAG/Rij Rat Somatosensory Cortex

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Researchers found that gently brushing young rats with epilepsy-prone genetics helps prevent abnormal brain development. Specifically, this tactile stimulation reduces the excessive spiny connections on brain cells in the sensory cortex that are associated with seizures. The study shows that simple, early physical stimulation can have lasting protective effects on brain structure in epilepsy-prone individuals.

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