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Oxymetazoline

Oxymetazoline is an agonist and direct-acting , primarily used as a topical vasoconstrictor to treat associated with the , allergies, hay fever, and . Its is C₁₆H₂₄N₂O, and it is typically administered as the salt (C₁₆H₂₅ClN₂O), which has a molecular weight of approximately 296.84 g/mol. Developed as an derivative in the early 1960s, oxymetazoline works by stimulating alpha-adrenergic receptors in vascular , leading to that reduces nasal swelling and improves . Commonly available over-the-counter as a (e.g., under brand names like Afrin), it provides rapid relief lasting up to 12 hours but is recommended for short-term use (no more than 3 days) to avoid rebound congestion known as . In addition to nasal applications, oxymetazoline has been approved by the FDA for other topical uses, including a 1% cream (Rhofade) for persistent facial erythema in since 2017 and a 0.1% ophthalmic solution (Upneeq) for acquired blepharoptosis since 2020. The drug's high allows systemic absorption, but topical formulations minimize this to target local effects. Despite its efficacy, oxymetazoline can cause side effects such as local irritation, burning, or dryness in the nose, and prolonged use may lead to or cardiovascular effects like increased due to alpha-adrenergic receptor stimulation. It is contraindicated in individuals with , narrow-angle (for ophthalmic use), or certain cardiovascular conditions, and interactions with monoamine oxidase inhibitors should be avoided. Ongoing research explores its potential in other areas, such as in dental procedures, highlighting its versatility as a vasoconstrictive agent.

Medical uses

Nasal decongestion

Oxymetazoline is primarily used as a topical to provide temporary relief from associated with the , , and acute . It acts by constricting blood vessels in the nasal passages, thereby reducing mucosal swelling and improving airflow. This vasoconstrictive effect targets the arterioles and capacitance vessels in the , which helps alleviate stuffiness without significantly affecting systemic circulation when used as directed. The standard dosage for adults and children over 6 years of age involves administering 2 to 3 sprays of a 0.05% oxymetazoline solution into each every 10 to 12 hours, typically not exceeding two doses per day. should be limited to no more than 3 consecutive days to minimize risks of prolonged use. Prior to application, users are advised to clear nasal passages by blowing the nose gently, and the spray should be directed away from the to avoid irritation. Clinical studies demonstrate that oxymetazoline has a rapid , typically within 5 to 10 minutes, providing noticeable decongestion. Its effects last up to 12 hours, significantly improving nasal airflow and reducing congestion scores in patients with acute compared to . For instance, in trials involving subjects with objective , a single dose led to sustained relief measurable for the full 12-hour period post-administration. Oxymetazoline is approved by the U.S. (FDA) for over-the-counter (OTC) use in adults and children aged 6 years and older for short-term symptomatic relief of . This approval is based on its established safety profile for brief, intermittent use in these populations, with labeling emphasizing adherence to dosing limits.

Ocular therapy

Oxymetazoline is utilized in ophthalmic solutions to alleviate symptoms of and irritation from environmental factors, including ocular redness (conjunctival hyperemia), itching, and swelling. As an , it induces in the conjunctival blood vessels, thereby reducing hyperemia and associated discomfort. Clinical evaluations have demonstrated significant improvement in these signs and symptoms, with oxymetazoline outperforming vehicle controls in double-blind trials involving patients with allergic or non-infectious . The standard formulation is a 0.025% oxymetazoline ophthalmic solution, approved by the FDA in the late for over-the-counter use under brand names such as L.R. and Ocuclear. The recommended dosage is 1 to 2 drops instilled into the affected eye(s) every 6 hours as needed, not exceeding four doses in 24 hours, for adults and children aged 6 years and older. is rapid, with vasoconstrictive effects beginning within minutes of application, providing symptomatic relief that aligns with its role in managing acute ocular irritations from allergens like or dust. Due to the risk of developing with prolonged use, oxymetazoline ophthalmic solutions are intended for short-term application, typically limited to a few days to maintain and prevent diminished response. This approach ensures targeted relief without compromising long-term ocular health, particularly in seasonal or episodic allergic conditions. Oxymetazoline is also available as a 0.1% ophthalmic solution (Upneeq), approved by the FDA in July 2020 for the treatment of acquired blepharoptosis (droopy upper ) in adults. It works by stimulating the Müller's muscle in the to produce a temporary of the margin. The recommended dosage is one in the affected eye once daily. In two phase 3 clinical trials involving 304 patients, Upneeq demonstrated a statistically significant improvement in compared to , with the effect noticeable within 2 hours and lasting up to 8 hours.

