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Amfepramone
Clinical data
Trade namesTenuate, Tepanil, Nobesine, others
Other namesDiethylpropion, Diethylcathinone
AHFS/Drugs.comMonograph
MedlinePlusa682037
License data
Pregnancy
category
  • AU: B2
Routes of
administration		By mouth
ATC code
Legal status
Legal status
Pharmacokinetic data
Elimination half-life4–6 hours (metabolites)[7]
ExcretionUrine (>75%)[7]
Identifiers
  • (RS)-2-diethylamino-1-phenylpropan-1-one
CAS Number
PubChem CID
IUPHAR/BPS
DrugBank
ChemSpider
UNII
KEGG
ChEBI
ChEMBL
CompTox Dashboard (EPA)
ECHA InfoCard100.001.836 Edit this at Wikidata
Chemical and physical data
FormulaC13H19NO
Molar mass205.301 g·mol−1
3D model (JSmol)
ChiralityRacemic mixture
  • O=C(c1ccccc1)C(N(CC)CC)C
  • InChI=1S/C13H19NO/c1-4-14(5-2)11(3)13(15)12-9-7-6-8-10-12/h6-11H,4-5H2,1-3H3 checkY
  • Key:XXEPPPIWZFICOJ-UHFFFAOYSA-N checkY
 ☒NcheckY (what is this?)  (verify)

Amfepramone, also known as diethylpropion, is a stimulant drug of the phenethylamine, amphetamine, and cathinone classes that is used as an appetite suppressant.[8][9] It is used in the short-term management of obesity, along with dietary and lifestyle changes.[8] Amfepramone has a similar chemical structure to the antidepressant and smoking cessation aid bupropion (previously called amfebutamone), which has also been developed as a weight-loss medicine when in a combination product with naltrexone.[10]

Pharmacology

[edit]

Amfepramone itself lacks any affinity for the monoamine transporters and instead functions as a prodrug to ethcathinone.[11] Ethcathinone (and therefore amfepramone as well) is a very weak dopaminergic and serotonergic, and is approximately 10× and 20× stronger on norepinephrine in comparison, respectively.[11]

Chemistry

[edit]

Amfepramone can be synthesized from propiophenone by bromination, followed by reaction with diethylamine.[12][13]

Society and culture

[edit]

Names

[edit]

Another medically utilized name is diethylpropion (British Approved Name (BAN) and Australian Approved Name (AAN)). Chemical names include: α-methyl-β-keto-N,N-diethylphenethylamine, N,N-diethyl-β-ketoamphetamine and N,N-diethylcathinone. Brand names include: Anorex, Linea, Nobesine, Prefamone, Regenon, Tepanil and Tenuate.

[edit]

Amfepramone is classified as a Schedule IV controlled substance in the United States. In the UK amfepramone is a class C drug[14] and as a medicine, it is a Schedule 3 Controlled Drug which requires safe custody.

As of June 2022, the safety committee of the European Medicines Agency (EMA) recommends the withdrawal of marketing authorizations for amfepramone.[15][6]

Recreational use

[edit]

The authors of several studies of amfepramone claim that the substance has a relatively low potential for causing addiction in users.[16][17][4][18]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Amfepramone

View on Grokipedia
from Grokipedia
Amfepramone, also known as diethylpropion, is a synthetic sympathomimetic classified as a in the and chemical classes, employed as a short-term suppressant for management. It functions primarily by enhancing the release of norepinephrine in the , thereby suppressing through noradrenergic mechanisms akin to those of derivatives. Approved for adjunctive use with diet and exercise, it typically involves controlled-release formulations dosed once daily to minimize peak plasma concentrations and associated risks. Clinical evidence indicates amfepramone induces modest weight reduction, with studies reporting average losses of 5-10% body weight over 3-6 months in obese patients, though sustained diminishes post-discontinuation without lifestyle adherence. Common adverse effects encompass dry mouth, insomnia, nervousness, and gastrointestinal disturbances, while rarer but severe risks include , , and potential for abuse due to its properties and structural similarity to controlled substances like phentermine. Regulatory scrutiny has intensified, culminating in the European Medicines Agency's 2022 recommendation to withdraw authorizations owing to unfavorable risk-benefit profiles from dependency and cardiovascular events, contrasting with its continued Schedule IV status in the United States for limited prescribing. Pharmacogenetic variations influence metabolism via enzymes, contributing to interindividual differences in and .

