Bromantane (Ladasten)

Bromantane is a Russian-developed adamantane actoprotector that scored 76.0% CGI-S responder rate in 728 outpatients (Voznesenskaia 2010, open-label, 50 to 100 mg/day, 28 days). Single-country evidence base and a 2018 Pharmstandard manufacturing exit hold the BioHarmony score at 6.3 / 10.

Bromantane (Ladasten) scored 5.5 / 10 (⚖️ Neutral) on the BioHarmony scale as a Substance → Pharmaceutical / Drug → Other Pharmaceutical.

Overall5.5 / 10⚖️ NeutralContext-dependent

Your Score🔒Take the quiz →

Energy / Fatigue 6.2 Stress / Resilience 6.0 Cognition / Focus 5.8 Anxiety 5.7 Mood / Emotional Regulation 5.5

🚫 Skip (0) ✅ Top-tier (10)

5.5

Midpoint (5.0)

⚖️ Bromantane (Ladasten)

◄ Downside 1.51 | Upside 2.05 ►

📊 Low confidence (±1.2 · evidence 2.0/5)

📅 Scored May 9, 2026·BioHarmony v1.0·Rev 4

Key Takeaways

Bromantane is a Russian-developed adamantane actoprotector that scored 76.0% CGI-S responder rate and 90.8% CGI-I responder rate in 728 outpatients with asthenic disorders (Voznesenskaia 2010).
Mechanism is upstream dopamine biosynthesis through tyrosine hydroxylase gene induction with cytosine demethylation of the TH promoter (Vakhitova 2006), not classical reuptake inhibition.
Hippocampal LTP transformation is D1- and D5-dependent (Mikhaylova/Behnisch 2007), the only Western-journal Bromantane mechanism paper.
Pharmstandard discontinued the Russian Ladasten brand in 2018 and the registration lapsed; Algernon retired the NP-160 program after 2019 NASH and CKD preclinical data.
WADA banned since 1997 under S6.A Stimulants; categorically off-limits for any tested athlete.
Long-term human safety data does not exist past 28 days; cycling rather than continuous dosing is the conservative protocol.

Key Facts

Use cases: Anxiety, Cognition & Focus, Depression, Energy, Mood, Stress / Resilience
Type: Other Pharmaceutical
Alternate names: Ladasten, ADK-709, N-(4-bromophenyl)-2-adamantylamine, Bromantan
Type-canonical: Adamantane Actoprotector (atypical anxiolytic stimulant)
Mechanism: TH gene induction with cytosine demethylation of the TH promoter, weak DAT reuptake inhibition, BDNF and NGF mRNA upregulation, GABA tone modulation
Half-life: ~11.2 h (humans), ~7 h (rats)
Time to feel it: Subjective stimulation 1.5 to 2 h, full asthenic relief 1 to 2 weeks
Clinical dose range: 50 to 100 mg\/day oral, 28-day course
Bioavailability: ~42% oral; Tmax 2.75 h (women) \/ 4 h (men)
Evidence base: 1 placebo-controlled RCT, 1 open-label multicenter trial (n=728), ~30 Russian preclinical papers, zero Western RCTs, zero Cochrane reviews
Worst-case safety risk: Essentially zero published intrinsic catastrophic AE signal. No anaphylaxis, organ failure, or fatal AE in trials at therapeutic doses.
Interactions: MAOIs contraindicated. Caution with other dopaminergics (modafinil, methylphenidate, amphetamines, L-DOPA, selegiline) and with high-dose caffeine.
Who responds best: EEG-stratified responder split (Neznamov 2008). Sex differences in PK. Dose-profile shift at 30 vs 100 mg.
Cost: $40 to $100 per 30-day course at gray-market research-chemical channels (Cosmic Nootropic Ladasten brand discontinued 2024)
Legal status: Russia: Ladasten registration expired after Pharmstandard discontinued manufacturing (2018). USA: not FDA-approved. EU: not approved. WADA: banned since 1997 under S6.A Stimulants.
Cycling: Community standard 4 weeks on, 4 to 8 weeks off. No published cycling RCT.
Tolerance: Anecdotal tolerance reports at 6 weeks of continuous use. No published RCT signal at 28 days.
Last scored: May 9, 2026 · BioHarmony v1.0

What It Is

Bromantane is a Russian-developed adamantane actoprotector that scored 6.3 / 10 because the Voznesenskaia 2010 trial reported a 76.0% CGI-S responder rate in 728 outpatients with asthenic syndrome but the literature is single-country, single-funder, and the manufacturer let the Russian registration lapse. The drug works by inducing tyrosine hydroxylase gene expression and demethylating the TH promoter (Vakhitova 2006), with downstream BDNF and NGF mRNA upregulation (Salimgareeva 2012). It is on the WADA Prohibited List for sport since 1997 and is not FDA-approved.

Bromantane, also marketed in Russia as Ladasten and known by the laboratory designation ADK-709 or N-(4-bromophenyl)-2-adamantylamine, is the prototype compound of an unfamiliar drug class: the actoprotector. Actoprotectors increase physical and intellectual performance under stress without increasing oxygen consumption or heat production, which is the pharmacological feature that distinguishes them from classical stimulants like amphetamines, methylphenidate, or modafinil. The class was developed during the late Soviet era at the V.V. Zakusov State Institute of Pharmacology in Moscow, and Bromantane is the most studied member.

The mechanism is unusual. Original work in 1995 framed Bromantane as a weak monoamine reuptake inhibitor at micromolar concentrations (Kudrin 1995), but in-vivo therapeutic concentrations are well below those numbers, so the reuptake-inhibition model does not explain the clinical picture. The current mechanistic consensus, established by the Vakhitova / Seredenin / Mikhaylova group, is that Bromantane acts upstream by activating dopamine biosynthesis. A single 50 mg/kg dose in rats induces tyrosine hydroxylase and DOPA-decarboxylase gene expression (Vakhitova 2004), produces cytosine demethylation in CpG islands of the TH gene promoter in hypothalamic cells (Vakhitova 2006), and increases BDNF and NGF mRNA in striatum, hypothalamus, and hippocampus with pERK1/2 up 70% at 30 minutes (Salimgareeva 2012). The most rigorous paper, Mikhaylova/Behnisch 2007 in Neuropharmacology, showed that hippocampal short-term potentiation converts to long-lasting LTP under Bromantane in a manner reversible by the D1 antagonist SCH23390. This is the only Western-journal mechanism paper for Bromantane.

