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Noopept is the brand name for N-phenylacetyl-L-prolylglycine ethyl ester, a Nootropic molecule similar to Piracetam. Noopept may alleviate cognitive decline.


This page features 45 unique references to scientific papers.



All Essential Benefits/Effects/Facts & Information

Noopept is the brand name for N-phenylacetyl-L-prolylglycine ethyl ester , a synthetic nootropic molecule.

Noopept has a similar effect to piracetam, in that it provides a mild cognitive boost after supplementation. Noopept also provides a subtle psychostimulatory effect.

Noopept has a much lower standard dose than piracetam (10-30mg, compared to 4800mg), and it provides a general neuroprotective effect after supplementation. This neuroprotective effect occurs during various states of cognitive trauma, including oxidative stress and physical trauma. There is, however, no evidence to suggest Noopept provides benefits for people with no cognitive ailments.

More studies are needed to determine the main mechanisms responsible for Noopept’s neuroprotective effect.

The only human study comparing Noopept and piracetam suggests the two have a comparable effect, once the smaller effective dose is taken into account.


Things to Know

Also Known As

N-phenylacetyl-L-prolylglycine ethyl ester, Noopeptide, Ноопепт, GVS-111

Do Not Confuse With

Piracetam (Basic racetam, but different molecule)

Things to Note

  • Noopept is not technically a racetam molecule (due to not having a 2-oxo-pyrollidine skeleton), but is generally grouped together in the same category


How to Take

Recommended dosage, active amounts, other details

To supplement Noopept, take 10 – 30 mg, once a day, for up to 56 days at a time. More research is needed to determine the optimal human dose for Noopept.


Editors’ Thoughts on Noopept

In essence, it appears to be a buffed up version of Piracetam. Piracetam itself had pretty weak evidence for cognitive enhancement in healthy persons (where it occurred, but fairly unreliably so and not to a large degree) and although Noopept has potential to succeed where Piracetam failed this needs to be investigated further.
Kurtis Frank



Sources and Structure

1.1. Sources

The molecule N-phenylacetyl-L-prolylglycine ethyl ester is commonly referred to as ‘Noopept’, and is a synthetic molecule commonly said to be in the racetam class (although this is technically not true, due to Noopept not having a 2-oxo-pyrollidine nucleus); in Russia (home of the patent holder) it is also referred to as Ноопепт or GVS-111. It was synthesized in 1996[1] and was based off of the endogenous neuropeptide cycloprolylglycine[1][2] and is said to be anxiolytic and mildly psychostimulatory while promoting cognitive health and memory.[3]

It is commonly said to be 1000-fold as potent as piracetam (derived from the abstract of a German review[4]) although elsewhere it has been claimed to be more variable, at somewhere between 200 and 50,000 when comparing the two molecules on a dose-per-dose basis.[5] On a structural basis, Noopept is a dipeptide conjugate of Piracetam.

Noopept is a water-soluble proline containing dipeptide structure, and while it per se is not detectable in serum even after high injected concentrations[6] it increases concentrations of Cycloprolylglycine and, as such, is a Cycloprolylglycine pro-drug.

Noopept is a synthetic racetam structure that is a Cycloprolylglycine pro-drug, with bioactivities of Noopept being related to increased Cycloprolylglycine concentrations



2.1. Absorption and Serum

Despite most animal evidence using injections as a method of administration, Noopept appears to have bioactivity following oral ingestion in humans.[3] It can cross the gastrointestinal tract in rats following an oral dose of 50mg/kg, where it possesses a Tmax of 0.116 hours (7 minutes) and reaches a Cmax of 0.82mcg/mL in serum; the authors noted that the serum concentrations and excretion kinetics of 50mg/kg oral Noopept rivalled that of 5mg/kg injections.[7]

When looking at brain concentrations, the Cmax of 50mg/kg in rats after oral ingestion (human equivalent of 8mg/kg) reaches 1.289mcg/mL at a Tmax of 0.115 hours (7 minutes); due to the lack of difference between serum and neural concentrations it is said Noopept can easily cross the blood brain barrier.[7]

The half-life of Noopept is around 16 minutes in rats[7] although this study is limted as it did not assess serum levels of the currently thought bioactive cycloprolylglycine;[7] the metabolites are thought to be vital as Noopept is not being detectable in serum 25 minutes following oral ingestion, effects have been noted on brain wave function for over 70 minutes (following injections, which have similar excretion kinetics).[8]Furthermore, there appear to be interspecies differences with rats having more rapid metabolism of Noopept in serum relative to humans.[9]