Medical Use

Indications and Efficacy

Amfepramone, known generically as diethylpropion, is indicated as a short-term adjunct to a reduced-calorie diet and exercise regimen in the management of exogenous obesity for patients with an initial body mass index (BMI) of 30 kg/m² or greater (obesity class I or higher), or 27 kg/m² or greater in the presence of comorbidities such as hypertension, type 2 diabetes, or dyslipidemia. The U.S. Food and Drug Administration approved it on August 6, 1959, specifically for durations not exceeding 12 weeks due to limited evidence of sustained benefits beyond this period. It is prescribed for individuals who have failed to achieve adequate weight loss through dietary and lifestyle modifications alone, targeting appetite suppression to improve adherence to caloric restriction. Empirical evidence from randomized controlled trials supports modest efficacy in promoting . A and of 25 trials involving 1,965 patients found amfepramone monotherapy yielded a statistically significant mean weight reduction of 1.28 kg compared to in short-term use (less than 180 days; 95% CI not specified in pooled data, p < 0.05, low heterogeneity I² = 0%). Another of nine -controlled trials reported a pooled mean difference of 3.0 kg greater at six months (95% CI, -1.6 to 11.5 kg), with all participants receiving concurrent lifestyle interventions. These effects are attributed to enhanced patient compliance with diet and exercise protocols, particularly in those resistant to non-pharmacological approaches, though absolute losses remain small relative to baseline body weights (typically 2-5% over in qualifying studies). Limitations in efficacy are evident in the reliance on short-term data, with post-discontinuation weight regain observed in trial follow-ups, underscoring its role as a temporary aid rather than a standalone or long-term solution. No large-scale trials demonstrate superiority over placebo in maintaining weight loss beyond 12 weeks without ongoing therapy, aligning with guidelines emphasizing its use only when lifestyle interventions prove insufficient.

Dosage and Administration

Amfepramone is administered orally in immediate-release tablets of 25 mg, typically dosed three times daily, one hour before meals, with an optional additional dose in the mid-evening to suppress nighttime hunger. Alternatively, the controlled-release formulation of 75 mg is taken once daily in the midmorning, swallowed whole without crushing or chewing to maintain the extended-release properties. Dosing should commence at the lowest effective level, with adjustments based on individual response and tolerance, but total daily intake should not exceed 75 mg to minimize risks of adverse effects. Treatment duration is restricted to short-term use, generally a few weeks to a maximum of a few months, as prolonged administration leads to tolerance and diminished efficacy, per regulatory approvals such as those from the FDA for diethylpropion hydrochloride. Discontinuation is recommended if tolerance develops or if weight loss plateaus, with therapy integrated into a comprehensive regimen including calorie-restricted diet and increased physical activity. Prescribing is indicated for adults with obesity defined by a body mass index (BMI) of ≥30 kg/m² who have not responded to dietary measures alone, or BMI ≥27 kg/m² in the presence of weight-related comorbidities such as , , or . Prior to initiation, clinicians must conduct cardiovascular evaluations, including history, physical exam, and possibly ECG, excluding patients with uncontrolled , advanced arteriosclerosis, or history of drug abuse; ongoing monitoring for blood pressure, heart rate, and psychiatric symptoms is essential throughout use. Amfepramone is contraindicated in children under 16 years and not recommended during pregnancy or lactation due to potential fetal risks and excretion in breast milk.

Pharmacology

Pharmacodynamics

Amfepramone, chemically known as diethylpropion, is a sympathomimetic amine that primarily exerts its effects through its active metabolite, ethcathinone, following rapid metabolic conversion. This metabolite acts as a substrate-type releaser at monoamine transporters, promoting the efflux of norepinephrine (NE) and, to a lesser extent, dopamine (DA) from presynaptic neurons into the synaptic cleft by reversing transporter function. It also inhibits reuptake via the norepinephrine transporter (NET; SLC6A2) and dopamine transporter (DAT; SLC6A3), elevating extracellular catecholamine levels in the central nervous system, while exhibiting negligible activity at the serotonin transporter (SERT; SLC6A4). The central pharmacodynamic actions center on enhanced noradrenergic and dopaminergic signaling, which modulates hypothalamic appetite regulatory pathways, including suppression of neuropeptide Y and potential augmentation of leptin sensitivity, though direct causal links remain inferred from catecholamine dynamics rather than isolated receptor binding. Peripherally, amfepramone's sympathomimetic properties activate α- and β-adrenergic receptors, stimulating lipolysis in adipose tissue via hormone-sensitive lipase activation and inducing thermogenesis through β-adrenergic-mediated increases in metabolic rate. These effects distinguish it from stronger amphetamine analogs, as therapeutic doses produce minimal dopamine release relative to NE, correlating with reduced euphoric potential and lower abuse liability compared to Schedule II stimulants like dextroamphetamine.

