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Oxiracetam

Oxiracetam is a synthetic in the racetam family, first synthesized in 1974 as a and recognized for its potential to improve cognitive functions including , learning, and attention in conditions involving impairment. As a of , oxiracetam acts primarily as a positive of receptors, enhancing synaptic transmission and [long-term potentiation](/page/Long-term_p potentiation), which are key processes underlying learning and . It also promotes the synthesis of phosphorylcholine and phosphoethanolamine, thereby increasing release, boosting energy metabolism via ATP regulation, and supporting protein and synthesis in neuronal cells. Additionally, it improves cerebral blood flow, inhibits activation, and modulates the glutamine-glutamate cycle and defenses, contributing to neuroprotective effects against cerebral hypoperfusion and ischemia. The (S)- is the pharmacologically active component responsible for these benefits, distinguishing it from the less effective (R)-form. Clinically, oxiracetam has been investigated for treating cognitive deficits in various neurological conditions, including multi-infarct , vascular cognitive impairment, post-stroke cognitive decline, and with , where it demonstrates improvements in memory and overall cognitive performance superior to and sometimes . In combination therapies, such as with donepezil and other agents, it has shown enhanced efficacy in elevating scores and reducing severity over periods of up to six months. Ongoing trials continue to explore its role in post-stroke recovery, often alongside exercise or hyperbaric oxygen, with promising results in preventing cognitive decline, including favorable trends from a 2025 combining oxiracetam with . Typical oral doses range from 800 to 2400 mg daily, administered in divided portions. Oxiracetam exhibits a favorable safety profile, with clinical studies reporting it as well-tolerated at doses up to 2400 mg, both in single and repeated administrations, and no serious adverse events or deaths observed in phase I trials of its (S)-. Common side effects are rare and mild, potentially including headaches similar to other racetams, but long-term studies in elderly patients with have noted no significant adverse reactions. It is not approved by the U.S. for medical use but is available as an investigational or in some countries for cognitive disorders.

Medical uses

Approved indications

Oxiracetam is approved in certain countries, including and select European nations, for the treatment of mild to moderate associated with primary degenerative (such as ) and multi-infarct stemming from cerebrovascular disorders, including post-stroke recovery; these approvals date back to the late following initial marketing as a agent. The recommended dosage for these approved indications is typically 800–2400 mg per day administered orally in divided doses (e.g., 800 mg twice daily), with treatment durations often spanning 12 weeks or longer based on clinical response. Pivotal evidence supporting approval came from multicenter clinical trials in , such as a 1992 double-blind, placebo-controlled study involving 65 patients (58 completed) with mild to moderate of degenerative or vascular origin, which demonstrated statistically significant improvements (p < 0.01) in the oxiracetam group compared to placebo across key neuropsychological measures, including logical performance via controlled associations, attention-related reaction times, verbal memory in short story recall, and overall quality of life scales.

Investigational and off-label uses

Oxiracetam has been investigated for its potential in treating (TBI), particularly to aid recovery from mild-to-moderate cognitive impairments. Despite promising preclinical data suggesting neuroprotective effects, a 2024 multicenter, randomized, double-blind clinical trial protocol highlights the absence of robust evidence supporting significant benefits in human TBI patients, with ongoing studies like the evaluating L-oxiracetam for memory and cognitive outcomes. Earlier animal research indicated potential for reducing neuroinflammation and neuronal loss in TBI models, but clinical translation remains limited. A 2025 multicenter, randomized controlled trial involving 500 post-stroke patients showed that oxiracetam (800 mg twice daily) significantly prevented cognitive decline compared to placebo, with improvements in neuropsychological assessments (p < 0.05). In animal models, oxiracetam has demonstrated enhancements in spatial learning and memory. A study in mice using the Morris water maze task showed that oxiracetam treatment significantly improved performance in strains with poor baseline learning, correlating with elevated membrane-bound protein kinase C (PKC) activity in the hippocampus, a key enzyme in synaptic plasticity. These findings suggest a mechanism involving hippocampal modulation, though results were not replicated in high-performing strains. Off-label, oxiracetam is employed by healthy individuals seeking cognitive enhancement, often for improved memory, focus, and learning capacity. Clinical studies in healthy volunteers have reported modest improvements in neuropsychological performance, particularly in tasks involving recall under induced amnesia conditions, with acute doses up to 1600 mg showing statistically significant effects on delayed memory recall. Reviews of nootropics note its use among students and professionals for concentration and intellectual performance, positioning it within the for non-medical cognitive augmentation. In nootropic communities, users frequently report subjective benefits when combining oxiracetam with choline sources to support acetylcholine synthesis and prevent headaches. Emerging research explores oxiracetam's role in conditions involving chronic cerebral hypoperfusion, a model for vascular cognitive impairment. A 2017 rat study identified the (S)-enantiomer as the active component, demonstrating its ability to alleviate cognitive deficits by improving spatial learning in the and enhancing synaptic plasticity markers, without effects from the (R)-enantiomer. This suggests enantiomer-specific therapeutic potential for hypoperfusion-related impairments, warranting further human trials.