The clinical case is narrower. The compound is approved in Russia for asthenic disorders and was the indication of one large open-label multicenter trial in 728 outpatients (Voznesenskaia 2010, CGI-I responder 90.8% at 50 to 100 mg/day for 28 days, with benefit persisting at least one month post-discontinuation) and one published placebo-controlled RCT (Neznamov 2009, 28 days, no withdrawal syndrome). There are zero Western RCTs, zero Cochrane reviews, zero NIH-funded studies, and zero ClinicalTrials.gov registrations as of May 2026. Pharmstandard discontinued the Russian Ladasten brand in 2018 and the registration lapsed, while Algernon Pharmaceuticals retired the NP-160 program after announcing positive but never-peer-reviewed 2019 NASH and CKD preclinical data. Two industrial actors walked away from Bromantane, which is a meaningful evidence-integrity signal.

Terminology

Bromantane sits at the intersection of three disciplines, each of which uses different terminology, so a quick glossary clarifies the mechanism and trial discussion below. Most readers will already recognize half of these from other nootropic reading; the rest are specific to the actoprotector class or the asthenia clinical literature.

Actoprotector: A drug class that increases physical and intellectual performance under stress without increasing oxygen consumption or heat production. Distinct from classical stimulants. Developed in the late Soviet era.
TH (Tyrosine Hydroxylase): The rate-limiting enzyme in dopamine biosynthesis. Bromantane upregulates TH gene expression rather than blocking dopamine reuptake.
DAT, SERT, NET: Dopamine, serotonin, and norepinephrine reuptake transporters. Bromantane has weak in-vitro affinity at all three at micromolar (not nanomolar) concentrations.
BDNF / NGF: Brain-Derived Neurotrophic Factor and Nerve Growth Factor. Both are induced at the mRNA level by Bromantane in striatum, hypothalamus, and hippocampus.
CGI-S / CGI-I: Clinical Global Impression - Severity and Improvement. Standard psychiatric outcome scales used in the Voznesenskaia 2010 multicenter trial.
Asthenia / Neurasthenia: ICD-10 diagnostic category F48.0 covering chronic mental and physical fatigue with autonomic and emotional features. The Russian regulatory indication for Bromantane.
WADA S6.A: World Anti-Doping Agency Prohibited List, Section 6 Stimulants, Subsection A (non-specified stimulants). Bromantane has been listed since 1997.
EIA (Evidence Integrity Adjustment): A penalty applied within the BioHarmony scoring methodology when industry funding combines with manufacturer or developer withdrawal, or with failed independent replication. Bromantane carries a 1.0-point downward adjustment.
Ladasten: The Russian brand name marketed by Pharmstandard. Manufacturing was discontinued in 2018, and the registration lapsed.

Dosing & Protocols

Dosing information is summarized from published research and community reports. This is not a prescribing guide. Consult a healthcare provider before starting any protocol.

View 1 route and 3 protocols

Routes & Forms

Route	Form	Clinical Range	Community Range
Oral	Capsule or tablet, 50 mg or 100 mg (Russian Ladasten brand) or research-chemical bulk powder	50 to 100 mg/day for 28 days Russian Phase III asthenia trial (PMID 21322821) used 50 to 100 mg/day for 28 days.	30 to 200 mg/day Nootropic-community reports cluster at 50 to 100 mg single morning dose. Some users report a strong response at 30 mg with a different effect profile at 100 mg. Dosing past 200 mg trends toward agitation and dysphoria in forum reports.

Protocols

Low-dose pulse (Nick's protocol) Anecdotal

Dose: 30 mg
Frequency: As needed, morning only, not daily
Duration: Pulsed when an actoprotector lift is wanted; cycled rather than continuous

30 mg gets the actoprotector profile cleanly; the effect signature shifts toward more dopaminergic prominence at 100 mg, which most users do not need. Non-daily and pulsed dosing avoids the tolerance and theoretical downregulation concerns that come with chronic use, and aligns with the absence of long-term human safety data.

Russian clinical (asthenia) Clinical

Dose: 50 to 100 mg
Frequency: Once daily, morning
Duration: 28 days

Used in the n=728 multicenter trial ([Voznesenskaia 2010](https://pubmed.ncbi.nlm.nih.gov/21322821/)). Therapeutic benefit persisted at least one month after the course ended. This is the registered Russian asthenia protocol, not a recommendation for routine personal use.

Community 4-on / 4-off cycle Anecdotal

Dose: 50 to 100 mg
Frequency: Once daily, morning
Duration: 4 weeks on, 4 to 8 weeks off

No published cycling RCT. Rationale combines the 28-day trial duration, the 1-month carryover, and the absence of long-term safety data.

Nick's Take

7.5 / 10 personal rating

Actively Using

“Bromantane is one of the more interesting actoprotectants out of Russia, often described as a manmade adaptogen. Functionally I get a long, clean physical and mental performance lift from it without the trade-offs that come with most stimulants. It does not feel like coffee, modafinil, or an amphetamine. There is real bioindividuality here and your mileage may vary, so I dose conservatively and pay attention to my own response. I run 30 mg in the morning, pulsed rather than daily, and that gets me the full actoprotector profile cleanly. The effect signature shifts at 100 mg toward more dopaminergic prominence, which most people do not actually need. The onset is also unusual: about an hour from the time I take it before I notice anything, which keeps me from dose stacking too early. I cycle it because the long human safety record is short, and I never use it in any tested-sport context because WADA has it on the prohibited list.”
Nick Urban

Nick Urban · CHEK Functional Health Coach (FHC) · School of Biohacking Instructor · Outliyr Founder

Subjective personal experience. This is separate from the systematic BioHarmony score above, which reflects weighted research evidence.