Pharmacokinetics

Amfepramone is rapidly and readily absorbed from the gastrointestinal tract after oral administration, achieving peak plasma concentrations within 1 to 3 hours in human studies. In a pharmacokinetic study of healthy Mexican volunteers receiving a single 75 mg dose, mean maximum concentration (Cmax) was 7.04 ± 2.86 ng/mL, with area under the curve (AUC0-∞) of 36.59 ± 13.66 ng/mL·h, indicating variable but generally low systemic exposure consistent with first-pass . The drug crosses the blood-brain barrier and , and enters , facilitating effects and potential fetal or neonatal exposure. Distribution details are limited, but its lipophilic structure supports tissue penetration relevant to its action. Amfepramone undergoes extensive hepatic via N-dealkylation, reduction, and hydrolysis, yielding active metabolites such as () and aminoketones that contribute to pharmacological effects. This biotransformation likely involves enzymes, including and CYP3A5, with pharmacogenetic variability influencing clearance; for instance, certain ABCB1 and polymorphisms correlate with altered exposure in population studies. The parent compound's plasma is short, but active metabolites exhibit an elimination of 4 to 6 hours (up to 8 hours in some assays), supporting dosing intervals of 3 to 4 times daily for immediate-release formulations. Elimination is primarily renal, with 75% to 106% of the administered dose recovered in within 48 hours, predominantly as metabolites. Hepatic impairment may prolong effects due to reduced , while renal dysfunction could accumulate metabolites, though specific adjustment data from human trials are sparse. No significant effects on absorption have been consistently reported in available pharmacokinetic evaluations.

Chemistry

Chemical Structure and Properties

Amfepramone possesses the molecular formula C₁₃H₁₉NO and a molecular weight of 205.3 g/mol. Its systematic name is 2-(diethylamino)-1-phenylpropan-1-one, classifying it as a β-ketoamphetamine derivative characterized by a ketone group at the β-position relative to the diethylamino substituent on the propan-1-one chain attached to a phenyl ring. This core scaffold aligns it structurally with cathinones, which feature a β-keto group on an amphetamine backbone, while differing from ephedrine analogs that lack the ketone and incorporate a hydroxyl group instead. The hydrochloride salt of amfepramone manifests as a or creamy crystalline with a characteristic mildly aromatic . It exhibits high in (approximately 1 g per 0.6 mL) and , facilitating . The compound's logP value of approximately 2.8 reflects moderate , contributing to its ability to cross biological membranes. In comparison to analogs like fenproporex, a prohibited N-propylamphetamine without the β-keto moiety, amfepramone's functionality alters its metabolic profile and has influenced divergent regulatory treatments, with the former metabolized directly to and the latter undergoing distinct oxidative pathways. This structural variance underscores differences in pharmacological persistence and legal scheduling under analog controls.

Synthesis

Amfepramone is synthesized via of α-bromopropiophenone with , a route established in the original U.S. assigned to Temmler-Werke. The process involves heating 1145 g of α-bromopropiophenone with 850 g of on a water bath under with stirring, filtering the resulting hydrobromide precipitate, and washing it with . The filtrate is then acidified with aqueous HCl, basified, extracted with , and the solvent removed before of the crude base at 140°C under 6 mm Hg , followed by conversion to the salt using isopropanolic HCl for precipitation and purification. This yields approximately 800 g of the free base (about 70-75% based on starting material) and 750 g of the salt with a of 168°C. Subsequent preparation of α-bromopropiophenone, the key intermediate, proceeds from via α-bromination with in acetic acid or , typically at controlled temperatures to minimize polybromination, achieving good conversion suitable for industrial scaling. The overall process supports scalability, with and salt formation ensuring requisite purity for drug substance production. Modern variants optimize efficiency through one-pot protocols, such as in situ α-bromination of using N-bromosuccinimide (NBS) in followed by addition, which avoids isolation of the lachrymatory α-bromo intermediate and delivers amfepramone in excellent yields (often exceeding 80%). Alternative copper-mediated couplings of derivatives with precursors have also been reported, yielding racemic amfepramone in 80% isolated yield under mild conditions. These syntheses generate a at the α-carbon, reflecting the achiral precursors and non-stereoselective displacement on the secondary α-bromo center, with no inherent enantioselectivity in the standard routes.