Dermatological applications

Oxymetazoline is indicated for the topical treatment of persistent facial erythema associated with rosacea in adults. It received FDA approval in 2017 under the brand name Rhofade for this dermatological use. The formulation is a 1% cream containing oxymetazoline hydrochloride, applied topically once daily as a pea-sized amount in a thin layer to the entire face, including the forehead, nose, cheeks, and chin, while avoiding the eyes and lips. Hands should be washed after application, and the pump must be primed before initial use. As a selective alpha-1A , oxymetazoline exerts vasoconstrictive effects on facial blood vessels to reduce without significant upon discontinuation. In two pivotal double-blind, vehicle-controlled phase 3 clinical involving 885 adults with , once-daily application resulted in a composite success rate of 12% to 18% of patients achieving at least a 2-grade improvement from baseline in both the Clinician Assessment (CEA) and Subject Self-Assessment (SSA) scales at hours 3, 6, 9, and 12 on day 29, compared to 5% to 9% with . These improvements were observed as early as 3 hours post-application and sustained for up to 12 hours. Long-term data from a 52-week open-label extension confirmed sustained with no apparent after treatment cessation.

Contraindications and precautions

Contraindications

Oxymetazoline is contraindicated in patients with known to the drug or other sympathomimetic amines, as this can lead to severe allergic reactions or exaggerated adrenergic responses. For ocular formulations, it is contraindicated in individuals with narrow-angle or acute due to the risk of precipitating angle closure and increased . Concurrent use or use within 14 days of inhibitors (MAOIs) is also contraindicated, as it may potentiate sympathomimetic effects leading to . Route-specific contraindications include avoidance of nasal oxymetazoline in children under 2 years of age, owing to heightened risk of systemic absorption and serious adverse effects such as . In patients with severe cardiovascular conditions, including uncontrolled or , oxymetazoline should be avoided or used with extreme caution regardless of route, as its activity can exacerbate elevation or ischemic events. Additionally, oxymetazoline should be used with caution in patients with hyperthyroidism or uncontrolled diabetes, where its vasoconstrictive properties may worsen tachycardia or glycemic instability through enhanced adrenergic stimulation.

Pregnancy

There are limited data on the use of oxymetazoline in pregnant women. Animal reproduction studies have shown adverse developmental outcomes at high oral doses, but these exceed those from topical use. No consistent evidence of birth defects from human studies of nasal use during pregnancy. It should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus, considering minimal systemic absorption from topical application.

Breastfeeding

Oxymetazoline poses a low risk during owing to its topical administration, which results in very little transfer into . No specific data exist on its effects in lactating women, but the negligible amount reaching the suggests it is unlikely to cause harm. mothers may use it as directed, though monitoring the for any unusual symptoms is advisable.

Pediatrics

Nasal oxymetazoline spray is approved by the FDA for use in children aged and older, typically at a 0.05% concentration, with dosing limited to 2-3 sprays per every 10-12 hours and not exceeding 3 days of use. For children aged 2 to under , a lower 0.025% concentration is recommended under , with 2-3 sprays per every 10-12 hours. It is not approved for children under 2 years of age, and use in this group is discouraged due to risks of adverse effects, with healthcare providers advised against recommending OTC nasal decongestants for infants.

Elderly

Caution is warranted when using oxymetazoline in elderly patients, who are at higher risk for cardiovascular events due to its sympathomimetic effects, particularly if underlying or heart disease is present. should begin with the lowest effective dose and shortest to minimize potential systemic and related complications.

Renal and Hepatic Impairment

No dosage adjustments are required for patients with renal or hepatic impairment, as oxymetazoline's topical route limits systemic exposure and metabolism primarily occurs locally without significant reliance on or liver . Studies in these populations are lacking, but the drug's pharmacokinetic profile supports standard use.