Adverse effects

Common side effects

Oxiracetam is generally well tolerated at therapeutic doses, with the most frequently reported side effect being headache, often linked to acetylcholine depletion and typically alleviated through choline supplementation. Other mild adverse effects may include insomnia, irritability, nervousness, and gastrointestinal disturbances such as nausea or diarrhea, which tend to occur more often at higher doses exceeding 2400 mg per day. Clinical trials evaluating long-term use have demonstrated no serious adverse events at doses up to 2400 mg daily for periods of up to 12 months, with particularly favorable tolerability in elderly patients with mild to moderate , as shown in multicenter Italian studies from the 1990s. Recent phase I and III trials as of 2024-2025 have reaffirmed its safety, with no serious adverse events reported at therapeutic doses. Overall, side effects remain infrequent, dose-dependent, and transient, including rare instances of increased libido or agitation similar to those observed with related racetam compounds.

Toxicity and interactions

Oxiracetam exhibits low acute toxicity in animal models, with LD50 values exceeding 10 g/kg via intraperitoneal and intravenous routes in both rats and mice, indicating a high safety margin far above therapeutic doses. Human overdose reports are scarce and generally limited to mild central nervous system overstimulation, such as severe headaches, restlessness, palpitations, and tachycardia, without evidence of life-threatening effects. Regarding drug interactions, its potentiation of cholinergic activity could amplify effects of other cholinergic agents, though specific risks like seizures from modulation remain unconfirmed in clinical data; concurrent use with antiepileptic drugs shows no pharmacokinetic interference. Interactions with CNS depressants such as sedatives or opioids are not well-characterized; given its excitatory mechanism on glutamatergic transmission, oxiracetam may counteract rather than enhance depressive effects, but caution is advised due to limited data. Contraindications include severe renal impairment, where reduced excretion may prolong drug effects and necessitate dose adjustments. Caution is advised in patients with a history of seizures, though long-term use with antiepileptics appears safe. Data on chronic human toxicity are minimal, with no significant long-term adverse effects reported in clinical studies at therapeutic doses.

Pharmacology

Pharmacodynamics

Oxiracetam primarily exerts its nootropic effects through positive allosteric modulation of , facilitating increased calcium influx into neurons and thereby enhancing synaptic plasticity. This action is selective, as oxiracetam does not influence or -mediated responses. Additionally, chronic administration of oxiracetam increases the density of in synaptic membranes from the rat cerebral cortex, further amplifying glutamatergic signaling. Secondary mechanisms involve activation of protein kinase C (PKC) in the hippocampus, which promotes long-term potentiation (LTP), a key process in memory formation. Oxiracetam also enhances the release and utilization of acetylcholine in brain regions such as the cerebral cortex and hippocampus, supporting cholinergic neurotransmission critical for cognitive functions. Furthermore, it elevates brain energy metabolism by stimulating ATP synthesis, particularly in ischemic conditions, which sustains neuronal activity. Regarding stereochemistry, the (S)-enantiomer of oxiracetam is the pharmacologically active form responsible for cognitive benefits in models of chronic cerebral hypoperfusion, where it improves neuronal function more effectively than the racemic mixture. Oxiracetam additionally displays mild stimulant properties via indirect modulation of dopamine and norepinephrine systems, contributing to heightened alertness without amphetamine-like stimulation; this effect depends on intact catecholamine levels in the brain.

Pharmacokinetics

Oxiracetam is rapidly absorbed from the gastrointestinal tract after oral administration, achieving absolute bioavailability ranging from 56% to 82%, while intravenous administration results in complete absorption. The onset of action occurs within 30 to 90 minutes post-dose. Peak plasma concentrations of 19 to 31 μg/mL are attained 1 to 3 hours following single oral doses of 800 to 2000 mg. The drug exhibits moderate penetration across the blood-brain barrier, with cerebrospinal fluid concentrations reaching approximately 5.3% of corresponding plasma levels one hour after a single 2000 mg oral dose in human studies. Oxiracetam undergoes minimal hepatic metabolism, primarily producing β-hydroxy-2-pyrrolidone, N-aminoacetyl- (gamma-amino-beta-hydroxybutyric acid amide), (gamma-amino-beta-hydroxybutyric acid), and glycine via minor pathways. Elimination occurs predominantly via renal excretion, with about 84% of the administered dose recovered unchanged in the urine over 24 to 48 hours in healthy individuals. The terminal elimination half-life averages 8 hours following multiple oral doses. Renal clearance varies from 9 to 95 mL/min and is significantly reduced in patients with impaired renal function, leading to prolonged half-lives of 10 to 68 hours. For the (S)-enantiomer, recent phase I studies report a half-life of approximately 6-7 hours, rapid absorption with Tmax of 0.75-1.00 hours, and no significant accumulation or food effect on exposure. Pharmacokinetics demonstrate dose proportionality, with peak plasma concentrations increasing linearly up to doses of 2400 mg, and no evidence of accumulation during repeated dosing regimens.