Safety Profile

Adverse Effects

Common adverse effects of amfepramone include dry mouth, , , nervousness, , , and restlessness, which are attributed to its sympathomimetic properties and occur frequently during short-term use. In a double-blinded involving obese Mexican patients, dry mouth and were the primary adverse events reported, classified mostly as mild and probable, with events exceeding rates only during the initial three months of treatment among 132 participants. Cardiovascular effects such as , , , and rare instances of arrhythmias like have been documented, prompting withdrawals in up to 12% of patients in some studies at doses of 25-75 mg/day. These manifestations reflect the drug's impact on adrenergic receptors but appear less severe in controlled settings compared to more potent illicit stimulants like , where acute cardiovascular events occur at higher frequencies due to dosing variability and purity issues. Psychiatric adverse effects, including anxiety, excitability, and rare hallucinations or psychotic episodes, are infrequent and typically dose-dependent, with lower incidence than observed in abuse cohorts. represents a rare but serious , particularly with prolonged use beyond recommended durations; case reports link it to amfepramone exposure in genetically predisposed individuals carrying BMPR2 mutations, though population-level causality remains debated and weaker than for derivatives. Regulatory assessments highlight this potential, noting elevated risks from off-label extended therapy. Overall, post-marketing and trial data indicate most effects resolve upon discontinuation, with severity often mitigated by adherence to short-term prescribing guidelines.

Dependence, Tolerance, and Withdrawal

Amfepramone exhibits low liability relative to other sympathomimetic amines, with dependence primarily psychological rather than physical in most cases of prolonged therapeutic use. Reports of dependence are infrequent, with the manufacturer noting only four confirmed or suspected instances among users as of the early . In prescribed populations adhering to short-term regimens for management, epidemiological evidence indicates rare development of , contrasting with higher rates observed in recreational misuse of more potent stimulants. Tolerance to amfepramone's anorectic effects typically emerges within weeks of continuous administration, necessitating dose escalation to maintain or risking diminished therapeutic benefit. This rapid tolerance development stems from adaptive changes in central catecholamine systems, similar to those seen with derivatives, though amfepramone's shorter duration of action—peaking within 1-2 hours and subsiding promptly—limits the reinforcement cycles that exacerbate in longer-acting agents. Withdrawal upon abrupt discontinuation after extended use manifests as mild symptoms, including extreme , mental depression, restlessness, and disrupted patterns, which resolve without specialized intervention in most instances. These effects are attributable to rebound hypodopaminergic states following chronic stimulation of release and inhibition, but their attenuated severity compared to Schedule II stimulants like reflects amfepramone's weaker euphoric profile and lower propensity for neuroadaptation. Longitudinal observations in therapeutic cohorts underscore that such withdrawal rarely progresses to protracted syndromes when usage is limited to recommended durations of a few weeks.

Overdose and Toxicity

Acute overdose of amfepramone (diethylpropion) manifests primarily through sympathomimetic effects on the and cardiovascular system, including restlessness, , , , aggressiveness, hallucinations, panic states, , , arrhythmias, rapid respiration, and potentially seizures or circulatory collapse. Severe may also occur, exacerbating toxicity. Animal toxicity data provide lethality thresholds, with reported oral LD50 values of 600 mg/kg in mice, 250 mg/kg in rats, and 225 mg/kg in dogs; lower values (15-20 mg/kg) have been observed in adult monkeys, indicating species variability not directly extrapolable to humans. There is no specific ; management is supportive and symptomatic, involving gastric decontamination with lavage and activated charcoal if ingestion is recent, benzodiazepines for agitation or seizures, cooling measures for , and cardiovascular monitoring with antihypertensives (e.g., ) or sedatives (e.g., ) as needed to address or , while avoiding pure beta-blockers due to risk of unopposed alpha-stimulation. Fatalities from amfepramone overdose alone have not been reported in available literature, though severe intoxications, including toxic and cardiovascular collapse, have occurred in case reports, often in the context of intentional overdose or ; forensic data on sympathomimetics suggest polydrug involvement elevates lethality risk in most fatal cases.