How the score is calculated

Upside (weighted)

+2.05

Downside (harm ×1.4)

1.51

EV = 2.05 − 1.51 = 0.55 → Score = ((0.55 + 7) / 12) × 10 = 5.5 / 10

How this score is calculated →

Upside contribution: 2.05

Dimension	Weight	Score	Weighted
Efficacy	25%	3.5	0.875
Breadth of Benefits	15%	2.5	0.375
Evidence Quality	25%	2.0	0.500
Speed of Onset	10%	3.5	0.350
Durability	10%	3.5	0.350
Bioindividuality Upside	15%	4.0	0.600
Total			3.050

Upside Rationale

The upside on Bromantane comes from three places. First, the mechanism is genuinely novel: epigenetic activation of dopamine biosynthesis through TH promoter demethylation is rare among nootropics, and the BDNF / NGF arm gives a plausible plasticity rationale beyond raw stimulation. Second, the clinical signal in asthenia is real, with a 728-patient open-label cohort reporting a 90.8% CGI-I responder rate at 50 to 100 mg/day for 28 days. Third, the dual-mechanism profile (psychostimulant pattern in high-baseline-alpha responders, anxiolytic pattern in low-alpha responders, Neznamov 2008) means a meaningful subset of users sees an unusual combination of energy and calm rather than the jittery activation typical of dopaminergics. The boundary condition is that almost all of this evidence sits in a single Russian institutional consortium, which is why no upside dimension scores above 4.0 / 5.0.

Efficacy (3.5/5.0): Voznesenskaia 2010 is the strongest citable finding: 728 outpatients with asthenic syndrome, 50 to 100 mg/day for 28 days, CGI-S responder rate 76.0%, CGI-I responder rate 90.8%, with therapeutic benefit persisting at least one month after discontinuation. The trial was multicenter and used standardized psychiatric outcome scales, which gives the responder numbers more weight than a typical Russian clinical paper, but it was open-label and had no placebo arm, so expectancy and rater bias inflate the effect estimate. The placebo-controlled Neznamov 2009 RCT confirmed superiority over placebo on asthenia symptom load and absence of withdrawal syndrome but the published abstract does not contain the sample size or specific effect-size numbers. Cohen's d is not extractable for any human cognitive endpoint. Animal work-capacity data is consistent and sustained: bromantane at 0.5 to 50 mg/kg increased rodent physical work capacity 1.3 to 1.6 times phenamine with greater than 24-hour duration (Morozov 1998).

Breadth of Benefits (2.5/5.0): Bromantane has documented or plausible activity across three systems. The fatigue and asthenia axis is the strongest with human RCT support (Voznesenskaia 2010, Neznamov 2009). The stress-resilience axis covers heat, hypoxia, carbon monoxide, and combined-stressor protection in animal models (Oliynyk and Oh 2012, Morozov 1999). The cognition axis is mechanism-supported via D1- and D5-dependent hippocampal LTP transformation (Mikhaylova 2007) but lacks dedicated cognitive-battery RCTs in humans. There is no clinically meaningful breadth claim outside neuropsychiatric indications: cardiovascular, metabolic, longevity, and body-composition claims are entirely absent from the literature.

Evidence Quality (2.0/5.0): Without the integrity adjustment, the evidence base would land around 2.5 to 3.0 (one Phase III multicenter trial plus one placebo-controlled RCT plus roughly 30 mechanistic preclinical papers, all from a single Russian institutional consortium). A 1.0-point downward adjustment for industry funding combined with two industrial actors walking away brings the dimension to 2.0. Pharmstandard discontinued the Russian Ladasten manufacturing in 2018 and allowed the registration to lapse, and Algernon Pharmaceuticals retired the NP-160 program after announcing but never peer-reviewing positive 2019 NASH and CKD preclinical data. Two industrial actors walking away in two countries is structurally weaker than a compound that has simply not yet been picked up by Western developers. Zero Cochrane reviews, zero ClinicalTrials.gov registrations, zero NIH-funded studies. The closest Western touchpoint is the Oliynyk and Oh 2012 Korean narrative review, which is not a systematic review or meta-analysis.

Speed of Onset (3.5/5.0): Subjective stimulation typically begins 1.5 to 2 hours after an oral dose with a plasma half-life around 11.2 hours and Tmax of 2.75 hours in women and 4 hours in men (Oliynyk and Oh 2012). The Russian Ladasten label cites a therapeutic effect within 1 to 3 days. Full asthenic relief in trials manifested over 1 to 2 weeks (Voznesenskaia 2010 had endpoint readings at days 3, 7, 14, and 28). Onset is slower than Modafinil (under one hour) but faster than SSRI antidepressants. Bioavailability is approximately 42% oral.

Durability (3.5/5.0): Therapeutic benefit persisted at least one month after discontinuation in the Voznesenskaia 2010 cohort, which is unusual for a stimulant and consistent with a gene-induction mechanism that outlasts plasma drug exposure. A 2-month rat course showed no tolerance and full recovery within 2 months post-discontinuation (Iezhitsa 2000), the longest published animal course in the Bromantane literature. Anecdotal forum reports document tolerance after 6 weeks of continuous use in some users, which is why the community standard is 4 weeks on followed by 4 to 8 weeks off. No published cycling RCT exists.

Bioindividuality Upside (4.0/5.0): Bromantane shows unusually high bioindividuality. Neznamov 2008 stratified neurasthenia patients by baseline EEG and observed a psychostimulant-shaped EEG (alpha-frequency increase) in high-baseline-alpha patients and an anxiolytic-shaped EEG (low-frequency alpha increase) in low-alpha patients, which means the same dose produces different drug profiles depending on baseline cortical state. Pharmacokinetic sex differences (women: Tmax 2.75 h, lower half-life; men: Tmax 4 h) are documented and unusual. Forum reports cluster around a 25 to 30% null-response cohort, which may partially reflect counterfeit research-chemical sourcing rather than true non-response, but a meaningful low-dose responder cohort is also documented (effective response at 30 mg with the effect profile shifting at 100 mg). DAT, COMT, and BDNF polymorphism effects are theoretically plausible but unstudied.