Oral ingestion of Noopept results in a very rapid absorption and metabolism of Noopept, although the kinetics of metabolites (which are thought to be bioactive) is not yet known

A true bioavailability study has not been conducted, although it appears that an oral dose is about the equivalent of one tenth an injected dose (10% bioavailability)



2.2. Metabolism

The major metabolite of administered Noopept appears to be structurally similar to the endogeous neurodipeptide known as Cycloprolylglycine (Proline and Glycine in a cyclic configuration). Noopept per se is not reliably detectable in serum[6] as it is rapidly metabolized within 25 minutes of oral ingestion.[7]Additionally, cycloprolylglycine itself has nootropic potential when injected, although to a lesser degree than Noopept.[10]

In vitro, the conversion of Noopept to cycloprolylglycine (which increased 2.4-fold in neural tissue following 5mg/kg injections, from 2.8nmol/g to 6.7nmol/g wet brain weight) appeared to also occur in neural slices which the authors hypothesized was due to deacetylation to phenylacetic acid and spontaneous reconfiguation into cycloprolylglycine; this was not outright demonstrated in this study, and no serum phenylacetic acid was detected.[6]

Currently thought that Noopept acts as a pro-drug for cycloprolylglycine and that the latter molecule exerts a deal of the benefits observed with supplementation

However, one study has noted that while injections and oral ingestion of Noopept (0.5mg/kg and 10mg/kg respectively) were able to confer an anti-amnesiac effect that appears to build up over subchronic loading for 9 days, that injections of cycloprolylglycine did not have a buildup effect.[10] This study noted that the 50% of rats experiencing an increase in memory from the latter drug was decreased to 33% after nine days of loading, which may be associated with impairment of memory retrieval with the latter.[10][11]

May not have 100% similarity to cycloprolylglycine administration, as Noopept has been associated with a subchronic buildup effect whereas cycloprolylglycine has not




3.1. Mechanisms

It has been noted that Piracetam and Noopept display similar EEG patterns.[8]

Noopept (0.2mg/kg) has been noted to increase spindle-like activity and alpha wave function in all tested brain regions (rat data) similar to Piracetam (400mg/kg) while in the right cortex and hippocampus a greater increase in beta 1 wave function decrease of the delta function was noted with Noopept.[8] While all these effects were abolished with the NMDA antagonist 3-(2-carboxypiperazin-4-yl)propyl-1-phosphonic acid (CPP) for Piracetam, they were attenuated for Noopept at the same concentration of CPP (0.1nM; 1nM was able to abolish the effects of Noopept) and chronic injections of Noopept appeared to be assocaited with increased beta function spreading to the whole brain rather than localized.[8] Another study assessing comparative potency of Piracetam and Noopept found that, in animals subject to amnesia via electic shock that more animals experienced cognitive enhancement with Noopept at an oral dose of 10mg/kg (70% with an acute dose, 90% with nine days of dosing) than did 200mg/kg Piracetam (53% and 57% respectively).[10]

Comparatively, following injections Piracetam produced quicker but shorter lived effects (active within 10 minutes and lasting for 40) relative to Noopept (active in 30, still active at 70).[8]

Appears to be similar in mechanisms as to Piracetam at much lower concentrations when looking at whole brain function (EEG), and may be more long lasting in its effects; NMDA receptors appear to be related to the effects of Noopept

3.2. Memory and Cognitive Decline

Mechanistically, single doses of noopept at 0.5mg/kg (as well as 28 days of chronic dosing at the same dose) noted increases in both NGF and BDNF mRNA concentrations in the rat hippocampus, with a greater relative increase in NGF and no apparent tolerance developing over 28 days.[12] The authors hypothesized that the increase in these factors (neurotrophin factors) is associated with chronic improvement in memory associated with Noopept, as some trials noted greater improvements following chronic dosing (rats[13] and humans[3]) while neurotrophins are known to be associated with long-term memory enhancement.[14]

Additionally, it has been noted that Noopept (in vitro) appears to have a ‘cholinosensitizing’ effect[12] as in isolated neurons from helix pomatia that Noopept (10pM-1μM concentration range; or 10-6 to 10-11M) stimulated the reaction to microiontophoretic delivery of acetylcholine to the neuron.[14]

