Oseltamivir (Monograph)

Brand name: Tamiflu
Drug class: Neuraminidase Inhibitors
- Sialic Acid Derivatives
VA class: AM800
Chemical name: [3R-(3α,4β,5α)]-ethyl 4-(acetylamino)-5-amino-3-(1-ethylpropoxy)-1-cyclohexene-1-carboxylate phosphate
Molecular formula: C₁₆H₂₈N₂O₄•H₃PO₄
CAS number: 204255-11-8

Medically reviewed by Drugs.com on Sep 25, 2023. Written by ASHP.

Introduction

Antiviral; neuraminidase inhibitor; sialic acid analog.

Uses for Oseltamivir

Treatment of Seasonal Influenza A and B Virus Infections

Treatment of acute, uncomplicated illness caused by influenza A or B viruses in adults, adolescents, and pediatric patients ≥2 weeks of age. Although safety and efficacy not established in neonates <2 weeks of age^{† [off-label]}, also recommended when treatment of influenza considered necessary in this age group.

For treatment of suspected or confirmed acute, uncomplicated seasonal influenza in otherwise healthy outpatients, CDC, IDSA, and others state that any age-appropriate influenza antiviral (oral oseltamivir, inhaled zanamivir, oral baloxavir marboxil, IV peramivir) can be used if not contraindicated. CDC states may consider early empiric antiviral treatment in outpatients with suspected influenza (e.g., influenza-like illness such as fever with either cough or sore throat) based on clinical judgement if such treatment can be initiated within 48 hours of illness onset.

For treatment of suspected or confirmed seasonal influenza in hospitalized patients or outpatients with severe, complicated, or progressive illness (e.g., pneumonia, exacerbation of underlying chronic medical conditions), CDC states oseltamivir is the preferred influenza antiviral because of the lack of data regarding use of other influenza antivirals in such patients.

Initiate treatment of seasonal influenza illness as soon as possible in all individuals with suspected or confirmed influenza who require hospitalization or have severe, complicated, or progressive illness (regardless of vaccination status or underlying illness). Early empiric antiviral treatment also recommended in individuals with suspected or confirmed influenza of any severity if they are at high risk of developing influenza-related complications because of age or underlying medical conditions (regardless of vaccination status). This includes children <2 years of age, adults ≥65 years of age, individuals of any age with certain chronic medical or immunosuppressive conditions, women who are pregnant women or up to 2 weeks postpartum, individuals <19 years of age receiving long-term aspirin therapy, American Indians, Alaskan natives, morbidly obese individuals with body mass index (BMI) ≥40, and residents of any age in nursing homes or other long-term care facilities.

Although manufacturer states use for treatment of influenza only in patients who have been symptomatic for ≤48 hours, there is some evidence from observational studies of hospitalized patients that antiviral treatment might still be beneficial when initiated up to 4 or 5 days after illness onset. CDC, ACIP, and AAP recommend that antiviral treatment be initiated in all patients with severe, complicated, or progressive illness attributable to influenza and all hospitalized patients and patients at increased risk of influenza complications (either hospitalized or outpatient) who have suspected or confirmed influenza, even if it has been >48 hours after illness onset. Base decisions regarding use of empiric antiviral treatment in outpatients, especially high-risk patients, on disease severity and progression, age, underlying medical conditions, likelihood of influenza, and time since onset of symptoms.

Consider that influenza and coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have overlapping signs and symptoms and coinfection with influenza A or B viruses and SARS-CoV-2 can occur. Although laboratory testing can help distinguish between influenza virus infection and SARS-CoV-2 infection, CDC recommends initiating empiric influenza treatment in patients with suspected influenza who are hospitalized, have severe, complicated, or progressive illness, or are at high risk for influenza complication without waiting for results of influenza testing, SARS-CoV-2 testing, or multiplex molecular assays that detect influenza A and B viruses and SARS-CoV- 2.

Consider viral surveillance data available from local and state health departments and CDC when selecting an antiviral for treatment of seasonal influenza. Strains of circulating influenza viruses and the antiviral susceptibility of these strains constantly evolve, and emergence of resistant strains may decrease effectiveness of influenza antivirals. Although circulating influenza A and B viruses during recent years generally have been susceptible to oseltamivir, consult most recent information on susceptibility of circulating viruses when selecting an antiviral for treatment of influenza.