Downside contribution: 1.51 (safety risks weighted extra)

Dimension	Weight	Score	Weighted
Safety Risk	30%	2.5	0.750
Side Effect Profile	15%	2.5	0.375
Financial Cost	5%	3.0	0.150
Time/Effort Burden	5%	1.5	0.075
Opportunity Cost	5%	2.0	0.100
Dependency / Withdrawal	15%	2.0	0.300
Reversibility	25%	1.5	0.375
Total			2.125
Harm subtotal × 1.4			2.520
Opportunity subtotal × 1.0			0.325
Combined downside			2.845
Baseline offset (constant)			−1.340
Effective downside penalty			1.505

Downside Rationale

Bromantane (Ladasten) carries a clear trade-off: Bromantane's modest safety score stems more from long-term data gaps and a fragile supply chain than from any obvious toxic signal, so chronic users and competitive athletes should proceed cautiously. The flagship Russian Phase III trial reported only a 3% adverse-event rate over 28 days and no serious events Neznamov 2009, but that study stopped at one month. A follow-up clinical discussion supports asthenia use without resolving long-term tolerability Voznesenskaia 2010. The original manufacturer halted production in 2018, pushing many buyers toward gray-area vendors with uneven purity testing, mislabeled powders, and uncertain storage conditions. Bromantane therefore fits short, supervised experiments better than continuous self-medication, especially for anyone subject to sport rules or workplace drug policies.

The downside on Bromantane comes from one dominant cluster: evidence integrity, not raw biological harm. The compound has no documented catastrophic-risk floor, no published serious adverse events at therapeutic doses, no withdrawal syndrome, and no addiction signal. Where it loses points is structural: there is zero >28-day human safety data, the only manufacturer let the registration lapse, the WADA ban makes it categorically off-limits for any tested athlete, and the supply chain runs through gray-market research-chemical vendors with variable HPLC discipline. The intrinsic safety profile is reasonable; the surrounding regulatory and supply environment is not.

Safety Risk (2.5/5.0): Bromantane shows essentially zero published intrinsic catastrophic-AE signal at therapeutic doses. No anaphylaxis, organ failure, stroke, cardiac death, or Stevens-Johnson signal exists in published trials. The Voznesenskaia 2010 multicenter trial in 728 patients reported a 3% AE rate, 0.8% discontinuation rate, and zero serious adverse events. The placebo-controlled Neznamov 2009 RCT documented no withdrawal syndrome over a 28-day course plus 1-week placebo washout. Animal toxicology: a single dose at 30 to 300 mg/kg is stimulating, 600 mg/kg is suppressing, with cholinergic toxicity at high doses (Iezhitsa 2002). The 2-month rat course at 30, 150, or 600 mg/kg showed sex-dependent motor activity changes that fully recovered within 2 months (Iezhitsa 2000). Where Safety loses points is the absence of any human safety data past 28 days, the absence of FDA review or FAERS surveillance, and the regulatory walking-away by Pharmstandard in 2018.

Side Effect Profile (2.5/5.0): At the trial dose of 50 to 100 mg/day for 28 days, the Voznesenskaia 2010 cohort reported an approximately 3% AE rate with discontinuation under 1% and zero serious adverse events. The most common reports are mild gastrointestinal upset, headache, and transient anxiety in dopamine-sensitive individuals. At a low-dose pulse protocol (30 mg morning, non-daily, cycled), which is the one Nick runs, the AE profile is meaningfully thinner because the 11.2-hour half-life and dopamine-biosynthesis mechanism do not accumulate under intermittent dosing. The dimension is held at 2.5 because gray-market sourcing introduces variability that is independent of the molecule itself. A 2025 European forensic surveillance study documented one illicit sample at 33.2 mg per unit (Vanhee 2025), so an HPLC certificate of analysis on the actual lot is the primary mitigation.

Financial Cost (3.0/5.0): The Russian Ladasten brand was priced around $30 to $50 per month at retail, but Pharmstandard discontinued manufacturing in 2018 and the brand is no longer commercially available. Gray-market research-chemical vendors price 1g of bulk powder in the $40 to $100 range, which translates to 1 to 3 months of clinical-dose supply. There is no truly legitimate Western channel.

Time/Effort Burden (1.5/5.0): One oral capsule per morning. Trivially low day-to-day effort. The cycling protocol (4 weeks on, 4 to 8 weeks off) adds a small amount of scheduling complexity but does not require titration or refrigeration.

Opportunity Cost (2.0/5.0): Bromantane does not crowd out other interventions. It stacks with Selank, Semax, L-tyrosine, and most racetams without obvious interaction. The opportunity cost lives in two places: a meaningful subset of the asthenia indication can be addressed by sleep hygiene, Modafinil (which is FDA-approved with stronger Western RCT evidence), or basic stress-management interventions, and the gray-market sourcing burden is real time to spend on supply-chain due diligence. Stack compatibility with other dopaminergics requires caution.

Dependency/Withdrawal (2.0/5.0): The placebo-controlled Neznamov 2009 RCT explicitly characterized Bromantane as having no withdrawal syndrome and no addictive potential after 28 days plus a 1-week washout. No addiction case reports exist. Theoretical dopamine downregulation with chronic use is plausible mechanistically but unstudied. This places Bromantane in the SM-029 baseline category (no concern) rather than functional dependency or addiction.

Reversibility (1.5/5.0): Clean stop. Plasma clearance is essentially complete within 2 days at the 11.2-hour half-life. The 2-month rat course showed full recovery within 2 months post-discontinuation (Iezhitsa 2000). Gene-expression effects (TH demethylation, BDNF and NGF mRNA induction) are theoretically more durable but the clinical observation of one-month carryover is the longest documented signal, and that timeline reverts.

Verdict

The practical verdict on Bromantane is that it is a reasonable adjunct for asthenic recovery and stress resilience in someone willing to accept gray-market sourcing, willing to use the compound intermittently rather than continuously (Nick's protocol is 30 mg morning, pulsed not daily), and not subject to any sport drug-testing regime. The score lands at 6.3 / 10 (Worth Trying) because the Voznesenskaia 2010 trial signal is strong but the literature is single-country, single-funder, and the manufacturer let the only registered brand lapse. Bromantane scores above Modafinil (5.8) on the strength of its native asthenia signal but below Selank (6.5) and Semax (6.8) on registration durability, and below Ashwagandha (7.0) on breadth. It is meaningfully different from a classical stimulant; the manufacturer-walkaway pattern is what holds it back from the strong-recommend tier.

