Nootropics Coluracetam Powder Coluracetam/MKC 231 to Improve Memory Learning
Grundinformation
Coluracetam 135463-81-9
Produktname: Coluracetam MKC-231
Chemischer Name: N-(2,3-Dimethyl-5,6,7,8-tetrahydrofuro[2,3-b]quinolin-4-yl)-2-(2-oxopyrrolidin-
1-yl)Acetamid
CAS-Nr.: 135463-81-9
Formel: C19H23N3O3
Reinheit:99%
Molekulargewicht:341.40
Aussehen:white crystal powder
Siedepunkt:634.1C at 760 mmHg C
Product introductions:
Coluracetam is one of the newer racetam nootropics to hit the market. The idea behind this powerful compound is that it acts as a Choline uptake enhancer. In other words, the purpose of this nootropic is to enhance the effects of Choline on the brain and body.
This includes the increased production of Acetylcholine, without which it would be impossible move our muscles or even be able to remember simple facts. Not only does coluracetam increase the production of Acetylcholine, but it also speeds up its flow in brain synapses
Rat studies have shown that Coluracetam is helpful in reducing the effects of learning deficits. Not only did it reduce these effects, but it also did not have any of the normally expected side effects. This product is also considered to have great potential as a casual mood enhancer and a powerful memory booster.
There is even evidence to suggest that the positive effects on the brain are semi-permanent. Users also report a rather wide range of Coluracetam benefits. This includes enhanced concentration and speed of cognition. Coluracetam also helps with both short and medium term memory. There are also a number of reports of being able to study and focus more easily while taking this nootropic.
How to Take Coluracetam
Recommended dosage, active amounts, other details
The animal research on coluracetam uses an oral dose of 300-3,000mcg bodyweight, which is roughly translated into a human dose of 48-480mcg or (for a 150lb person) 3.2-32.7mg overall.
It appears to have very rapid kinetics, with a peak in blood at around 30 minutes and on the decline within 3 Std. Deswegen, supplementation may be time-dependent in relation to activity.
HOW DOES PIRACETAM WORK?
The action mechanisms of piracetam are still vaguely understandable even though various clinical and experimental studies have been conducted. Dennoch, this remarkable smart drug is used for the modulation of membrane fluidity. As a consequence, it demonstrates certain effects on the release of neurotransmitters and receptor binding. It also results in improved cell functioning and better viscosity of cell membranes. In Ergänzung, piracetam “appears to reduce erythrocyte adhesion to vascular endothelium, hinder vasospasm, and facilitate microcirculation” at a vascular level.