CDC issues recommendations concerning use of antiviral for treatment of influenza, and these recommendations are updated as needed during each influenza season. Information regarding influenza surveillance and updated recommendations for treatment of seasonal influenza are available from CDC at [Web].

Prevention of Seasonal Influenza A and B Virus Infections

Prevention of illness caused by seasonal influenza A or B viruses in adults, adolescents, and children ≥1 year of age.

Annual vaccination with seasonal influenza virus vaccine, as recommended by CDC's Advisory Committee on Immunization Practices (ACIP), is the primary means of preventing seasonal influenza and its severe complications. Prophylaxis with an appropriate antiviral active against circulating influenza strains is considered an adjunct to vaccination for control and prevention of influenza in certain individuals.

Base decisions regarding use of antivirals for prophylaxis of seasonal influenza on the risk of influenza-related complications in the exposed individual, vaccination status, type and duration of contact, recommendations from local or public health authorities, and clinical judgment. In general, use antiviral postexposure prophylaxis only if it can be initiated within 48 hours after most recent exposure.

CDC and others do not recommend routine use of influenza antivirals for postexposure prophylaxis of seasonal influenza in exposed individuals; may consider such prophylaxis in certain situations in exposed individuals at high risk for influenza-related complications for whom influenza vaccine is contraindicated, unavailable, or expected to have low efficacy (e.g., immunocompromised individuals). Other possible candidates for antiviral prophylaxis include unvaccinated health care personnel, public health workers, and first responders with unprotected, close-contact exposure to a patient with confirmed, probable, or suspected influenza during the time when the patient was infectious. Also may be considered for controlling influenza outbreaks in nursing and long-term care facilities or other closed or semi-closed settings with large numbers of individuals at high risk for influenza-related complications.

CDC issues recommendations concerning use of antivirals for prophylaxis of influenza, and these recommendations are updated as needed during each influenza season. Information regarding influenza surveillance and updated recommendations for prevention of seasonal influenza are available from CDC at [Web].

Avian Influenza A Virus Infections

Treatment or prevention of infections caused by avian influenza A viruses^{† [off-label]} (e.g., H5N1, H7N3, H7N7, H7N9).

For treatment of uncomplicated avian influenza A infections in outpatients, CDC states that oral oseltamivir, inhaled zanamivir, or IV peramivir may be used.

For treatment of severe, complicated, or progressive avian influenza A infections in hospitalized patients or outpatients, including infections caused by avian influenza A (H7N9), avian influenza A (H5N1), or novel avian influenza A H5 viruses, CDC recommends oseltamivir as antiviral of choice. In those with severe avian influenza A infection who cannot tolerate or absorb oseltamivir administered orally or enterically (e.g., because of suspected or known gastric stasis, malabsorption, or GI bleeding), CDC states use of IV peramivir may be considered. Inhaled zanamivir not recommended because data insufficient regarding use for treatment of severe influenza in hospitalized patients or outpatients.

When antiviral prophylaxis indicated in close contacts of individuals with confirmed or probable infection with avian influenza A viruses that have caused or potentially may cause severe disease or indicated in individuals who have been exposed to birds infected with such avian influenza A viruses, CDC recommends oral oseltamivir or inhaled zanamivir.

Information regarding treatment and prevention of avian influenza A infections is available from CDC at [Web] and WHO at [Web].

Variant Influenza Virus Infections

Treatment of infections cause by variant influenza viruses^{† [off-label]}.

Influenza viruses that circulate in swine are called swine influenza viruses when isolated from swine, but are called variant influenza viruses when isolated from humans. Influenza A (H1N1) variant (H1N1v), influenza A (H1N2) variant (H1N2v), and influenza A (H3N2) variant (H3N2v) infections reported in US. Limited data to date indicate variant influenza viruses are susceptible to neuraminidase inhibitor antivirals (oseltamivir, peramivir, zanamivir).

CDC states management of infections caused by variant influenza viruses is similar to management of seasonal influenza virus infections. Early initiation of oseltamivir recommended by CDC for treatment of hospitalized patients, those with severe and progressive illness, and any high-risk patient with suspected or confirmed variant influenza virus infection. Antiviral treatment with a neuraminidase inhibitor also recommended for outpatients with suspected influenza, including variant influenza virus infection, if individual considered at high risk for influenza complications. Antiviral treatment can be considered for any previously healthy, symptomatic outpatient not at high risk who has confirmed or suspected variant virus infection on the basis of clinical judgment, if treatment can be initiated ≤48 hours after illness onset.