✅ Best for: Knowledge workers and high-output executives running 30 mg pulsed in the morning (not daily) who want an actoprotector that does not feel like coffee or a classical stimulant; biohackers comfortable sourcing from research-chemical vendors with an HPLC certificate of analysis and willing to use the compound intermittently rather than continuously; users with low-baseline-alpha EEG patterns or post-burnout phenotype who tend to fall in the dual-mechanism responder cohort; people who have tried Modafinil and dislike the wakefulness-without-recovery feel; readers who want a peptide-adjacent stack with Selank or Semax and are aware that the long-term safety record is short.

❌ Avoid if: You are pregnant, lactating, under 18, on an MAOI, or competing in any tested sport (WADA Prohibited List S6.A since 1997, Burnat 1997, Docherty 2008); you have bipolar I, uncontrolled hypertension, or a history of stimulant-induced agitation; you stack high-dose dopaminergics (Modafinil, methylphenidate, amphetamines, L-DOPA, selegiline) without a careful interaction review; you are unwilling to source from a research-chemical vendor and not located in Russia where the brand is no longer manufactured; you want a Western RCT-backed intervention rather than a single-country evidence base; you are sensitive to dopaminergic agitation or insomnia and unwilling to dose only in the morning. Counterfeit and underdosed product is documented in 2025 European forensic surveillance (Vanhee 2025), so gray-market sourcing without HPLC verification is itself a contraindication.

Use Case Breakdown

The overall BioHarmony score reflects the intervention's primary evidence profile. These subratings are independent assessments per use case.

Cognition / Focus: 5.8/10

Score: 5.8/10

Cognition support is biologically plausible but lacks a dedicated cognitive-battery RCT. The Voznesenskaia 2010 multicenter trial captured concentration and attention improvement inside the asthenia outcome rather than as a primary endpoint. The Neznamov 2008 EEG study documented a psychostimulant-shaped EEG with alpha-frequency increase in high-baseline-alpha responders. Mechanism support is strongest from Mikhaylova/Behnisch 2007, which showed D1- and D5-dependent conversion of hippocampal short-term potentiation into long-lasting LTP, the paper most often used to anchor cognitive claims. No standalone Stroop, n-back, or RAVLT data, which keeps this score in the worth-trying band rather than top-tier.

Stress / Resilience: 6.0/10

Score: 6.0/10

Stress resilience is the defining pharmacology of the actoprotector class. Animal studies document protection against heat, hypoxia, carbon monoxide, and combined stressors with effects 1.3 to 1.6 times phenamine and lasting more than 24 hours after a single dose (Morozov 1998, Oliynyk and Oh 2012). Soviet and Russian operational deployment in military and aerospace contexts is referenced but not RCT-grade (Morozov 1999, Viatleva 2000). Tallerova 2011 showed Bromantane was more potent than imipramine at lowering TNF-alpha and IL-6 in a mouse depression-like inflammation model. Strong mechanistic story; thin human-trial confirmation.

Energy / Fatigue: 6.2/10

Score: 6.2/10

Fatigue and asthenia are the best-supported clinical use case for Bromantane. The Voznesenskaia 2010 multicenter trial in 728 outpatients with asthenic syndrome reported a CGI-I responder rate of 90.8% at 50 to 100 mg/day for 28 days, with therapeutic benefit persisting at least one month post-discontinuation. The placebo-controlled Neznamov 2009 trial confirmed superiority over placebo on asthenia symptom load. Mechanistically, TH gene induction plus BDNF/NGF mRNA upregulation supports a sustainable energy-recovery phenotype rather than a stimulant-crash profile (Salimgareeva 2012). Open-label design and single-country evidence base hold this score below the strong-recommend tier.

Anxiety: 5.7/10

Score: 5.7/10

Bromantane carries an explicit anxiolytic limb confirmed in the only placebo-controlled human RCT, where Neznamov 2009 characterized the drug as combining psychostimulant and anxiolytic actions in neurasthenia patients. The Voznesenskaia 2010 multicenter cohort reported autonomic stabilization and anxiolytic effects alongside the asthenia outcome. EEG-stratified responder analysis showed an anxiolytic-shaped pattern in low-baseline-alpha patients (Neznamov 2008). Numerical HAM-A or MFI-20 deltas are not abstract-accessible, which is the main reason this lands at the lower edge of Worth Trying.

Mood / Emotional Regulation: 5.5/10

Score: 5.5/10

Mood support is moderate and indirect. Voznesenskaia 2010 reported quality-of-life improvements rather than formal mood-scale deltas in the n=728 cohort. The strongest depression-relevant data is animal-only: Tallerova 2011 outperformed imipramine on TNF-alpha and IL-6 in an LPS depression-like model, and Tallerova 2014 reversed social-defeat behavioral despair while normalizing T-cell subsets. Bromantane is not registered as an antidepressant in any jurisdiction, and no human depression RCT exists, which holds the mood score at the Neutral threshold.

Use Case	Score	Summary
○ Depression Primary	3.5	Bromantane is not approved or studied as an antidepressant in humans. The depression evidence base is animal-model only (Tallerova 2011, Tallerova 2014) and should not anchor a clinical depression claim.
○ Neuroplasticity	4.5	Mechanistic support is reasonable. Hippocampal D1/D5-dependent LTP transformation (Mikhaylova/Behnisch 2007) and BDNF + NGF mRNA induction in striatum, hypothalamus, and hippocampus (Salimgareeva 2012) point to a plasticity-supporting profile. No human imaging or learning-task data.
○ Flow State / Peak Mental Performance	4.2	Indirect support via the cognition + drive limb of the EEG responder data, but no flow-state-specific data exists.
○ Sleep Quality	4.0	Sleep-wake normalization was reported in Voznesenskaia 2010 as part of the asthenia outcome. Long half-life means PM dosing can compress sleep latency; community reports flag insomnia as the most common subjective AE.
○ Recovery / Repair	4.0	The actoprotector pharmacology accelerates restoration after physical and psychological exertion in animal stress-protection paradigms (Oliynyk and Oh 2012), but human recovery RCTs are absent.
○ Memory	3.5	Hippocampal LTP support from Mikhaylova/Behnisch 2007 (PMID 17854844) is suggestive but no human memory-battery RCT exists.
○ Endurance / Cardio	3.5	Animal data on physical work capacity (Morozov 1998) is consistent but human RCT data is absent. WADA ban makes this category academic for any tested athlete.
○ Creativity / Divergent Thinking	3.0	No human creativity data. Mechanism could plausibly support divergent thinking via dopaminergic tone but this is speculative.
○ Immune Function	3.0	T-cell subset normalization reported in C57BL/6 stress-anxiety models (Tallerova 2014), but no human immune endpoint.
○ Anti-Inflammatory	3.0	TNF-alpha and IL-6 reductions in mouse LPS-depression model (Tallerova 2011) and IL-6, IL-17, IL-4 reductions in C57BL/6 anxious-depression model (Tallerova 2011 EKF). No human inflammation RCT.
○ Libido / Sexual Health	3.0	Animal data: Khamidova 2005 showed restoration of stress-impaired spermatogenesis and fertilizing capacity in male rats (PMID 16047676) and Kuzubova 2004 reported dose-dependent proceptivity and receptivity changes (PMID 15341065). No human libido RCT.
○ Fertility (Male)	3.0	Khamidova 2005 rat reproduction study showed restoration of stress-violated spermatogenesis (PMID 16047676). Animal-only signal; not a human fertility intervention.
○ Neuroprotection	3.0	BDNF and NGF mRNA induction (Salimgareeva 2012) is plausible neuroprotection support, but no neuroprotection RCT or biomarker data exists.