History

Development and Initial Approval

Amfepramone, chemically known as 2-(diethylamino)-1-phenylpropan-1-one or diethylpropion, emerged in the 1950s amid growing recognition of as a issue in affluent post-World War II societies, where caloric abundance and sedentary lifestyles contributed to rising body weights. As an analog of , it was synthesized to exploit stimulation for appetite suppression while aiming for a profile with less pronounced euphoric or addictive potential than parent amphetamines, which had been repurposed from wartime stimulants for civilian but raised concerns over and cardiovascular effects. Initial synthesis efforts yielded the compound around , with formal invention credited to Joseph Lobby and patenting by Company in 1957, positioning it within a wave of amphetamine derivatives like phentermine and developed for exogenous . Early clinical trials validated its efficacy through controlled observations of weight reduction. By 1957, studies reported significant reduction and body weight loss in obese patients, including pediatric cases, when administered alongside caloric restriction, with mean losses attributable to the drug's noradrenergic mechanism enhancing and metabolic rate without the intensity of amphetamine's surge. These trials, often double-blind and involving doses of 25–75 mg daily, demonstrated short-term efficacy comparable to established anorectics but with milder side effects, such as reduced incidence, supporting its selection over more potent predecessors. Empirical data from these investigations underscored causal links between noradrenergic inhibition and hypothalamic centers, aligning with first-principles understanding of energy balance disruption in . The U.S. granted approval for diethylpropion hydrochloride in 1959 as an adjunct for short-term treatment, marketed under the brand Tenuate by , establishing it as one of the earliest FDA-sanctioned sympathomimetics specifically for . European regulatory bodies followed suit shortly after, with introductions in markets like the and by the late 1950s, reflecting parallel pharmacotherapeutic optimism for addressing epidemic through targeted neural modulation. This approval hinged on trial data showing 5–10% body weight reductions over 8–12 weeks, though long-term use was not initially pursued due to emerging tolerance patterns.

Regulatory History and Bans

Amfepramone, marketed as diethylpropion , received FDA approval in 1959 for short-term adjunctive in management, limited to patients with a of at least 30 kg/m² alongside caloric restriction and exercise. Following enactment of the in 1970, it was designated a Schedule IV substance, based on evaluations determining moderate potential for physical or relative to Schedule III agents like certain barbiturates, with evidence from preclinical and early indicating lower liability than amphetamines. This classification, effective by 1976, permitted prescription use while imposing record-keeping and security requirements for dispensers. Internationally, amfepramone was incorporated into Schedule IV of the 1971 upon the treaty's adoption, acknowledging its stimulant properties akin to amphetamines but affirming accepted medical applications with recommended controls rather than outright prohibition. Subsequent WHO Expert Committee reviews, including a 1980 assessment, evaluated dependence data and declined to propose rescheduling to higher-risk categories, citing insufficient of widespread or severe threats beyond those managed by existing oversight. Regulatory scrutiny intensified in subsequent decades amid reports of cardiovascular events and misuse patterns observed with sympathomimetic anorectics. In the , the EMA's Committee recommended withdrawal of all marketing authorizations for amfepramone products in June 2022, a decision confirmed in October 2022 after determining that potential benefits did not outweigh risks of serious adverse effects, including psychiatric disturbances and cardiac issues, particularly in long-term or unsupervised use. This action revoked approvals previously held in select member states like and , reflecting post-marketing surveillance data prioritizing caution over utility in pharmacotherapy. In jurisdictions retaining approval, such as the , emphasis persists on short-term administration (up to 12 weeks) to mitigate cumulative risks, supported by meta-analyses demonstrating efficacy of approximately 2-5 kg beyond with comparable adverse event withdrawals.