Information regarding variant influenza virus infections is available from CDC at [Web].

Pandemic Influenza

Treatment or prevention of pandemic influenza^{† [off-label]} caused by susceptible strains of influenza virus.

Influenza viruses can cause pandemics, during which rates of illness and death from influenza-related complications can increase dramatically worldwide.

Most recent influenza pandemic occurred during 2009 and was related to a novel influenza A (H1N1) strain, influenza A (H1N1)pdm09. In the US, the pandemic was characterized by a substantial increase in influenza activity that peaked in late October and early November 2009 and returned to seasonal baseline levels by January 2010. During that time, ≥99% of influenza viruses circulating in the US were influenza A (H1N1)pdm09. After the pandemic, influenza A (H1N1)pdm09 became a seasonal influenza virus and continues to circulate with other seasonal viruses.

The spread of the highly pathogenic H5N1 strain of avian influenza A in poultry in Asia and other countries that was first identified in 2003 represents a potential future pandemic threat. In addition, the novel avian influenza A (H7N9) virus that was first identified in China in March 2013 represents a potential future pandemic threat. (See Avian Influenza A Virus Infections under Uses.)

Information on pandemic influenza, including planning and preparedness resources if an influenza pandemic occurs, is available from CDC at [Web] and WHO at [Web].

Oseltamivir Dosage and Administration

Administration

Oral Administration

Administer orally without regard to meals; administration with meals may improve GI tolerability.

Commercially available as 30-, 45-, and 75-mg capsules and as a powder for oral suspension that is reconstituted to provide an oral suspension containing 6 mg/mL.

Reconstituted oseltamivir oral suspension is the preferred preparation for individuals unable to swallow capsules. Alternatively, if the oral suspension not available from the manufacturer or wholesaler, the appropriate dosage can be administered by opening the appropriate strength of commercially available capsules and mixing the contents with a sweet liquid (e.g., regular or sugar-free chocolate syrup, corn syrup, caramel topping, light brown sugar dissolved in water).

During emergency situations if the powder for oral suspension not available and the appropriate strength of oseltamivir capsules not available to mix with sweetened liquids, a pharmacist can prepare an emergency supply of extemporaneous oral suspension using 75-mg oseltamivir capsules and simple syrup, cherry syrup vehicle (Humco), or Ora-Sweet SF (Paddock). Consult manufacturer's information for specific instructions.

Reconstitution

Reconstitute commercially available powder for oral suspension at the time of dispensing. Tap bottle to thoroughly loosen white powder and then add the amount of water specified on the bottle; shake well for 15 seconds.

Reconstituted oral suspension contains 6 mg/mL; each 12.5 mL contains 75 mg of oseltamivir.

Provide an oral dosing device that can accurately measure the appropriate volume in mL; counsel patient and/or caregiver how to use the oral dosing dispenser to correctly measure and administer the appropriate dose.

Shake suspension well prior to each dose.

Dosage

Available as oseltamivir phosphate; dosage expressed in terms of oseltamivir.

Pediatric Patients

Treatment of Seasonal Influenza A and B Virus Infections

Oral

Initiate treatment as soon as possible (preferably within 48 hours of symptom onset). Although efficacy only established when given within 48 hours after onset of symptoms, there is some evidence from hospitalized patients that antiviral treatment initiated up to 4 or 5 days after onset of symptoms may still be beneficial. (See Uses: Treatment of Seasonal Influenza A and B Virus Infections.)

Recommended duration of antiviral treatment is 5 days, but hospitalized patients with severe or prolonged infections or individuals with immunosuppression may require >5 days of treatment.

Infants 2 weeks to <1 year of age: 3 mg/kg twice daily for 5 days recommended by manufacturer.

Neonates and infants <1 year of age: AAP recommends 3.5 mg/kg twice daily for 5 days in infants 9 through 11 months of age and 3 mg/kg twice daily for 5 days in full-term neonates and infants through 8 months of age. Although safety and efficacy not established in neonates <2 weeks of age^{† [off-label]}, AAP states the drug can be used for treatment of influenza in neonates from birth^† because of its known safety profile. (See Pediatric Use under Cautions.)