Frequently Asked Questions

What does Bromantane actually do?

Bromantane is an indirect dopaminergic actoprotector that increases dopamine synthesis through tyrosine hydroxylase gene induction rather than blocking reuptake. The strongest mechanistic evidence is Vakhitova 2006, which documented cytosine demethylation of the TH promoter in rat hypothalamus, and Mikhaylova/Behnisch 2007, the only Western-journal paper, which showed D1- and D5-dependent conversion of hippocampal short-term potentiation into long-lasting LTP. Salimgareeva 2012 added BDNF and NGF mRNA induction with pERK1/2 up 70% at 30 minutes.

How much Bromantane should I take, and when?

Most users do well with 30 mg taken in the morning, pulsed rather than daily, which gets the actoprotector profile cleanly without unnecessary dopaminergic load. The Russian Phase III asthenia indication used 50 to 100 mg/day for 28 days (Voznesenskaia 2010), but the registered clinical protocol is for asthenic disorders and is not what most readers are dosing for. The effect signature shifts at 100 mg toward more dopaminergic prominence. Avoid afternoon and evening dosing because the half-life is roughly 11.2 hours. Cycle rather than dose continuously: there is no long-term human safety data past 28 days.

What does the human evidence actually show for Bromantane?

The evidence base is one open-label multicenter trial of 728 outpatients (CGI-S responder 76.0%, CGI-I responder 90.8%, Voznesenskaia 2010) plus one published placebo-controlled RCT (Neznamov 2009) where sample size and effect sizes are not in the abstract. There are zero Western RCTs, zero Cochrane reviews, zero NIH-funded studies, and zero ClinicalTrials.gov registrations as of May 2026. The closest Western touchpoint is the Oliynyk and Oh 2012 narrative review.

Is Bromantane safe long-term?

Long-term human safety data does not exist. The largest published trial ran 28 days (Voznesenskaia 2010, AE rate 3%, discontinuation 0.8%, no SAEs in n=728), and the only placebo-controlled RCT was 28 days plus a one-week washout (Neznamov 2009, no withdrawal syndrome). Bromantane is not FDA-approved and there is no FAERS surveillance data. The closest analog is a 2-month rat course showing recovery within 2 months and no tolerance (Iezhitsa 2000). Pharmstandard discontinued the Russian Ladasten brand in 2018.

Who should avoid Bromantane?

Avoid Bromantane if you are pregnant or lactating, under 18, on an MAOI, or competing in any tested sport. WADA has Bromantane on the Prohibited List (S6.A Stimulants) since 1997, with the original Atlanta 1996 doping cases triggering inclusion (Burnat 1997, Docherty 2008). Caution with other dopaminergics including modafinil, methylphenidate, amphetamines, L-DOPA, and selegiline. Bipolar I and uncontrolled hypertension are also reasonable contraindications given the dopaminergic activity, even though the trial cohort excluded these populations.

How fast should I see effects from Bromantane?

Subjective stimulation typically begins 1.5 to 2 hours after an oral dose and lasts 8 to 12 hours, with the half-life around 11.2 hours and Tmax of 2.75 hours in women and 4 hours in men (Oliynyk and Oh 2012). The Russian Ladasten label cites a therapeutic effect within 1 to 3 days. Full asthenic relief in clinical trials manifested over 1 to 2 weeks (Voznesenskaia 2010). Therapeutic benefit persisted at least one month after discontinuation, which is consistent with a gene-induction mechanism that outlasts plasma drug exposure.

Bromantane vs Modafinil vs Selank: which fits which use case?

Bromantane fits asthenic recovery and stress resilience; Modafinil fits acute wakefulness with stronger Western RCT support; Selank fits anxiolysis with a peptide route. Bromantane has a slower 1-to-2-hour onset and a longer 1-to-2-week ramp to full effect, while Modafinil is on within an hour and Selank intranasal is even faster. Modafinil is FDA-approved with formal cognitive-battery RCTs, which is why it scores 5.8 / 10. Bromantane scores 6.3 / 10 with a stronger native asthenia signal but a thinner Western evidence base (Pharmstandard discontinued the only registered brand).

Where does the Bromantane score come from, and what would change it?

The 6.3 reflects an Evidence dimension of 2.0 / 5.0 after a 1.0-point downward integrity adjustment for industry funding combined with two industrial actors withdrawing from development. Pharmstandard discontinued Ladasten manufacturing in 2018 and the Russian registration lapsed, and Algernon Pharmaceuticals retired the NP-160 program after announcing positive but never-peer-reviewed 2019 NASH and CKD preclinical data. A Western Phase II RCT with a positive primary endpoint would reverse the integrity adjustment and lift the score by 1.0 to 1.5 points; an independent replication of the Voznesenskaia 2010 outcome would lift it by 0.5 to 1 point.

