Evidence-based insights into peptide protocols, safety research, and optimization strategies. Built on clinical rigor, powered by community knowledge.
Get weekly insights on peptide protocols, safety updates, and optimization strategies delivered to your inbox.
No spam. Unsubscribe anytime. Clinical rigor, always.
Deep dives into peptide science — evidence-graded, honestly reported
Two sister peptides from the same Cold War lab, one calms the emotional floor, the other raises the cognitive ceiling. The mechanistic case for stacking them is architecturally compelling. The clinical evidence for the combination doesn't exist yet.
Selank and Semax are sister heptapeptides engineered with the same glyproline stability tail but from opposite parent molecules, tuftsin (immune) and ACTH (stress). They converge on BDNF through completely different upstream pathways, covering complementary neurochemical territory. This article examines the mechanistic case for combining them, the cofactors that determine whether either signal lands, and where the evidence stops short.
Comprehensive outcome research with safety data and practical protocol references
Detailed compound profiles with mechanisms, safety data, and dosing protocols
An evidence-based map of synthetic glyprolines — Selank, Semax, NPY and Pinealon — peptides engineered to modulate the HPA axis and amygdala reactivity without the sedation, dependence or cognitive blunting of benzodiazepines.
A rigorous look at the neuropeptide approach to modern stress: the Pro-Gly-Pro stability trick, the GABAergic-but-not-sedative mechanism of Selank, Semax's ACTH-derived neuroprotection, the Russian clinical evidence base, and the FDA Category 2 constraint that defines legal reality in the US.
A tuftsin-derived heptapeptide that delivers benzodiazepine-level anxiety relief without sedation, dependence, or cognitive fog — while simultaneously boosting immune defence.
Selank is a synthetic heptapeptide (Thr-Lys-Pro-Arg-Pro-Gly-Pro) engineered from the immune peptide tuftsin. It allosterically modulates GABA-A receptors, stabilises endogenous enkephalins, and upregulates BDNF — delivering anxiolysis, cognitive enhancement, and immunomodulation in a single molecule.
35+
Articles
18
Categories