Dosage recommended for full-term infants may be excessive in preterm neonates. Limited data suggest that, if the drug is considered necessary for treatment of influenza in preterm neonates^†, dosage should be based on postmenstrual age (i.e., gestational age plus chronological age). AAP and CDC recommend 1 mg/kg twice daily in preterm neonates with postmenstrual age <38 weeks, 1.5 mg/kg twice daily in those with postmenstrual age of 38 through 40 weeks, and 3 mg/kg twice daily in those with postmenstrual age >40 weeks. Consult pediatric infectious disease expert if treatment of influenza considered necessary in extremely premature neonates (postmenstrual age <28 weeks).

Children 1–12 years of age: Dosage is based on weight. (See Table 1.)

Adolescents ≥13 years of age: 75 mg twice daily for 5 days. Each dose can be given as single 75-mg capsule or 12.5 mL of oral suspension containing 6 mg/mL.

Table 1. Oseltamivir Dosage for Treatment of Seasonal Influenza A and B in Children 1–12 Years of Age1
Weight (kg)	Daily Dosage (mg)	Daily Dosage (Volume of Reconstituted Oral Suspension Containing 6 mg/mL)	Daily Dosage (Capsules)
≤15	30 mg twice daily for 5 days	5 mL twice daily for 5 days	One 30-mg capsule twice daily for 5 days
15.1–23	45 mg twice daily for 5 days	7.5 mL twice daily for 5 days	One 45-mg capsule twice daily for 5 days
23.1–40	60 mg twice daily for 5 days	10 mL twice daily for 5 days	Two 30-mg capsules twice daily for 5 days
≥40.1	75 mg twice daily for 5 days	12.5 mL twice daily for 5 days	One 75-mg capsule twice daily for 5 days

Prevention of Seasonal Influenza A and B Virus Infections

Oral

Initiate prophylaxis within 48 hours after exposure (e.g., close contact with infected individual). Protection lasts as long as the drug is continued.

Manufacturer states prophylaxis should be continued for ≥10 days after last exposure in close contact of exposed individuals; during community outbreaks, manufacturer states prophylaxis may be continued for up to 6 weeks in immunocompetent individuals and for up to 12 weeks in immunocompromised individuals.

CDC recommends a duration of 7 days after last known exposure. In institutional settings (e.g., long-term care facilities for elderly individuals and children), CDC recommends antiviral prophylaxis be given for minimum of 2 weeks and continued for up to 1 week after last known case of influenza is identified.

Although safety and efficacy not established for prophylaxis of influenza in infants <1 year of age^†, CDC states infants 3 months to <1 year of age^† can receive 3 mg/kg once daily for 7 days if considered necessary. AAP recommends 3.5 mg/kg once daily for 10 days in infants 9 through 11 months of age^† and 3 mg/kg once daily for 10 days in infants 3 through 8 months of age^†.

Because of limited safety and efficacy data, CDC and AAP do not recommend use for prophylaxis of influenza in full-term or premature infants <3 months of age^† unless situation is judged critical.

Children 1–12 years of age: Dosage is based on weight. (See Table 2.)

Adolescents ≥13 years of age: 75 mg once daily.

Manufacturer states continue prophylaxis in pediatric patients for 10 days following close contact with infected individual; during community outbreaks, manufacturer states may continue prophylaxis for up to 6 weeks in immunocompetent individuals and for up to 12 weeks in immunocompromised individuals.

Table 2. Oseltamivir Dosage for Prevention of Seasonal Influenza A and B in Children 1–12 Years of Age1
Weight (kg)	Daily Dosage (mg)	Daily Dosage (Volume of Reconstituted Oral Suspension Containing 6 mg/mL)	Daily Dosage (Capsules)
≤15	30 mg once daily for 10 days	5 mL once daily for 10 days	One 30-mg capsule once daily for 10 days
15.1–23	45 mg once daily for 10 days	7.5 mL once daily for 10 days	One 45-mg capsule once daily for 10 days
23.1–40	60 mg once daily for 10 days	10 mL once daily for 10 days	Two 30-mg capsules once daily for 10 days
≥40.1	75 mg once daily for 10 days	12.5 mL once daily for 10 days	One 75-mg capsule once daily for 10 days

Avian Influenza A Virus Infection

Treatment of Avian Influenza A Virus Infections†

Oral

Optimum dosage and duration of treatment unknown, especially for severe or complicated infections.