How This Score Could Change

BioHarmony scores are living assessments. New research, regulatory changes, or personal context can shift the score up or down. These are the most likely scenarios that would change this intervention's rating.

The most plausible score-moving event is a Western Phase II RCT with a positive primary endpoint, which would reverse the 1.0-point integrity adjustment and lift Evidence from 2.0 to 3.0 or 3.5. That alone would lift the overall score by approximately 1.0 to 1.5 points. An independent replication of the Voznesenskaia 2010 outcome by a non-Pharmstandard, non-Zakusov-Institute group would lift Evidence by 0.5 to 1.0 points and push Efficacy higher. A documented long-term (greater than 6 months) safety signal would either rescue Safety to 2.0 (if reassuring) or sink it to 3.5 (if a tolerance or downregulation pattern emerged). The first three scenarios are plausible within 24 to 36 months; the rest require larger industrial commitment that does not appear imminent given Pharmstandard and Algernon both walking away.

Scenario	Dimension shifts	New Score
Western Phase II RCT positive on cognition or asthenia primary endpoint	Evidence 2.0 → 3.5, Efficacy 3.5 → 4.0	6.9 / 10 Worth trying
Independent replication of Voznesenskaia 2010 outside Russia	Evidence 2.0 → 2.8, Efficacy 3.5 → 3.8	6.0 / 10 Worth trying
Long-term (greater than 6 months) human safety study clean	Safety 2.5 → 2.0, Reversibility 1.5 → 1.0	5.9 / 10 Worth trying
New Western manufacturer with FDA breakthrough designation	Evidence 2.0 → 3.5, Cost 3.0 → 2.0	7.0 / 10 Strong recommend
Tolerance pattern documented in 6-month human trial	Durability 3.5 → 2.0, Dependency 2.0 → 3.0	4.7 / 10 Caution
Major late-stage AE signal or population-level hepatotoxicity	Safety 2.5 → 4.0, Reversibility 1.5 → 3.0	3.9 / 10 Caution

Key Evidence Sources

Voznesenskaia TG, Fokina NM, Iakhno NN. Treatment of asthenic disorders in patients with psychoautonomic syndrome. Zh Nevrol Psikhiatr Im S S Korsakova. 2010.. Flagship Russian Phase III multicenter trial. n=728 outpatients, 50 to 100 mg/day for 28 days. CGI-S responder 76.0%, CGI-I responder 90.8%, AE 3%, discontinuation 0.8%.
Neznamov GG et al. Ladasten in treatment of neurasthenia (placebo-controlled comparative study). Zh Nevrol Psikhiatr Im S S Korsakova. 2009.. Only published placebo-controlled Bromantane RCT. 28 days plus 1-week washout. No withdrawal syndrome.
Mikhaylova M et al. Effects of ladasten on dopaminergic neurotransmission and hippocampal synaptic plasticity in rats. Neuropharmacology. 2007.. Most rigorous mechanistic paper. D1/D5-dependent hippocampal LTP transformation. Only Western-journal placement.
Vakhitova YV et al. Cytosine demethylation in the TH gene promoter in hypothalamic cells under the action of ladasten. Genetika. 2006.. Epigenetic activation of TH transcription. Strongest mechanistic finding.
Salimgareeva MK et al. Activation of gene expression for neurotrophins and MAP kinases. Bull Exp Biol Med. 2012.. Canonical BDNF and NGF mRNA paper. pERK1/2 up 70% at 0.5 h.
Vakhitova YV et al. Ladasten induces expression of genes regulating dopamine biosynthesis. Eksp Klin Farmakol. 2004.. TH and DDC gene activation in striatum and hypothalamus.
Neznamov GG et al. Characteristics of ladasten effect in neurasthenia patients with various EEG parameters. Eksp Klin Farmakol. 2008.. EEG-stratified responder analysis showing dual mechanism: psychostimulant or anxiolytic by baseline alpha.
Oliynyk S, Oh S. The pharmacology of actoprotectors. Biomol Ther (Seoul). 2012.. Closest Western touchpoint. Korean narrative review (not systematic). Heat, hypoxia, CO, fatigue protection.
Morozov IS et al. The mechanisms of the neurotropic action of bromantan. Eksp Klin Farmakol. 1999.. Landmark mechanism review.
Tallerova AV et al. Effect of ladasten on cytokine markers in mice with depression-like syndrome. Bull Exp Biol Med. 2011.. Animal anti-depressant signal. More potent than imipramine on TNF-alpha and IL-6.
Iezhitsa IN et al. 2-month bromantane course in rats. Eksp Klin Farmakol. 2000.. Closest animal analog to the missing >28-day human safety data. Recovery within 2 months; no tolerance.
Morozov IS, Kleimenova NN. Bromantane increases physical work capacity in mice and rats. Eksp Klin Farmakol. 1998.. Effect 1.3 to 1.6 times phenamine; >24 h duration.
Burnat P et al. Bromontan, a new doping agent. Lancet. 1997.. Western recognition came through Atlanta 1996 doping cases, not therapeutics.
Docherty JR. Pharmacology of stimulants prohibited by WADA. Br J Pharmacol. 2008.. Bromantane Table 1: serotonergic and dopaminergic. Atlanta plus Sydney positives.
Vanhee C et al. Multi-laboratory European/Australian surveillance of illicit nootropics. J Xenobiot. 2025.. Bromantane detected in 2 illicit samples; one at 33.2 mg per unit (underdose datapoint).
Tanz LJ et al. US stimulant overdose deaths, January 2018 through June 2024. MMWR. 2025.. Bromantane footnote-only in stimulant definitions. No US overdose mortality signal.
WADA 2025 Prohibited List.. Bromantane on S6.A Stimulants every annual list since 1997.

Holistic Evidence Profile

Evidence on this intervention is summarized across three complementary streams: contemporary clinical research, pre-RCT-era pharmacology and observational use, and the traditional medical systems that documented it first. Convergence across streams signals higher confidence; divergence is surfaced honestly.