One study has noted species-dependent effects in mice, where BALB/c mice (C57BL/6J and DBA/2J unaffected) experienced improvements in long-term memory and in a test on the ability to extrapolate the direction of a stimuli there were benefits associated with Noopept in both C57BL/6J and BALB/c strains, but again no effect in DBA/2J mice.[15] DBA mice are known to have a cholinergic deficit[16] as well as alterations in hippocampal formation and function.[17][18]

Two possible mechanisms of action for enhancing cognition are a sensitizing effect on acetylcholine processes or induction of neurotrophin production, both of which theoretically enhance memory formation

In mice, it has been noted (from unpublished results, cited in this study[6]) that maximal learning influence on otherwise healthy rats occurs 1 hour prior to the learning activity. This timing scheme has been noted elsewhere with efficacy, although in application to injections.[19] At least one study, however, has noted that acute administration of Noopept 24 hours after a learning process is still associated with a degree of memory enhancement in rats.[4]

In studies looking at dose-response and oral ingestion, in rats where amnesia was induced via electroshock therapy it was noted that oral ingestion of 0.5mg/kg was associated with memory retention as was 10mg/kg, but an oral intake of 1.2mg/kg and 30mg/kg were both without effect; the pattern appeared to be bimodal, and the two effective rat oral doses correlated to an estimated human dose of 0.08mg/kg and 1.6mg/kg respectively (with 1.2mg/kg correlating to 0.192mg/kg).[10]

Injections (in rats) appear to be used acutely one hour prior to learning tasks with efficacy, although it does not appear that this is an outright prerequisite for cognitive enhancement. In regards to dosing, there appears to be a biphasic pattern of efficacy

0.01mg/kg injections of Noopept for 21 days in rats has failed to increase memory in otherwise healthy rats, but appeared to restore memory in rats subject to a bulbectomy (removal of olfactory bulb).[19] This restorative effect on memory has been noted in rats subject to compression damage (research model of concussion),[20][21] in stroke[11] and cerebral hypoxia,[22][23] oxidative stress,[24][22] scopolamine (cholinergic toxin) injections[25] and with usage of anticholinergics,[13] excitotoxicity via glutamate,[22]prefrontal cortex photothrombosis,[26][27] and in a bilateral frontal lobectomy.[28] Protective effects, at least on oxidative damage, have been noted at concentrations in the nanomolar range (10nM) although the IC50appears higher (1.27mM).[24]

One rat study has noted that, similar to Piracetam, administration of Noopept to otherwise healthy rat pups (8-20 days of age) results in an impairment of memory formation (declarative and procedural) without influencing locomotion.[29]

Over the course of 56 days of treatment in persons with cerebrovascular insufficiency, Noopept at 20mg is more effective than 1200mg Piracetam in improving global MMSE scores and was effective in persons with post-traumatic cerebral insufficiency (Piracetam was only effective in those with vascular disease and not trauma patients).[3]

Very general neuroprotective effects in research animals (usually rodents) given Noopept injections, and this has been replicated in one human study with 20mg oral Noopept; these studies mostly report a unanimous improvement in memory (secondary to reducing the decline seen with brain damage) although no studies currently exist on otherwise healthy humans or animals using Noopept for cognitive enhancement (ie. Noopept taken in a model not characterized by brain damage)

3.3. Anxiety

Mechanistically, One study assessing hippocampal cells in vitro measurings inhibitory postsynaptic currents (IPSCs) noted that while Noopept (1μM) increased spontaneous IPSC amplitude and frequency (269+/-39%) which was thought to be due to direct depolarization of inhibitory synaptic transmission (as Noopept did not affect currents evoked by rapid application of GABA or glutamate).[30] This was thought to be related to anxiety by the authors due to a high concentration of benzodiazepine receptors in the hippocampus[31] and anxiety being related to the hippocampus.[32]

At least one study suspects that an increase of tonic inhibition in the hippocampus may be related to the observed anxiolytic effects of Noopept

Noopept’s major metabolite appears to induce an anxiolytic effect in rodents as assessed by an elevated maze plus test at the injected dose of 0.05mg/kg (0.1mg/kg appeared less effective and 0.2mg/kg was ineffective)[2] where only the L-isomer is active and the D-isomer is wholly inactive.[2]