Dosage usually recommended for treatment of seasonal influenza A and B virus infections has been recommended. (See Treatment of Seasonal Influenza A and B Virus Infections under Dosage and Administration.) Although some experts suggest a higher dosage be considered for severely ill or immunocompromised patients, limited data from patients with severe influenza, including some with avian influenza A (H1N1) infection, suggest that higher dosage may not provide additional clinical benefit.

Although 5 days of treatment may be adequate for uncomplicated illness, consider longer duration of treatment (i.e., 7–10 days) in severely ill hospitalized patients and immunosuppressed individuals.

Initiate treatment as early as possible. May be most beneficial if initiated within 2 days of symptom onset, but is warranted even if initiated >48 hours after illness onset or in patients who present for care in later stages of illness.

Prevention of Avian Influenza A Virus Infections†

Oral

Prophylaxis in close contacts of individuals with confirmed or probable infection or individuals exposed to infected birds: CDC and WHO state that the twice-daily dosage usually recommended for treatment of seasonal influenza A and B virus infections can be used. (See Treatment of Seasonal Influenza A and B Virus Infections under Dosage and Administration.)

Continue antiviral prophylaxis for 5–10 days after last known exposure. If exposure was time-limited and not ongoing, continue for 5 days after last known exposure.

Adults

Treatment of Seasonal Influenza A and B Virus Infections

Oral

75 mg twice daily for 5 days.

Initiate treatment as soon as possible (preferably within 48 hours of symptom onset). Although efficacy only established when given within 2 days after onset of symptoms, there is some evidence from hospitalized patients that antiviral treatment initiated up to 4 or 5 days after onset of symptoms may still be beneficial. (See Uses: Treatment of Seasonal Influenza A and B Virus Infections.)

Recommended duration of antiviral treatment is 5 days, but hospitalized patients with severe or prolonged infections or individuals with immunosuppression may require >5 days of treatment.

Prevention of Seasonal Influenza A and B Virus Infections

Oral

75 mg once daily.

Initiate prophylaxis within 48 hours after exposure (e.g., close contact with infected individual). Protection lasts as long as the drug is continued.

Avian Influenza A Virus Infections

Treatment of Avian Influenza A Virus Infections†

Oral

Optimum dosage and duration of treatment unknown, especially for severe or complicated infections.

Dosage usually recommended for treatment of seasonal influenza A and B virus infections has been recommended. (See Treatment of Seasonal Influenza A and B Virus Infections under Dosage and Administration.) Although some experts suggest a higher dosage (e.g., 150 mg twice daily in adults with normal renal function) be considered for severely ill or immunocompromised patients, limited data from those with severe influenza, including some with avian influenza A (H1N1) infection, suggest that higher dosage may not provide additional clinical benefit.

Although 5 days may be adequate for uncomplicated illness, consider longer duration of treatment (i.e., 7–10 days) in severely ill hospitalized patients and immunosuppressed individuals.

Prevention of Avian Influenza A Virus Infections†

Oral

Continue antiviral prophylaxis for 5–10 days after last known exposure. If exposure was time-limited and not ongoing, continue for 5 days after last known exposure.

Special Populations

Hepatic Impairment

Usual dosage can be used in patients with mild to moderate hepatic impairment (Child-Pugh score ≤9). Safety and pharmacokinetics not evaluated in those with severe hepatic impairment.

Renal Impairment

Adjust dosage in adults with Cl_cr 10–60 mL/minute and in those with end-stage renal disease (ESRD; Cl_cr ≤10 mL/minute) undergoing hemodialysis or continuous peritoneal dialysis. (See Table 3 and Table 4.)

Not recommended in adults with ESRD who are not undergoing dialysis.

Dosage recommendations not available for pediatric patients with renal impairment; CDC states dosage recommendations for adults with renal impairment may be useful for treatment or prevention of influenza in children with renal impairment who weigh >40 kg.

Dosage assumes 3 hemodialysis sessions in the 5-day period. If influenza symptoms developed during the 48 hours between hemodialysis sessions, give initial oseltamivir dose immediately and give the post-hemodialysis dose regardless of when initial dose was given.

Data derived from studies in patients undergoing CAPD.