United States

In the , amfepramone, marketed as diethylpropion, is classified as a Schedule IV under the , indicating a low potential for abuse relative to higher schedules but with accepted medical use. This scheduling, established in 1970, mandates that it be dispensed only via prescription from a licensed healthcare provider, with federal regulations allowing up to five refills within six months of the original issuance unless otherwise specified by the prescriber or state law. Possession without a valid prescription constitutes a federal offense, subject to penalties including fines and depending on quantity and intent. The (FDA) approves diethylpropion for short-term adjunctive therapy in exogenous , typically limited to a few weeks, alongside dietary restriction and exercise. Prescribing is restricted to patients with a of 30 or greater, or 27 with comorbidities, and requires periodic re-evaluation due to risks of dependence and cardiovascular effects highlighted in product labeling. Although not carrying a black-box warning, labels include prominent cautions against prolonged use, potential for , and primary , with contraindications for those with or . State-level variations exist, with some jurisdictions imposing additional monitoring, such as mandatory reporting to prescription drug monitoring programs or limits on telemedicine prescribing for controlled substances. For instance, certain states classify Schedule IV stimulants under stricter dispensing rules akin to Schedule III drugs for treatments. Post-approval safety is monitored through the FDA Adverse Event Reporting System (FAERS), which captures reports of misuse, adverse reactions, and outcomes like hospitalizations associated with anti-obesity agents, informing potential regulatory updates.01145-1/fulltext)

International Variations

Amfepramone is included in Schedule IV of the of , which requires signatory states to implement controls such as licensing for manufacture and distribution, prescription-only access, and records of transactions, while allowing for medical and scientific use under strict oversight. This scheduling acknowledges its potential for abuse akin to other stimulants but deems the risks manageable with regulation, as affirmed by a 1980 review that recommended no escalation in controls. National implementations diverge, often reflecting precautionary stances on misuse versus reliance on clinical evidence for short-term efficacy in treatment alongside diet and exercise. In the , amfepramone is classified as a Class C substance under the , prohibiting non-prescription possession and supply, though it remains legally prescribable in theory but is seldom utilized due to limited marketing authorizations and preference for non-pharmacological options. In , it holds Schedule IV designation under the , permitting availability via prescription for brief periods in management, with products like those from Rougier Pharma documented as approved. More restrictive policies prevail in select nations, where amfepramone is wholly banned, as in , driven by historical concerns over stimulants' diversion and cardiovascular risks despite international scheduling permitting controlled use. Within the , the European Medicines Agency's Risk Assessment Committee confirmed in October 2022 a recommendation to withdraw marketing authorizations, previously held in countries including , , and , primarily due to documented off-label prolongation beyond the approved 4-6 weeks, exacerbating psychiatric and dependency risks. Analogous variations affect related compounds like mazindol, another Schedule IV psychotropic, which prohibited in 2011 following assessments of inefficacy and adverse events in post-marketing . These inconsistencies underscore tensions between uniform treaty obligations and domestic priorities: evidence from controlled trials supports amfepramone's modest benefits (typically 2-5 kg over 3-6 months) when usage adheres to guidelines, yet precautionary bans in precautionary jurisdictions prioritize population-level abuse prevention over individualized therapeutic evidence.

Non-Medical Aspects

Recreational Use

Recreational use of amfepramone, also known as diethylpropion, is infrequent relative to other amphetamine-type stimulants such as , with limited documentation in user surveys and data. Non-prescribed consumption occurs primarily among small groups seeking stimulant-induced or heightened energy, often sourced through diversion of pharmaceutical supplies rather than clandestine production. Administration routes mirror those of similar tablet-form stimulants: oral for standard effects or intranasal of crushed material for quicker onset, though the latter is less common due to the drug's lower profile. Onset via oral route typically occurs within 1 hour, with effects lasting 4-6 hours, contributing to its niche rather than widespread recreational appeal. Global patterns, as tracked by the United Nations Office on Drugs and Crime (UNODC), indicate minimal prevalence; for instance, while seizures of amfepramone originating from were noted in and around 2000, comprising a small fraction of overall amphetamine-type trafficking, it has not emerged as a sustained trend or burden in subsequent World Drug Reports. This contrasts with high-volume seizures of and other synthetics, underscoring amfepramone's marginal role in non-medical markets.