Chemistry

Structure and properties

Oxiracetam has the molecular formula C₆H₁₀N₂O₃ and a molecular weight of 158.16 g/mol. It is chemically named (RS)-2-(4-hydroxy-2-oxopyrrolidin-1-yl)acetamide and represents a cyclic derivative of with a hydroxy substituent at the 4-position of the pyrrolidine ring. Oxiracetam exists as a white to off-white crystalline powder, with a melting point ranging from 165°C to 168°C. The compound exhibits high solubility in water, exceeding 477 mg/mL at 25°C, while it is only slightly soluble in ethanol, approximately 16.7 mg/mL. Oxiracetam is typically used as a racemic mixture of (R)- and (S)-enantiomers, where the (S)-enantiomer is the biologically active form, resulting in no net optical activity (±). Under normal storage conditions, such as sealed and dry at room temperature, oxiracetam remains stable, though it may degrade to metabolites including GABOB (4-hydroxy-γ-aminobutyric acid) in acidic environments or via enzymatic processes.

Synthesis

Oxiracetam was first synthesized in 1974 by as a racemic mixture through a multi-step process involving cyclization of intermediates derived from 3-hydroxy-4-aminobutyric acid, a analog. The initial route, detailed in early patents by ISF SpA (a subsidiary of ), began with silylation of 3-hydroxy-4-aminobutyric acid using bistrimethylsilyl amine to protect the hydroxyl group, followed by thermal cyclization to form 4-(trimethylsilyloxy)-2-pyrrolidinone. This intermediate was then alkylated with ethyl bromoacetate to introduce the acetamide precursor side chain, deprotected under acidic conditions to yield ethyl 4-hydroxypyrrolidine-2-one-1-acetate, and finally converted to oxiracetam via ammonolysis with methanolic ammonia. These 1970s patents, such as US 4173569 and DE 2758937, established the foundational method for ISF 2522 (oxiracetam's developmental code), emphasizing scalability while avoiding hazardous reagents. An alternative early route utilized ethyl iminodiacetate and 2-ethoxycarbonylacetyl chloride, proceeding through N-acylation, base-mediated cyclization to a pyrrolinone intermediate, reduction with sodium borohydride, and ammonolysis, achieving an overall yield of approximately 43% in five steps. Key transformations in these syntheses included acetamide formation via ammonolysis of the pyrrolidone core's ethyl acetate substituent and selective hydroxylation at the C4 position during intermediate preparation, with modern optimizations improving yields to 70-90% through refined protection strategies and purification. For industrial production, multi-step processes from GABA analogs like 3-hydroxy-4-aminobutyric acid remain prevalent, adapted for large-scale operations by minimizing steps and using non-toxic solvents, as described in contemporary patents suitable for pharmaceutical manufacturing. These methods prioritize high purity (>99%) and avoid explosive or corrosive reagents, enabling efficient synthesis of the racemate. Enantioselective routes to (S)-oxiracetam, the biologically active , have been developed to address the racemate's limitations. One approach starts from L-tartaric acid, involving imide formation with methyl glycinate, regioselective reduction, and cyclization to yield the (S)- after deprotection and installation. A 2020 method achieves of racemic oxiracetam via cocrystallization with in 70% , forming a conglomerate of (S)-oxiracetam·MgCl₂·5H₂O and (R)-oxiracetam·MgCl₂·5H₂O that enables enantiomeric separation by , suitable for scalable production of the (S)-form. Another stereoselective synthesis from (R)- acetonide proceeds through formation and with glycinamide, followed by cyclization and side-chain elaboration to (S)-oxiracetam. These routes contrast with the racemic structure detailed in the chemistry section by producing enantiopure material for enhanced pharmacological specificity.

History

Development

Oxiracetam was first synthesized in 1974 by the pharmaceutical company ISF (now associated with SmithKline Beecham) as part of the expansion of the racetam family of nootropics, following the development of in 1964. Assigned the developmental code ISF 2522, the compound was targeted as a cyclic derivative of to enhance cognitive performance, building on the of earlier analogs designed for metabolism improvement. In the early , preclinical research focused on animal models revealed oxiracetam's anti-amnesic effects, particularly in counteracting memory impairments induced by , a used to mimic deficits. Studies in rats and mice showed that intraperitoneal doses of 50–100 mg/kg reversed scopolamine-induced disruptions in passive avoidance and radial arm maze tasks, with effects attributed to enhanced release and utilization in the and . These milestones established oxiracetam's potential to facilitate learning and without significant locomotor stimulation. The nomenclature "oxiracetam" reflects its chemical structure, incorporating the "oxo" group from the 2-oxo-pyrrolidine core and the "racetam" suffix denoting membership in the pyrrolidone-based nootropic class. By 1985, early pharmacological evaluations had classified it as a mild central nervous system stimulant, offering subtle arousal benefits alongside its cognitive effects in preclinical paradigms.