Table 3. Oseltamivir Dosage for Treatment of Influenza in Adults with Renal Impairment1120
Cl_cr (mL/minute)	Dosage
>30 to 60	30 mg twice daily for 5 days
>10 to 30	30 mg once daily for 5 days
≤10 (ESRD receiving hemodialysis)	30 mg given immediately and then 30 mg after each hemodialysis cycle for maximum of 5 days
≤10 (ESRD receiving continuous peritoneal dialysis)	Single 30-mg dose given immediately
ESRD not receiving dialysis	Not recommended

Manufacturer states prophylaxis during community outbreaks may be continued for up to 6 weeks in immunocompetent individuals and up to 12 weeks in immunocompromised individuals.

Data derived from studies in patients undergoing CAPD.

Table 4. Oseltamivir Dosage for Prevention of Influenza in Adults with Renal Impairment1120
Cl_cr (mL/minute)	Dosage
>30 to 60	30 mg once daily for ≥10 days
>10 to 30	30 mg once every other day for ≥10 days
≤10 (ESRD receiving hemodialysis)	30 mg given immediately and then 30 mg after alternate hemodialysis cycles
≤10 (ESRD receiving continuous peritoneal dialysis)	30 mg given immediately and then 30 mg once weekly
ESRD not receiving dialysis	Not recommended

Geriatric Patients

Dosage adjustments not needed except those related to renal impairment.

Cautions for Oseltamivir

Contraindications

Known hypersensitivity to oseltamivir or any ingredient in the formulations.

Warnings/Precautions

Sensitivity Reactions

Dermatologic and Hypersensitivity Reactions

Anaphylaxis and serious skin reactions, including toxic epidermal necrolysis, Stevens-Johnson syndrome, and erythema multiforme, reported.

Rash, swelling of the face or tongue, allergy, dermatitis, eczema, or urticaria reported during postmarketing experience.

If an allergic reaction occurs or is suspected, discontinue oseltamivir and institute appropriate therapy.

Neuropsychiatric Events

Adverse neuropsychiatric events (e.g., agitation, anxiety, self-injury, delirium, hallucinations, altered level of consciousness, confusion, nightmares, delusions, abnormal behavior, seizures) and death reported. Cases generally had an abrupt onset and rapid resolution. Role of oseltamivir not determined. (See Pediatric Use under Cautions.)

Influenza itself can be associated with neurologic and behavioral symptoms (e.g., hallucinations, delirium, abnormal behavior) and fatalities can occur. Although such events may occur in the setting of encephalitis or encephalopathy, they can occur without obvious severe disease.

Closely monitor patients with influenza for signs of abnormal behavior. If neuropsychiatric symptoms develop, consider risks versus benefits of continued therapy.

Bacterial Infections

Serious bacterial infections may begin with influenza-like symptoms or may coexist with or occur as complications of influenza. No evidence that oseltamivir prevents such complications.

No evidence of efficacy in illness caused by any organisms other than influenza viruses.

Consider potential for secondary bacterial infections; if such infections occur, treat appropriately.

Immunocompromised Individuals

Although efficacy for treatment or prevention of influenza not established in immunocompromised patients, safety of oseltamivir prophylaxis has been demonstrated for up to 12 weeks in immunocompromised patients. Has been used for treatment or prevention of influenza in some immunocompromised individuals^†, including bone marrow transplant (BMT) recipients, hematopoietic stem cell transplant (HSCT) recipients, solid organ transplant recipients, and chemotherapy patients.

Other Concomitant Illness

Efficacy for treatment of influenza in patients with chronic cardiac disease and/or underlying pulmonary disease not established; no evidence to date of increased risk of adverse effects in this population.

No data available regarding use for treatment of influenza in patients with any medical condition severe or unstable enough to require inpatient care.

Influenza Vaccination

Not a substitute for annual vaccination with a seasonal influenza vaccine (influenza virus vaccine inactivated, influenza vaccine recombinant, influenza vaccine live intranasal).

Although antivirals used for treatment or prevention of influenza, including oseltamivir, may be used concomitantly with or at any time before or after influenza virus vaccine inactivated or influenza vaccine recombinant, influenza antivirals may inhibit the vaccine virus contained in influenza vaccine live intranasal and decrease efficacy of the live vaccine. (See Specific Drugs under Interactions.)