Abuse Potential and Diversion

Amfepramone, known chemically as diethylpropion, possesses properties that confer a degree of abuse liability, primarily through its capacity to enhance release in reward pathways, though preclinical and clinical data indicate this potential is substantially weaker than that of prototype amphetamines like . In human laboratory studies, oral administration of diethylpropion elicited subject-rated effects qualitatively akin to , such as increased "drug liking" and stimulation, but these responses were significantly attenuated in intensity and duration compared to equivalent doses of the latter. Animal models corroborate this hierarchy: while diethylpropion maintained self-administration and progressive-ratio responding in rodents and nonhuman primates—indicative of reinforcing efficacy—breakpoints and response rates were lower than those observed with or , suggesting diminished . These findings align with its classification as a Schedule IV controlled substance under the U.S. , reflecting empirical assessments of lower dependence risk relative to Schedule II sympathomimetics. Diversion of amfepramone occurs predominantly through licit channels such as prescription "doctor shopping" or unauthorized online pharmacies, rather than widespread illicit manufacturing or trafficking, consistent with patterns for other low-potency anorectics. U.S. Drug Enforcement Administration monitoring highlights minimal seizures or street-level distribution, underscoring limited black-market appeal; unlike higher-value Schedule II stimulants, amfepramone's subdued euphoric profile yields negligible street premiums, with diversion incidents rarely escalating to organized crime involvement. In regions like South America, where regulatory gaps persist, sporadic black-market sales via unregulated pharmacies have been documented, yet these remain overshadowed by more potent cathinones or amphetamines in abuse epidemiology. Several pharmacological attributes temper amfepramone's misuse risk, including its brief elimination half-life of 4–6 hours for active metabolites, which curtails sustained euphoria and necessitates frequent redosing— a deterrent to compulsive patterns seen with longer-acting congeners. Sustained-release formulations further mitigate diversion by impeding extraction or crushing for rapid-onset intravenous or intranasal routes, thereby preserving therapeutic plasma levels while reducing pharmacokinetic incentives for abuse. Such design elements, grounded in causal mechanisms of reinforcement, exemplify how targeted engineering can align regulatory stringency with actual liability, challenging blanket prohibitions that overlook gradient differences among stimulants.

Society and Culture

Brand Names and Availability

Amfepramone is commercially available under brand names including Tenuate, Tenuate Dospan, and Tepanil, primarily as diethylpropion hydrochloride. Formulations consist of immediate-release tablets (typically 25 mg) for thrice-daily dosing and extended-release capsules or tablets (75 mg) for once-daily administration. Since the original patents expired decades ago, generic diethylpropion has dominated production and distribution, with major names like Tenuate discontinued by the early 2010s. In jurisdictions where approved, such as the , it is obtained via prescription from pharmacies as a IV controlled substance for short-term treatment adjunctive to diet. Other international brands have included Nobesine in Canada (75 mg sustained-release capsules) and Amfepramon Hormosan in parts of Europe prior to regulatory restrictions.

Controversies and Public Perception

Amfepramone's role in obesity treatment has generated controversy over regulatory restrictions that prioritize rare risks amid an escalating global obesity crisis, where over one billion adults were affected in 2022, causally driving elevated morbidity from conditions such as type 2 diabetes and cardiovascular disease. In June 2022, the European Medicines Agency recommended withdrawing its marketing authorizations in the EU, citing misuse beyond short-term indications and inadvertent pregnancy exposures, despite randomized trials establishing efficacy, including a double-blind study where patients achieved 9.8% mean body weight loss after six months compared to 3.2% with placebo. Critics of such decisions argue they reflect excessive precaution, undervaluing pharmacotherapy's empirical advantages over behavioral interventions that frequently fail to sustain weight reduction, thereby neglecting obesity's direct contributions to premature mortality. Opposing perspectives emphasize amplified concerns about stimulant-related hazards, including rare but severe events like , which regulatory bodies and media highlight despite post-marketing data indicating low incidence and minimal abuse liability relative to amphetamines. Historical parallels to the withdrawal of agents like after valvular heart associations have fueled broader skepticism toward anorectics, even as meta-analyses affirm amfepramone's favorable short-term risk-benefit profile in supervised use. This tension underscores debates on individual agency, with advocates citing trial evidence of fat-specific loss and muscle preservation to counter fears, while detractors invoke precautionary principles amid perceived underreporting of long-term cardiovascular effects. Public perception of amfepramone is shaped by entrenched stigma against pharmacotherapies, fostering regulatory and societal distrust that marginalizes drugs despite their utility in populations unresponsive to modifications alone. Sources in mainstream outlets, often aligned with institutional biases favoring non-pharmacological approaches, have portrayed appetite suppressants as inherently risky, potentially exaggerating infrequent adverse outcomes while downplaying 's unchecked toll, as evidenced by persistent epidemics despite decades of campaigns. Balanced assessments from clinical reviews highlight the need for patient-specific evaluation, recognizing that for many, the causal benefits of weight reduction outweigh mitigated risks under medical oversight, challenging narratives of blanket .

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