Adverse effects

Local adverse effects

Local adverse effects of oxymetazoline primarily manifest at the site of application and are generally mild and transient, resolving upon discontinuation of use. These reactions arise due to the drug's vasoconstrictive action on local tissues, leading to without significant long-term damage in most cases. In nasal applications, common effects include burning, stinging, dryness within the nasal passages, sneezing, and increased nasal discharge, which are frequently reported shortly after administration. These symptoms affect a subset of users, with clinical studies indicating local application site discomfort or irritation occurring in about 3-5% of patients. Prolonged nasal use beyond recommended durations can heighten the risk and severity of such irritation. For ocular use, such as in ophthalmic solutions for blepharoptosis, local effects often involve temporary , eye , increased tearing, punctate , conjunctival hyperemia, and dry eye, typically occurring in 1-5% of patients. These reactions are usually self-limiting and do not require intervention beyond pausing treatment. In dermatological applications, like topical creams for rosacea-associated , adverse effects at the application site include pruritus, initial worsening of redness, , pain, dryness, and scaling, with incidences ranging from 15-23% for symptoms such as stinging/burning, itching, and dryness in pooled analyses. These effects remain mostly mild, with lower rates (around 1-2%) for more pronounced reactions like worsening inflammatory lesions. Extended application may exacerbate local , though short-term use minimizes this risk.

Systemic adverse effects

Oxymetazoline, when applied topically as a nasal or ocular , is generally associated with minimal systemic absorption, resulting in a low incidence of body-wide adverse effects. These effects arise primarily from its activity, which can influence distant organs upon circulation. Systemic exposure is typically limited, with adverse events occurring occasionally and more frequently in cases of overuse or in patients with heightened sensitivity, such as children or those with underlying cardiovascular conditions. Cardiovascular effects represent the most concerning systemic reactions, including hypertension, palpitations, and tachycardia, though these are rare with standard topical use, reported in less than 1% of cases based on pharmacovigilance data. These manifestations stem from vasoconstriction and sympathomimetic stimulation beyond the local site. Neurological adverse effects may include headache, nervousness, and insomnia, which are also uncommon but can occur due to central nervous system stimulation. Other reported systemic issues encompass nausea and dizziness, with a higher risk observed in sensitive populations or with prolonged application leading to increased absorption. The overall low incidence of these effects is attributed to oxymetazoline's poor bioavailability when used topically, as supported by clinical studies and case reports documenting severe events primarily in scenarios of excessive use. Patients are advised to monitor for symptoms such as chest pain or rapid heartbeat and seek immediate medical attention if they arise, to mitigate potential complications from systemic adrenergic effects.

Rebound congestion

Rebound congestion, also known as , is a characterized by worsening that occurs upon discontinuation of topical nasal decongestants like oxymetazoline after prolonged use, typically exceeding three days. This rebound effect arises from the nasal mucosa's adaptation to the drug, leading to inflammation and increased once the medication is stopped. The primary mechanism involves , or rapid tolerance to oxymetazoline's alpha-adrenergic vasoconstrictive effects, resulting in desensitization of alpha-adrenoceptors in the nasal vasculature. This desensitization promotes rebound and upregulation of nasal blood flow, exacerbating beyond the original symptomatic level. Symptoms include intensified nasal stuffiness, a sensation of blocked airways, and a cycle of dependency where users feel compelled to continue the spray to alleviate the worsening . This can lead to chronic nasal obstruction if the pattern persists. The incidence of rebound congestion is estimated at 1% to 9% among patients presenting for nasal complaints, with higher rates observed in cases of misuse or chronic use of oxymetazoline. It is more prevalent in individuals using the spray beyond the recommended short-term duration. Prevention centers on limiting oxymetazoline use to no more than three consecutive days, as advised by clinical guidelines to minimize the risk of . For treatment, a gradual tapering approach is recommended, often combined with oral decongestants or intranasal corticosteroids to facilitate discontinuation and restore normal nasal function. In severe cases, saline irrigation may aid in symptom relief during .