In humans, one study[3] investigated 53 persons with cognitive ailment (37 with vascular cerebral damage and 17 with post-traumatic damage; 41 finishing the trial) at two daily doses of 10mg compared to the active control of Piracetam (1200mg daily) over 56 days noted universal improvement on parameters of vascular cerebral damage and improvement on half of measured parameters of trauma. Fatigue, anxiety, irritability, apathy, and affective lability were improved in both groups while further benefits were noted on mood, sleep, and wakefullness in those with cognitive ailment stemming from vascular damage.[3]Noopept was more effective over 56 days in improving the MMSE score relative to Piracetam, while it was effective in post-trauma patients (Piracetam was not) although when comparing all scores on MMSE, BPRS, and CCSE there was no significant difference.[3]

Appears to have anxiolytic properties, which have been demonstrated in otherwise normal rats but not yet in otherwise healthy humans (has been confirmed in humans who may have increased anxiety secondary to cognitive degeneration)

3.4. Depression

Two animal studies have noted that Noopept is associated with abolishing the effects of learned helplessness in rats at 0.05-0.10mg/kg injections,[33][34] which is thought to be a model of depression as it is related to extraneous factors. Currently, the only study in humans assessing depression noted that in persons with cognitive injury there was less depressive symptoms associated with 20mg Noopept for 56 days as assessed by MMSE, BPRS, and CCSE.[3]

Two animal studies suggest that an anti-depressive effect may occur, but this has not been thoroughly evaluated

3.5. Alzheimer’s and Parkinson’s

In vitro, Noopept appears to accelerate the fibrillization rates of α-synuclein (the one day lag phase seen in vitro without Noopept was eliminated) in a concentration dependent manner (molar ratios of Noopept to α-synuclein) and appeared to influence a β-sheet formation of α-synuclein.[5] Direct binding with monomeric α-synuclein did not seem apparent.

When assessing the cytotoxicity of α-synuclein upon SH-SY5Y neuroblastoma cells, Noopept at a 1:1 ratio or ten-fold greater appeared to abolish α-synuclein-induced cytotoxicity without per se affecting viability.[5]Cell necrosis as assessed by propidium iodide and Annexin V appeared to be normalized to healthy control cells under the influence of Noopept, while necrosis was evidenct in α-synuclein control as was associated with less ROS production in cells.[5] An increase in immunostaining of prefibrill proteins, but not to lysozyme amyloid nor S100b, has been noted in vivo in rats injected with 0.01mg/kg Noopept for 21 days.[19]

Production of β-sheet formation is generally seen as protective as alternate formations such as the oligomeric and protofibrillar species are more cytotoxic to neurons.[35][36][37] Shorter species may also induce necrotic cell death[38] while Noopept appears to influence longer fibril formation.[5]

In vitro, Noopept appears to influence fibrillization of α-synuclein towards β-sheets and away from oligomeric formation while promoting fibril length; the cumulative effect of which is less cytotoxic formations of these protein structures and more relative cell viability

Noopept has been found to increase immunoreactivity to Aβ amyloid in an Alzheimer’s disease mice model following olfactory bulbectomy operation[19] and in an animal model of Alzheimer’s Disease (beta-amyloid25-35 injection) injections of 0.5mg/kg Noopept for 7 days prior to treatment fully prevented amnesiac properties of the amyloid injections; some rehabilitative effects were noted when Noopept was administered after amyloid.[39]

Some bioactivity and protective effects have been noted in rats given Noopept, although there is currently no study assessing the potency relative to a reference drug

3.6. Excitation

Noopept has been claimed to have a subtle psychostimulatory effect.

In isolated synaptoneurosomes, Noopept (as well as the endogenous peptide cycloprolylglycine) appear to modulate neuronal membrane potential, causing depolarization but and being able induce hyperpolarization in a calcium-dependent manner (hyperpolarization abolished in calcium-free medium); Noopept was more effective than cycloprolylglycine in this regard but the two were competitive rather than additive.[40] The researchers noted this effect could be due to blocking calcium channels (noted previously in snail neurons[41] where 10nM Noopept as well as both Piracetam at 100mM and Vinpocetine at 30mM at inhibiting slow inactivating potassium channels without influencing calcium or fast acting potassium channels[42]) and would result in increased excitatory potential of neurons. However, as Noopept is also associated with protection against stroke (a mechanism related to opening potassium channels) a modulatory effect was proposed.[40]

Has been noted to cause neuronal excitation, which may be related to the reported psychostimulatory effect; beyond this limited evidence there is not too much assessment of the stimulatory effect of Noopept