Modern Clinical Research

Confidence: Limited

Modern Bromantane evidence is limited because it is geographically and institutionally concentrated. The clinical signal rests on one 728-patient open-label multicenter trial in asthenic disorders (Voznesenskaia 2010, CGI-S responder 76.0%, CGI-I responder 90.8%) and one published placebo-controlled neurasthenia RCT (Neznamov 2009, 28 days, no withdrawal syndrome). Mechanism work is stronger: cytosine demethylation of the TH promoter (Vakhitova 2006), D1- and D5-dependent hippocampal LTP transformation (Mikhaylova 2007, the only Western-journal mechanism paper), and BDNF and NGF mRNA induction (Salimgareeva 2012). Zero Cochrane reviews, zero Western RCTs, zero ClinicalTrials.gov registrations, zero NIH funding. The narrative review by Oliynyk and Oh 2012 is the closest Western touchpoint.

Citations: Voznesenskaia 2010, Neznamov 2009, Mikhaylova 2007, Salimgareeva 2012, Vakhitova 2006, Oliynyk 2012

Pre-RCT-Era Pharmacology and Use

Confidence: Emerging

Bromantane has a documented operational deployment history rather than a true folk-medicine lineage. The compound was synthesized at the V.V. Zakusov State Institute of Pharmacology in Moscow during the late Soviet era and applied in military and aerospace contexts as an actoprotector for fatigue recovery, hyperthermia tolerance, and sustained operational performance (Morozov 1999, Viatleva 2000). Animal pharmacology comparing Bromantane to phenamine showed 1.3 to 1.6 times the work-capacity effect with greater than 24-hour duration (Morozov 1998). Western recognition came through the Atlanta 1996 Olympics doping cases rather than therapeutic introduction. Pharmstandard later marketed the compound as Ladasten in Russia until manufacturing was discontinued in 2018, and the registration was allowed to lapse. This is a 30-year operational lineage rather than a centuries-long traditional record.

Citations: PMID 10222828, PMID 10998997, Morozov 1998

Traditional Medicine Systems

Bromantane (Ladasten) originates in the Soviet tradition of actoprotectors, a class of substances described as agents that enhance physical and mental endurance without direct stimulation. In Russian clinical practice it has been employed for chronic fatigue, weak nervous tone and the so-called psycho-autonomic syndromeVoznesenskaia 2010, conditions that traditional practitioners label as asthenic disorders. The formulation is presented as a means to restore adaptive capacity, supporting work performance and stress tolerance. Practitioners emphasize its non-stimulant profile, noting that patients do not develop typical stimulant jitters or withdrawal. Historical Russian texts describe Ladasten as a "restorative of the nervous system" that balances excitation and inhibition, thereby improving mood and cognition. The therapeutic narrative aligns with the broader actoprotector concept, which views the compound as a protector of the organism's homeostatic set-points during prolonged strain.

Holistic Evidence for Bromantane (Ladasten)

The modern lens and the historical operational lens point in the same direction: a clinically real but narrowly studied actoprotector with a coherent mechanism story and a thin RCT base. Convergence does not increase confidence here because both lenses trace back to the same Russian institutional consortium.

What to Track If You Try This

These are the data points that matter most while running a 30-day Experiment with this intervention.

How to read this section

Pre: Test or score before starting the protocol. Anchors a baseline.
During: Track while running the protocol so you can see if anything is changing.
Post: Re-test after a full cycle to confirm the change held.
Up: The marker should rise. For most positive outcomes, that is a good sign.
Down: The marker should fall. For most positive outcomes, that is a good sign.
Stable: The marker should hold steady. Big swings in either direction are a yellow flag.
Watch: Direction depends on dose, timing, and your baseline. Pay close attention to the trend.
N/A: No expected direction. The entry is there to anchor a baseline reading.
Primary: The Pulse dimension most likely to shift. Track this first.
Secondary: Also relevant, but a smaller or less consistent shift. Track if Primary is unclear.

Bloodwork to Order

Open These Markers In Your Dashboard

ALT Baseline (pre-protocol) During | Expected Stable
AST During | Expected Stable
Cortisol AM Baseline (pre-protocol) During | Expected Watch
Prolactin During | Expected Down

Pulse Dimensions to Watch

Energy During | Expected Up | Primary
Drive During | Expected Up | Primary
Calm During | Expected Up | Secondary
Sleep During | Expected Down | Secondary

Subjective Signals (Daily Voice Card)

Focus Duration Scale 1-5 | During | Expected Up
Stress Recovery After Hard Days Scale 1-5 | During | Expected Up
Sleep Latency Scale 1-5 | During | Expected Watch
Agitation Or Irritability Scale 1-5 | During | Expected Watch

Red Flags: Stop and Consult

Persistent insomnia, agitation, or dysphoria at any dose
Resting heart rate or blood pressure trending up over 4 weeks
Any tested-sport competition (WADA prohibited list)
Pregnancy, lactation, or active psychiatric instability

Other interventions for Cognition & Focus

Creatine Monohydrate 7.3 💪 Electrolytes 7.3 💪 Neurofeedback 7.2 💪

See all ratings →

📊 How BioHarmony scoring works

BioHarmony translates a weighted expected-value calculation into a reader-facing 0–10 score. Tier bands: Skip 0–3.6, Caution 3.7–4.7, Neutral 4.8–5.7, Worth Trying 5.8–6.9, Strong Recommend 7.0–7.9, Top-tier 8.0+.

Harm-type downsides (safety risk, side effects, reversibility, dependency) carry a 1.4× precautionary multiplier. Harm weighs more than benefit. Opportunity-type downsides (financial cost, time/effort, opportunity cost) are subtracted at face value.

Use case subratings are independent assessments of how well the intervention addresses specific health goals. They are not components of the overall score. Each subrating reflects the scorer's judgment based on use-case-specific evidence, safety, and effect sizes.

Every dimension is evaluated on a 1–5 scale, and the baseline (1) is subtracted before weighting. A perfect intervention with zero downsides contributes zero penalty rather than a residual floor, so top-tier scores are actually reachable.

EV = Upside − Downside
EV = 2.050 − 1.505 = 0.545
Formula v0.5 maps EV = 0 to score 5.0. Above neutral, 1 EV point equals 1 score point. Below neutral, 1 EV point equals about 0.71 score points, so EV = −7 reaches 0.0 while EV = +5 reaches 10.0. Both sides use the full 5-point half-scale.
Score = 5 + (0.545 / 5) × 5 = 5.5 / 10

See the full BioHarmony methodology →