Overdose

Symptoms of overdose

Overdose of oxymetazoline, typically resulting from excessive nasal application or accidental , can manifest in both local and systemic symptoms due to its potent activity. Local effects primarily involve the nasal passages, where high concentrations may cause severe irritation and damage to the mucosa. This can include intense burning, stinging, and dryness, as observed in cases of overuse. Systemic symptoms arise from absorption into the bloodstream, often presenting as adrenergic excess or, paradoxically, reflex responses, with onset typically within 30-60 minutes. Common manifestations include or , , , , drowsiness, , and . In children, who are particularly susceptible due to lower body weight and immature metabolic pathways, ingestion of as little as 1-2 mL of solution can trigger these effects, including respiratory depression and . Severe overdose cases may escalate to life-threatening conditions, such as , cardiovascular collapse with or , and profound . These are more frequently reported in pediatric accidental ingestions, where symptoms like decreased , slowed breathing, and have led to hospitalizations, though fatalities are rare. Case reports highlight instances of and following misuse in young children, underscoring the risks of even small ingestions. Symptoms generally resolve within 12-36 hours.

Management of overdose

Management of oxymetazoline overdose primarily involves supportive care, as there is no specific antidote available. Initial steps include immediate discontinuation of the drug, close monitoring of vital signs such as blood pressure, heart rate, respiratory rate, and oxygen saturation, and provision of basic life support as needed. Intravenous fluids should be administered to maintain hydration and support blood pressure, while supplemental oxygenation or mechanical ventilation may be required if respiratory depression occurs. Gastrointestinal decontamination with activated is recommended if oral has occurred within 1 hour, as it can bind the drug and reduce absorption; however, this is typically not applicable for topical nasal or ocular exposures where systemic absorption occurs via mucous membranes. Due to the risk of aspiration from , administration requires caution and airway protection. Consultation with a regional is essential early in management to guide decisions. For cardiovascular effects, treatment is symptom-directed: hypertension resulting from alpha-adrenergic stimulation may be managed with vasodilators such as phentolamine, an alpha-adrenoceptor antagonist, to counteract vasoconstriction. Beta-blockers should be avoided, as they may lead to unopposed alpha-mediated effects and worsen hypertension. Hypotension, if present, is addressed with intravenous fluid boluses and, if refractory, vasopressors like dopamine; however, alpha-agonists are generally contraindicated. In severe cases involving s or significant central nervous system depression, benzodiazepines such as or are used for seizure control, with repeated doses as necessary while monitoring for respiratory compromise. Continuous cardiac monitoring is advised due to potential arrhythmias, and patients should be observed in a setting, particularly children, where even small ingestions can cause profound effects. Prognosis is generally favorable with prompt supportive , with most cases resolving within 12 to 24 hours without long-term sequelae. Emphasis on prevention is crucial, especially in children, through secure storage of nasal decongestants and on the risks of accidental or misuse, as even 1-2 mL can be toxic in young patients.

Pharmacology

Pharmacodynamics

Oxymetazoline acts primarily as a selective at α1-adrenergic receptors, with particular potency at the α1A subtype, and exhibits partial at α2-adrenergic receptors. It demonstrates high affinity for α1A receptors compared to α1B and α1D subtypes, contributing to its vasoconstrictive effects in targeted tissues. Upon binding to α1-adrenergic receptors, which are Gq-protein-coupled, oxymetazoline activates , leading to increased intracellular calcium levels via and subsequent in vascular cells. This mechanism underlies its therapeutic effects, such as reducing through constriction of arterioles in the . α2-adrenergic receptor activation by oxymetazoline involves Gi-protein coupling, inhibiting and reducing cyclic AMP, though this contributes less to its primary vasoconstrictive action. The compound shows tissue selectivity, exerting potent effects on vascular in the , , and skin due to localized application and receptor distribution. It has minimal activity at β-adrenergic receptors, avoiding significant cardiac or bronchodilatory effects. Oxymetazoline lacks notable antihistaminic properties, distinguishing it from dual-action agents. Structurally, the ring in oxymetazoline facilitates ionic interactions with key receptor residues, such as aspartate in transmembrane 3, enhancing its affinity for α-adrenergic receptors. This feature is critical for its selective binding profile among imidazoline derivatives.