Inflammation and Immunology

4.1. Mechanisms

One study has noted that Noopept injections (0.5-10mg/kg) is able to augment the phagocytic index of macrophages and increased splenocyte proliferation (70.4%) relative to control; enhanced T-cell proliferation was noted only with chronic dosing for seven days and to the degree of 16.2%.[43]

Noopept was noted to reduce immunosuppression induce by cyclophosphamide,[43] which was thought by the authors to possibly be related to protective effects against stroke due to a stroke inducing apoptosis of some immune cells.[44]

Some interactions with the immune system, fairly unexplored, and may interact with protective effects on cognition


Safety and Toxicity

5.1. General

In a comparative study, although both treatments were generally well tolerated there was a reported 1.8-fold less side-effects associated with 20mg Noopept relative to 1200mg Piracetam despite both treatments being effective in reducing symptoms of cognitive injury.[3]


Scientific Support & Reference Citations

Source @https://examine.com/supplements/noopept/


  1. Synthesis and antiamnesic activity of a series of N-acylprolyl containing dipeptides
  2. Gudasheva TA, et al Anxiolytic activity of endogenous nootropic dipeptide cycloprolylglycine in elevated plus-maze test . Bull Exp Biol Med. (2001)
  3. Neznamov GG, Teleshova ES Comparative studies of Noopept and piracetam in the treatment of patients with mild cognitive disorders in organic brain diseases of vascular and traumatic origin . Neurosci Behav Physiol. (2009)
  4. Ostrovskaia RU, et al The original novel nootropic and neuroprotective agent noopept . Eksp Klin Farmakol. (2002)
  5. Jia X, et al Neuroprotective and nootropic drug noopept rescues α-synuclein amyloid cytotoxicity . J Mol Biol. (2011)
  6. Gudasheva TA, et al The major metabolite of dipeptide piracetam analogue GVS-111 in rat brain and its similarity to endogenous neuropeptide cyclo-L-prolylglycine. Eur J Drug Metab Pharmacokinet. (1997)
  7. Boiko SS, et al Pharmacokinetics of new nootropic acylprolyldipeptide and its penetration across the blood-brain barrier after oral administration . Bull Exp Biol Med. (2000)
  8. Vorobyov V, et al Effects of nootropics on the EEG in conscious rats and their modification by glutamatergic inhibitors . Brain Res Bull. (2011)
  9. Interspecies differences of noopept pharmacokinetics
  10. Ostrovskaya RU, et al Proline-containing dipeptide GVS-111 retains nootropic activity after oral administration . Bull Exp Biol Med. (2001)
  11. Ostrovskaya RU, et al Memory restoring and neuroprotective effects of the proline-containing dipeptide, GVS-111, in a photochemical stroke model . Behav Pharmacol. (1999)
  12. Ostrovskaya RU, et al Noopept stimulates the expression of NGF and BDNF in rat hippocampus . Bull Exp Biol Med. (2008)
  13. Radionova KS, Belnik AP, Ostrovskaya RU Original nootropic drug noopept prevents memory deficit in rats with muscarinic and nicotinic receptor blockade . Bull Exp Biol Med. (2008)
  14. Tyler WJ, et al From acquisition to consolidation: on the role of brain-derived neurotrophic factor signaling in hippocampal-dependent learning . Learn Mem. (2002)
  15. Bel’nik AP, Ostrovskaya RU, Poletaeva II Genotype-dependent characteristics of behavior in mice in cognitive tests. The effects of Noopept . Neurosci Behav Physiol. (2009)
  16. Upchurch M, Wehner JM Inheritance of spatial learning ability in inbred mice: a classical genetic analysis . Behav Neurosci. (1989)
  17. Passino E, et al Genetic approach to variability of memory systems: analysis of place vs. response learning and fos-related expression in hippocampal and striatal areas of C57BL/6 and DBA/2 mice . Hippocampus. (2002)
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  20. Romanova GA, et al Antiamnesic effect of acyl-prolyl-containing dipeptide (GVS-111) in compression-induced damage to frontal cortex . Bull Exp Biol Med. (2000)
  21. Antiamnesic effect of acyl-prolyl-containing dipeptide (GVS-111) in compression-induced damage to frontal cortex
