The world of revolutionary studies on chemicals and cognitive improvement is yours to explore. This article explores the intriguing topic of Fasoracetam, a member of the well-known Racetam nootropic family. Fasoracetam monohydrate has captured the interest of researchers due to its potential cognitive benefits.

While Fasoracetam is not intended for human use and is only used in research, its effects on animal models demonstrated encouraging results. Rodent studies have shown that Fasoracetam may be useful in managing depression, anxiety, cognitive enhancement, withdrawal symptoms, and sleep improvement. It should be noted that these findings are currently limited to animal studies.[R][R

Furthermore, recent trials have drawn attention to the compound’s partial suppression of Metabotropic Glutamate Receptors or mGluR neurotransmitter signaling, increasing interest in its potential to aid ADHD. Fasoracetam was originally created to treat vascular dementia, but its journey has led researchers to investigate its potential therapeutic applications in the field of cognitive function. [R]

As we begin to investigate the properties of Fasoracetam, it is critical to remember that the substance is completely for research reasons. Let us go deeper into the world of this fascinating research substance, displayed light on its potential and exciting possibilities.

Key Features

RCD.Bio offers Fasoracetam with the following specifications:

  • A purity of 98%, verified by first and third-party laboratory testing.
  • Available in tablet form: 30mg/27ct/810mg and 30mg/54ct/1.6g


  • CAS Number: 110958-19-5
  • Molar Mass: 196.250 g·mol−1
  • Molecular Formula: C10H16N2O2
  • IUPAC Name: (5R)-5-(Piperidine-1-carbonyl)pyrrolidin-2-one
  • Synonyms: (5R)-5-Oxo-D-prolinepiperidinamide monohydrate, NS-105,  AEVI-001, LAM 105, MDGN-001, NFC 1

How Fasoracetam Works?[R]

Let’s examine the complicated workings of the brain to better comprehend how Fasoracetam functions. A neurotransmitter known as acetylcholine is at the core of cognitive function, memory, and learning. The brain’s ability to remember information and learn new things is greatly affected by this essential chemical messenger. In a special way, Fasoracetam affects how acetylcholine is made and used in the hippocampus and cerebral cortex.

By increasing acetylcholine synthesis in the cerebral cortex, the cognitive enhancer fasoracetam improves cognition. The role of acetylcholine in memory and cognitive functions is well understood. Fasoracetam may improve the brain’s ability to retain and process information by increasing the levels of this neurotransmitter. This increase in acetylcholine production may result in improved comprehension, memory, and general cognitive function.

Additionally, Fasoracetam affects the uptake of choline in both the cortex and hippocampus. Choline is an essential nutrient required for the synthesis of acetylcholine. Fasoracetam is believed to enhance the uptake of choline, ensuring an ample supply for the production of acetylcholine. By optimizing the availability of this vital nutrient, Fasoracetam may further support the brain’s acetylcholine production and cognitive processes. The combined effects of increased acetylcholine production and enhanced choline uptake contribute to Fasoracetam’s potential cognitive benefits. 

Fasoracetam should be understood to be a research substance and not for human use. This information is just being made accessible for educational purposes and to help understand the workings of this intriguing drug.

The scientific basis behind the benefits of Fasoracetam

Only a few clinical research support the following claimed benefits. There has to be more proof before Fasoracetam can be used for any of the following uses.

May Prevent Memory Loss / Memory Enhancement

Memory is an important element of cognitive abilities, and the possible use of fasoracetam to prevent memory loss and improve memory function is a promising field of research. In an animal study, Fasoracetam was shown to protect rats from memory problems caused by baclofen, a GABA receptor activator.

Fasoracetam’s memory-protective effects are due to its effect on cholinergic and gabaergic systems. Acetylcholine is a neurotransmitter that plays a substantial part in memory formation, learning, and cognition. Fasoracetam may possibly lead to high-affinity choline uptake to increase acetylcholine levels, which might enhance memory and cognitive ability. Furthermore, Fasoracetam may help to protect memory by mitigating the consequences of GABA-B activation. [R]

These findings are consistent with prior studies on racetam nootropics, which have also been linked to increased acetylcholine levels. Fasoracetam has the potential to increase memory, learning capacities, and overall cognition by increasing acetylcholine availability. This highlights the importance of acetylcholine as a crucial actor in memory processes, as well as the possibility of using Fasoracetam for memory augmentation.[R]

It should be noted that these experiments were conducted on animals, and Fasoracetam is a research substance intended solely for scientific research. The data given here aims to shed light on existing research and its effects.