Oxymetazoline demonstrates minimal systemic absorption following topical , with low systemic (less than 10%) in adults under normal conditions, as the majority of the drug acts locally without entering the bloodstream significantly. However, absorption can increase in the presence of damaged or inflamed mucosa, or in pediatric populations, potentially leading to higher systemic exposure. The drug distributes primarily to the site of application, with limited penetration into systemic circulation. Once absorbed, oxymetazoline exhibits moderate of approximately 57%, which contributes to its confinement within vascular compartments. Metabolism of oxymetazoline occurs minimally in the liver via enzymes, yielding inactive metabolites such as mono-oxygenated and dehydrogenated products. This limited supports its prolonged local effects while reducing the potential for active systemic metabolites. Excretion is predominantly renal, with a substantial portion eliminated unchanged in the , alongside biliary routes accounting for a smaller fraction. The systemic elimination ranges from 5 to 8 hours, reflecting gradual clearance after . Route-specific variations further minimize systemic levels: ocular administration results in even lower , with only trace amounts reaching the aqueous humor and a terminal of about 8.3 hours in ; dermal application, as in rosacea treatment, yields undetectable concentrations in most cases due to barrier.

Chemistry

Chemical structure and properties

Oxymetazoline has the molecular formula C16H24N2O and a molecular weight of 260.38 g/mol. Its IUPAC name is 6-tert-butyl-3-(4,5-dihydro-1H-imidazol-2-ylmethyl)-2,4-dimethylphenol. Common synonyms include 3-(4,5-dihydro-1H-imidazol-2-ylmethyl)-2,4-dimethyl-6-(1,1-dimethylethyl)phenol and 2-[4-tert-butyl-2,6-dimethyl-3-hydroxybenzyl]-4,5-dihydro-1H-imidazole. The molecular structure features a phenolic core with methyl substituents at the 2- and 4-positions, a tert-butyl group at the 6-position, and a (4,5-dihydro-1H-imidazol-2-ylmethyl) side chain at the 3-position, contributing to its imidazole derivative classification. Oxymetazoline appears as a white to off-white crystalline powder. The hydrochloride salt is soluble in water and alcohol. The compound has a pKa of approximately 10.2. Oxymetazoline is sensitive to light and oxidation, which can lead to photodegradation and oxidative degradants. It is typically stored at room temperature under dry and dark conditions to maintain stability.

Synthesis

Oxymetazoline is synthesized through a multi-step process starting from 6-tert-butyl-2,4-dimethylphenol, a derivative accessible via tert-butylation of 2,4-dimethylphenol using isobutene or in the presence of an catalyst such as or . The first key step involves chloromethylation of this phenol at the 3-position using and , typically in a of acetic acid and , to yield 3-(chloromethyl)-6-tert-butyl-2,4-dimethylphenol. The chloromethyl intermediate is then converted to the corresponding phenylacetonitrile by nucleophilic substitution with sodium or in a polar solvent like or , producing 2-(4-tert-butyl-2,6-dimethyl-3-hydroxyphenyl)acetonitrile. The final and critical step is the cyclization to form the ring, achieved by heating the acetonitrile precursor with in the presence of a catalyst such as or under acidic conditions, which promotes addition of the diamine to the nitrile followed by intramolecular cyclization and to the 2-imidazolinylmethyl group. This route, including the tert-butyl introduction and ring cyclization, was originally developed by Wolfgang Fruhstorfer and Helmut Müller-Calgan at E. Merck and detailed in German Patent DE 1,117,588 issued in 1962. Industrial production of oxymetazoline employs a similar multi-step sequence from starting materials and amines, optimized for scalability with overall yields around 70% through purification steps like of the salt. Modern synthetic variants incorporate greener catalysts, such as heterogeneous solid acids (e.g., zeolites or resins) for the and chloromethylation steps, to minimize waste and avoid homogeneous acid use while maintaining high selectivity.

History

Development

Oxymetazoline was developed in by chemists Wolfgang Fruhstorfer and Helmut Müller-Calgan at E. Merck in , , as a of the earlier compound , aimed at creating a more potent topical nasal . The compound was first patented that same year under German Patent 1,117,588, highlighting its selective properties for . Preclinical studies utilized animal models, such as rats and rabbits, to evaluate oxymetazoline's vasoconstrictive effects on mucosal tissues, demonstrating rapid and sustained shrinkage of blood vessels at low doses with minimal systemic and low toxicity profiles. These experiments confirmed its potency, with intravenous doses in rats causing significant but transient blood pressure elevation, underscoring its suitability for topical application where systemic exposure remained negligible. Early clinical trials focused on its nasal application for relieving congestion from colds, allergies, and , involving controlled studies that measured decongestion duration and tolerability in human volunteers. A key milestone was its identification as superior to in efficacy and duration of action, with trials showing oxymetazoline providing up to 12 hours of relief compared to shorter effects from the alternative, while exhibiting a better safety profile with fewer cardiovascular risks. This led to its U.S. approval in 1966 as a prescription under the brand Afrin, following the initial approval in 1964 as Drixine.

