Noopept is the name of manufacturers for N-Phenylacetyl L Prolylglycine Ethyl Ester. This chemical stimulates the production of NGF (nerve growth factor) and BDNF (brain-derived neurotrophic factor) in the hippocampus.
N-Phenylacetyl L Prolylglycine Ethyl Ester also activates AMPA and NMDA receptors, facilitating transmission between neurons.
Noopept is a potent receptor site modulator that works by increasing spindle-like activity and alpha wave function within your brain. This, in turn, gives your brain a boost and benefits the mood, memory, and attention span of those who take it regularly.
Liposomal Noopept + ALPHA-GPC Stack 90 Premium Capsules
Liposomes are double-layered bubbles that protect and deliver nutrients to cells throughout the body. Liposome-encapsulated supplements offer maximized absorption with every dose by outsmarting your body’s nutrient absorption barriers.
Liposomes are made of essential phospholipids, the same material that makes up your cells. The phosphate head of phospholipids is hydrophilic; it loves water. The fatty-acid tails (lipids) are hydrophobic; they hate water.
When phospholipids are in a water-based solution, the hydrophobic tails distance themselves from the liquid just like oil separates from vinegar. As the tails turn inward and the heads turn toward the liquid, they form a double-layered membrane, which is nearly identical to the double-layer structure of the membranes that surround each of your cells.
Because of their composition, liposomes can pass through the intestinal wall and into the bloodstream for distribution to the cells. From there, they can assimilate into the cells and through the cell membrane to release the nutrients.
Absorption from the digestive system varies by nutrient. Vitamin C, for example, is absorbed almost exclusively in the small intestine and requires sodium-dependent vitamin C co-transporter (SVCTs) proteins. Without these proteins, Vitamin C isn’t absorbed.
Liposomal nutrients achieve maximum absorption in the bloodstream and cells by bypassing absorption barriers without relying on transport systems.