Depression and Anxiety

The complex interaction of neurotransmitters in the brain is critical in controlling a variety of physiological reactions. GABA (gamma-aminobutyric acid) is a neurotransmitter that works as a modulator, relaxing the central nervous system by preventing the transmission of certain signals.[R]

Both anxiety and depression have been associated with abnormal GABA levels in the brain. In an animal experiment, Fasoracetam showcased the potential to reduce the symptoms of sadness. Rats that had been trained to feel helpless in order to avoid unpleasant situations experienced a lessening of depressive symptoms when administered with Fasoracetam. [R][R]

Under stressful conditions, Fasoracetam appeared to help relieve learned helplessness and other anxiety and depression-related behaviors. This suggests that Fasoracetam may have anxiolytic and antidepressant characteristics, which may give relief from certain psychiatric illnesses. It is important to remember that the experiments stated above were done on animals, and Fasoracetam is only for research purposes.


Promising possibilities for Fasoracetam as an aid for ADHD (Attention Deficit Hyperactivity Disorder) have emerged, as indicated in one of the few publicly available trials. This study looked especially at the efficacy of Fasoracetam as a viable therapy option for test subjects with a specific mutation in the glutamatergic gene network. The study included 30 test subjects

During the five-week trial period, test subjects who received Fasoracetam showed significant improvements in all clinically important parameters. These results showed a favorable response to Fasoracetam as a potential ADHD treatment. Notably, the reduction in ADHD symptoms continued even during the post-trial evaluation, indicating a long-term benefit. Importantly, none of the trial subjects demonstrated tolerance or dependence on Fasoracetam. [R]

While these findings are encouraging, more research is needed to completely understand the efficacy and long-term implications of Fasoracetam as an aid for ADHD. Fasoracetam should be regarded as a research compound, and any use should be conducted in line with appropriate scientific and ethical guidelines. The potential of Fasoracetam in ADHD opens up new avenues for investigation and emphasizes the importance of the glutamatergic gene network in this neurodevelopmental disorder. Continued research in this area could lead to the path to better interventions for ADHD.

Fasoracetam and Phenibut

Fasoracetam, by up-regulating GABAB receptors, could enhance the response to phenibut while decreasing tolerance, leading to improved anxiety relief and cognitive benefits.

Fasoracetam, a compound known for its role in up-regulating GABAB receptors and stimulating acetylcholine release, holds the potential to enhance the effects of phenibut while decreasing tolerance development. This synergy could lead to improved anxiolytic and cognitive benefits for users. By increasing the number of GABAB receptors in the brain, fasoracetam may amplify phenibut’s therapeutic properties.


Phase 2 clinical trials for this substance are now underway. This also implies that the FDA has not yet permitted it to be used for a particular medical purpose. [R]

The information presented here is for educational purposes only and should not be construed as medical advice. Fasoracetam is intended for laboratory and research use only and is not intended for human consumption.

Potential side effects

There is not enough data to determine how safe it is for human users or how often it might cause adverse effects.

However, some research has discovered that this nootropic substance has certain unfavorable side effects, such as headache and weariness. [R]

Where Can I Buy Fasoracetam online?

RCD.bio offers Fasoracetam for laboratory research use only.

When buying Fasoracetam, it is important to choose a reputable seller who provides quality products. At RCD.bio, each product is accompanied by a third-party-issued Certificate of Analysis showing the identification, purity, and concentration of our product. Some also offer Fasoracetam capsules.


Fasoracetam is a nootropic compound that belongs to the racetam family. Fasoracetam is believed to work by increasing the production and uptake of acetylcholine, a neurotransmitter important for memory and cognition. It may also modulate GABA B receptors, which may affect anxiety and depression symptoms. Fasoracetam has shown promise as a potential aid for ADHD, but more research is necessary. Precautions should be taken as clinical trials are ongoing, and potential side effects, such as headaches and fatigue, have been reported.

While it has shown potential benefits in animal studies, further research is needed to confirm its effects in humans. 


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