Research and approval

Oxiracetam underwent several key clinical trials in the 1980s and 1990s to evaluate its efficacy in cognitive disorders. A pivotal multicenter, double-blind, placebo-controlled study conducted in Italy involving 307 patients (289 analyzed) with primary degenerative dementia or multi-infarct dementia of mild to moderate severity demonstrated significant improvements in cognitive function, as measured by scales such as the Alzheimer's Deficit Scale and the Gottfries-Bråne-Steen scale, compared to placebo after 12 weeks of treatment at 800 mg twice daily. In the 1990s, additional trials focused on cerebrovascular disease, reporting benefits in vascular cognitive impairment, including improvements in quality of life and global clinical impression scores. Regulatory approval for oxiracetam was granted in in 1984 under the trade name Neuromet for the treatment of cognitive disorders associated with primary degenerative and multi-infarct . It received approvals in select other European countries, , and for similar indications during the 1980s and 1990s, primarily based on European trial data. However, the U.S. (FDA) did not approve oxiracetam, citing insufficient evidence from large-scale U.S.-based trials to support its efficacy and safety for cognitive enhancement. Post-approval research has explored oxiracetam's mechanisms and limitations. A identified the (S)- as the active component responsible for alleviating impairments induced by amyloid-β in models, highlighting potential for enantiopure formulations to improve therapeutic outcomes. More recently, a 2025 multicenter, randomized, double-blind, placebo-controlled trial in 500 high-risk post-stroke patients (457 analyzed) found no significant benefit of oxiracetam (800 mg twice daily for 36 weeks) in preventing cognitive decline, as assessed by the Mini-Mental State Examination and Sum of Boxes, underscoring its limited efficacy in this population as of November 2025. Despite these findings, gaps persist, including a scarcity of large-scale randomized controlled trials (RCTs) with diverse populations and long-term outcomes, which has hindered broader adoption. Ongoing investigations into enantiopure forms, such as (S)-oxiracetam, continue to generate interest for potentially enhanced efficacy in cognitive disorders.

Society and culture

Legal status

Oxiracetam is not listed as a controlled substance under the World Health Organization's scheduling conventions. In the United States, oxiracetam is unscheduled and has not been approved by the Food and Drug Administration (FDA) for any medical use, classifying it as an unapproved drug. It is legally available for personal possession but cannot be marketed or sold as a dietary supplement or drug, with the FDA issuing warnings to vendors for such practices. In , the legal status of oxiracetam varies by country, with historical approval for medical use in several nations since the . It was authorized as a prescription-only medicine in , where it was first placed on the market in 1984 under the brand name Neuromet for cognitive disorders, though current availability as of 2025 is uncertain. It is not centrally authorized by the . In , oxiracetam is classified as a Schedule 4 substance under the Poisons Standard, requiring a prescription for legal possession and use. In , oxiracetam is unscheduled and not approved by , allowing personal possession but subjecting imports to potential customs restrictions and seizure. Internationally, regulations differ across ; for instance, it is approved for medical use in , while in it is restricted, with importation of unlicensed forms prohibited. No significant down-scheduling has occurred globally post-2000s, as safety data has not prompted widespread regulatory changes.

Availability and non-medical use

Oxiracetam is available by prescription in select countries, including , where it was marketed under brand names such as Neuromet and in generic forms through pharmacies for cognitive disorders, though current availability as of 2025 is uncertain. Outside of medical channels, oxiracetam is widely obtained via online vendors specializing in nootropics, often sold as or supplements in powder or capsule form, such as 750 mg capsules. In the United States, where it lacks regulatory approval, it circulates through gray-market sources like research chemical websites, bypassing . Within and communities, oxiracetam is popular as a study aid and cognitive enhancer, with users typically self-dosing 750–1,500 mg per day, divided into two doses, and often usage (e.g., 5 days on, 2 days off) to mitigate potential . As part of the family, oxiracetam has been incorporated into "stacks" combining multiple nootropics since the , reflecting its role in early smart experimentation within online forums and literature on cognitive enhancement. Non-medical use carries risks due to variable product quality from unregulated vendors, including inconsistent purity and inaccurate dosing, as unapproved nootropics like oxiracetam have been detected in supplements with undeclared ingredients. Additionally, its mild properties may lead to misuse for performance enhancement, potentially exacerbating side effects like headaches or without medical oversight.

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