  22. Andreeva NA, et al Neuroprotective properties of nootropic dipeptide GVS-111 in in vitro oxygen-glucose deprivation, glutamate toxicity and oxidative stress . Bull Exp Biol Med. (2000)
  23. Zarubina IV, Shabanov PD Noopept reduces the postischemic functional and metabolic disorders in the brain of rats with different sensitivity to hypoxia . Bull Exp Biol Med. (2009)
  24. Pelsman A, et al GVS-111 prevents oxidative damage and apoptosis in normal and Down’s syndrome human cortical neurons . Int J Dev Neurosci. (2003)
  25. Belnik AP, Ostrovskaya RU, Poletaeva II Dipeptide preparation Noopept prevents scopolamine-induced deficit of spatial memory in BALB/c mice . Bull Exp Biol Med. (2007)
  26. Romanova GA, et al Impairment of learning and memory after photothrombosis of the prefrontal cortex in rat brain: effects of Noopept . Bull Exp Biol Med. (2002)
  27. Romanova GA, et al Relationship between changes in rat behavior and integral biochemical indexes determined by laser correlation spectroscopy after photothrombosis of the prefrontal cortex . Bull Exp Biol Med. (2004)
  28. Ostrovskaya RU, et al The novel substituted acylproline-containing dipeptide, GVS-111, promotes the restoration of learning and memory impaired by bilateral frontal lobectomy in rats . Behav Pharmacol. (1997)
  29. Trofimov SS, Voronina TA, Guzevatykh LS Early postnatal effects of noopept and piracetam on declarative and procedural memory of adult male and female rats . Bull Exp Biol Med. (2005)
  30. Kondratenko RV, Derevyagin VI, Skrebitsky VG Novel nootropic dipeptide Noopept increases inhibitory synaptic transmission in CA1 pyramidal cells . Neurosci Lett. (2010)
  31. Fuxe K, et al GABA and benzodiazepine receptors. Studies on their localization in the hippocampus and their interaction with central dopamine neurons in the rat brain . Adv Biochem Psychopharmacol. (1981)
  32. Bertoglio LJ, Joca SR, Guimarães FS Further evidence that anxiety and memory are regionally dissociated within the hippocampus . Behav Brain Res. (2006)
  33. Uyanaev AA, Fisenko VP, Khitrov NK Effect of noopept and afobazole on the development of neurosis of learned helplessness in rats . Bull Exp Biol Med. (2003)
  34. Uyanaev AA, Fisenko VP Studies of long-term noopept and afobazol treatment in rats with learned helplessness neurosis . Bull Exp Biol Med. (2006)
  35. Uversky VN Alpha-synuclein misfolding and neurodegenerative diseases . Curr Protein Pept Sci. (2008)
  36. Zamotin V, et al Cytotoxicity of albebetin oligomers depends on cross-beta-sheet formation . FEBS Lett. (2006)
  37. Malisauskas M, et al Does the cytotoxic effect of transient amyloid oligomers from common equine lysozyme in vitro imply innate amyloid toxicity . J Biol Chem. (2005)
  38. Xue WF, et al Fibril fragmentation in amyloid assembly and cytotoxicity: when size matters . Prion. (2010)
  39. Ostrovskaya RU, Belnik AP, Storozheva ZI Noopept efficiency in experimental Alzheimer disease (cognitive deficiency caused by beta-amyloid25-35 injection into Meynert basal nuclei of rats) . Bull Exp Biol Med. (2008)
  40. Lutsenko VK, Vukolova MN, Gudasheva TA Cyclopropyl glycine and proline-containing preparation noopept evoke two types of membrane potential responses in synaptoneurosomes . Bull Exp Biol Med. (2003)
  41. Solntseva EI, et al The effects of piracetam and its novel peptide analogue GVS-111 on neuronal voltage-gated calcium and potassium channels . Gen Pharmacol. (1997)
  42. Bukanova JV, Solntseva EI, Skrebitsky VG Selective suppression of the slow-inactivating potassium currents by nootropics in molluscan neurons . Int J Neuropsychopharmacol. (2002)
  43. Kovalenko LP, et al Immunopharmacological properties of noopept . Bull Exp Biol Med. (2007)
  44. Prass K, et al Stroke-induced immunodeficiency promotes spontaneous bacterial infections and is mediated by sympathetic activation reversal by poststroke T helper cell type 1-like immunostimulation . J Exp Med. (2003)
  45. Neznamov GG, Teleshova ES Comparative studies of Noopept and piracetam in the treatment of patients with mild cognitive disorders in organic brain diseases of vascular and traumatic origin . Neurosci Behav Physiol. (2009)


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