Sorbitol

When the commercially available oral suspension containing 6 mg/mL is used, each 75-mg dose of oseltamivir contains 2 g of sorbitol. This amount of sorbitol exceeds the maximum daily limit of sorbitol for individuals with hereditary fructose intolerance and may result in dyspepsia and diarrhea.

Specific Populations

Pregnancy

No adequate and well-controlled studies using oseltamivir in pregnant women to inform a drug-associated risk of adverse developmental outcomes. Available published epidemiological data suggest that oseltamivir administered during any trimester of pregnancy is not associated with an increased risk of birth defects; however, these studies had various limitations (e.g., small sample sizes, use of different comparison groups, lack of information on dosage) which preclude a definitive assessment of the risk.

In pregnant rats and rabbits, no adverse embryofetal effects observed when oral oseltamivir administered at dosages resulting in clinically relevant exposures.

Pregnant women are at increased risk for severe complications from influenza, which may lead to adverse pregnancy and/or fetal outcomes including maternal death, still births, birth defects, preterm delivery, low birthweight, and small size for gestational age.

Oseltamivir is the preferred antiviral for treatment of suspected or confirmed influenza or prevention of influenza in women who are pregnant or up to 2 weeks postpartum.

Lactation

Distributed into human milk in low concentrations that are considered unlikely to cause toxicity in nursing infants.

Consider benefits of breast-feeding and importance of oseltamivir to the woman; also consider potential adverse effects on breast-fed child from the drug or from underlying maternal condition.

Pediatric Use

Safety and efficacy for treatment of influenza not established in infants <2 weeks of age.

Safety and efficacy for prophylaxis of influenza not established in infants <1 year of age.

Manufacturer states efficacy not established in pediatric patients with asthma.

Young children, especially those <2 years of age, are at increased risk of influenza infection, hospitalization, and complications. During the 2009 influenza A (H1N1)pdm09 pandemic, FDA issued an emergency use authorization (EUA) that temporarily allowed use of oseltamivir for emergency treatment or prevention of these infections in infants <1 year of age^†. Although the EUA expired in June 2010, AAP states that, because of the known safety profile of the drug, use for treatment of influenza in full-term or preterm neonates from birth^† or for prevention of influenza in infants ≥3 months of age^† is appropriate if indicated. CDC and AAP state that oseltamivir not recommended for prevention of influenza in infants <3 months of age^† unless situation is judged critical. (See Pediatric Patients under Dosage and Administration.)

Unusual adverse neurologic and/or psychiatric effects (e.g., self-injury, delirium, hallucinations, mental confusion, abnormal behavior, seizures) and some deaths reported in pediatric patients receiving oseltamivir for treatment of influenza; reported principally in children in Japan. A relationship to oseltamivir difficult to assess because of concomitantly used drugs, comorbid conditions, and/or lack of adequate detail in reports. After reviewing available data, FDA stated that it was unable to conclude that a causal relationship exists between oseltamivir and the reported pediatric deaths.

Geriatric Use

No overall differences in safety or efficacy compared with younger adults.

Hepatic Impairment

Safety and pharmacokinetics not evaluated in patients with severe hepatic impairment.

Renal Impairment

Decreased clearance; possible increased risk of adverse effects.

Dosage adjustments recommended in adults with Cl_cr 10–60 mL/minute and adults with ESRD (Cl_cr ≤10 mL/minute) undergoing dialysis. Not recommended in adults with ESRD not undergoing dialysis. (See Renal Impairment under Dosage and Administration.)

Common Adverse Effects

GI effects (nausea, vomiting, diarrhea, abdominal pain), headache, bronchitis, insomnia, vertigo.

Drug Interactions

Oseltamivir phosphate and its active metabolite not metabolized by and do not inhibit CYP isoenzymes; drug interactions with drugs that are substrates or inhibitors of these enzymes unlikely.

