Andrew Huberman· PhD
BPC-157, Animal Data, Regeneration
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The evidence is convergent. Multiple independent sources reach the same conclusion, the underlying mechanism is well-characterized, and even the field's most cautious voices treat it as worth doing.
BPC-157, Animal Data, Regeneration
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BPC-157, Regeneration & Healing, Neurological Effects
BPC-157, Regeneration & Healing, Neurological Effects
BPC-157, Discovery, Animal Proteins
bpc-157 is also known from animal studies to encourage fiberblast migration and growth within a site of injury fiberblast are a key cell type within an injury and they provide some of the really firm strong substrate for bridging injuries and that allow different things like tendons and ligaments to restore themselves from say torn or partially torn to a complete tendon or ligament
indeed the data are pretty impressive that when bpc157 is applied systemically right so given you know at the level of the gut somehow it's able to travel to the side of injury recognize that something needs to be done there in particular angiogenesis and fiberblast infiltration and it does seem that on average that these tissues repair faster than they do if bpc 157 is not provided