Regulatory milestones

Oxymetazoline was first approved by the U.S. (FDA) in 1964 for use as a nasal under the name Drixine. This approval marked its initial entry into the market as a topical for relieving associated with colds, allergies, and . In 1994, the FDA finalized the over-the-counter (OTC) for nasal drug products, which included oxymetazoline and established key labeling requirements, such as limiting use to no more than 3 days to prevent rebound congestion (). For ocular applications, oxymetazoline hydrochloride has been approved by the FDA since the 1980s in formulations like OcuClear ( 018471) for use as a vasoconstrictor to relieve conjunctival redness and irritation. In January 2017, the FDA approved oxymetazoline 1% cream (Rhofade) for the topical treatment of persistent facial associated with in adults, representing a significant expansion of its dermatological indications based on phase 3 clinical trials demonstrating efficacy in reducing redness. Labeling for this product includes warnings against use with inhibitors (MAOIs) due to the risk of , though not designated as a black box warning. A 52-week open-label extension trial (REVEAL) supported the sustained safety and efficacy for long-term use. In July 2020, the FDA approved oxymetazoline 0.1% ophthalmic solution (Upneeq) for the treatment of acquired blepharoptosis (droopy eyelid) in adults. In the , oxymetazoline has been authorized nationally for nasal and ocular use since the 1960s, with early approvals in following its development in 1961. The (EMA) has overseen periodic safety updates, including enhanced warnings on rebound congestion since the early 2000s as part of assessments for . In , the (TGA) updated its OTC monograph for topical nasal decongestants in 2014, restricting oxymetazoline use in children under 6 years and recommending medical advice for ages 6-11, following post-2010 reviews of pediatric safety data that highlighted risks of systemic absorption and cardiovascular effects.

Society and culture

Brand names

Oxymetazoline is available under numerous brand names worldwide, primarily as over-the-counter nasal sprays, , and prescription topical creams, with generic formulations also widely marketed. For nasal decongestant use in the United States, prominent brands include Afrin, Sinex, and Sudafed OM Severe Original Nasal Spray. Ocular products containing oxymetazoline, such as L.R. for redness relief, are available over-the-counter in the and . For acquired blepharoptosis, Upneeq (0.1% oxymetazoline ophthalmic solution) has been available by prescription in the since 2020. The dermatological Rhofade, formulated as a 1% oxymetazoline cream, is prescribed for persistent facial associated with . Generic oxymetazoline products are extensively available as over-the-counter options for nasal and ocular applications. Certain combination products pair oxymetazoline with fluticasone, a , in nasal sprays for enhanced relief of symptoms. Internationally, Otrivin serves as a global for nasal sprays targeting congestion. In Europe, Iliadin is a common nasal brand.

Availability and regulation

Oxymetazoline nasal sprays and ophthalmic solutions are widely available over-the-counter (OTC) in the United States, , and for the relief of and ocular redness, respectively. In contrast, the 1% topical cream formulation for rosacea-associated facial requires a prescription in these regions. Use of oxymetazoline nasal products is restricted for children under 6 years of age in the due to risks of systemic absorption and adverse effects, with adult supervision required for ages 6 to 11. Similar age limits apply in the and , prohibiting use in children under 2 to 6 years depending on the formulation and national guidelines. In , oxymetazoline nasal decongestants are classified as pharmacy-only medicines, requiring consultation with a before purchase. In 2024, the FDA's proposed amendments to the OTC monograph for , , and products reaffirmed oxymetazoline's and effective (GRASE) status for short-term nasal decongestion, with no indications of major safety concerns or supply shortages as of 2025. Generic oxymetazoline nasal sprays typically cost $5 to $10 per 30 mL bottle in the , making it an affordable option for short-term use. Internationally, variations include pediatric restrictions in the similar to those in the .