Specific Drugs

Drug	Interaction	Comments
Acetaminophen	No clinically important pharmacokinetic interactions	Dosage adjustments not needed
Amantadine	No clinically important pharmacokinetic interactions	Dosage adjustments not needed
Amoxicillin	No clinically important pharmacokinetic interactions	Dosage adjustments not needed
Antacids (containing magnesium, aluminum, or calcium carbonate)	No clinically important pharmacokinetic interactions	Dosage adjustments not needed
Aspirin	No clinically important pharmacokinetic interactions	Dosage adjustments not needed
Cimetidine	No clinically important pharmacokinetic interactions	Dosage adjustments not needed
Influenza vaccines	Influenza virus vaccine inactivated (IV) or influenza vaccine recombinant (RIV): No specific studies, but oseltamivir unlikely to interfere with antibody response to the vaccines; oseltamivir does not interfere with humoral antibody response to influenza infection Influenza vaccine live intranasal (LAIV): No specific studies; oseltamivir may inhibit the vaccine virus and decrease efficacy of the live vaccine; oseltamivir may interfere with LAIV if given from 48 hours before through 2 weeks after the live vaccine	IIV or RIV: May administer concomitantly with or any time before or after oseltamivir LAIV: Do not administer the live vaccine until ≥48 hours after oseltamivir discontinued; do not administer oseltamivir until ≥2 weeks after the vaccine; if oseltamivir given 48 hours before to 14 days after LAIV, ACIP recommends revaccination using age-appropriate IIV or RIV
Peramivir	No evidence of drug interactions when oral oseltamivir used concomitantly with IV peramivir
Probenecid	Increased systemic exposure to oseltamivir carboxylate because of decreased renal tubular secretion	Not expected to be clinically important; dosage adjustments not needed
Rimantadine	No clinically important pharmacokinetic interactions	Dosage adjustments not needed
Warfarin	No clinically important pharmacokinetic interactions	Dosage adjustments not needed

Oseltamivir Pharmacokinetics

Absorption

Bioavailability

Oseltamivir phosphate readily absorbed following oral administration and then extensively converted to the active metabolite (oseltamivir carboxylate).

Absolute bioavailability of oseltamivir carboxylate 80% following oral administration of oseltamivir phosphate; peak concentrations of active metabolite attained within 3–4 hours.

Food

Administration of oseltamivir phosphate with food has no effect on peak plasma concentrations or AUC of oseltamivir carboxylate.

Distribution

Extent

Following oral administration of oseltamivir phosphate, oseltamivir carboxylate distributed throughout body, including upper and lower respiratory tract.

Placental transfer of oseltamivir carboxylate demonstrated in rats and rabbits; not known whether oseltamivir or oseltamivir carboxylate crosses the placenta in humans.

Oseltamivir and oseltamivir carboxylate are distributed into milk.

Plasma Protein Binding

Oseltamivir phosphate 42% bound to plasma proteins; oseltamivir carboxylate 3% bound to plasma proteins.

Elimination

Metabolism

Oseltamivir phosphate extensively (>90%) converted to oseltamivir carboxylate, principally by hepatic esterases. No further metabolism of oseltamivir carboxylate occurs.

Oseltamivir phosphate and oseltamivir carboxylate not metabolized by CYP enzymes.

Elimination Route

Oseltamivir carboxylate eliminated (>99%) by renal excretion; <20% of dose eliminated in feces.

Half-life

Plasma half-life of oseltamivir phosphate is 1–3 hours; half-life of oseltamivir carboxylate is 6–10 hours.

Special Populations

Renal impairment: Systemic exposure to oseltamivir carboxylate increases with declining renal function. In patients undergoing CAPD, peak concentrations following a single 30-mg dose of oseltamivir or once-weekly oseltamivir was approximately threefold higher than peak concentrations in patients with normal renal function receiving 75 mg twice daily.

Mild or moderate hepatic impairment: Systemic exposure to oseltamivir carboxylate is comparable to that in individuals without hepatic impairment.

Pediatric patients: Clearance of both oseltamivir phosphate and oseltamivir carboxylate increased in younger pediatric patients compared with adults. Total clearance of oseltamivir carboxylate decreases linearly with increasing age (up to 12 years of age); pharmacokinetics in those >12 years of age similar to adults.

Geriatric patients: Exposure to oseltamivir carboxylate at steady state approximately 25–35% higher in those 65–78 years of age compared with younger adults; half-lives in geriatric individuals are similar to those in younger adults.

Stability

Storage

Oral

Capsules

25°C (may be exposed to 15–30°C).

Powder for Suspension

25°C (may be exposed to 15–30°C).

Following reconstitution, store suspension at 2–8°C for up to 17 days. Alternatively, may be stored for up to 10 days at 25°C (may be exposed to 15–30°). Do not freeze.

Extemporaneous Oral Suspension

Extemporaneous oral suspensions prepared according to manufacturer's directions using 75-mg oseltamivir capsules and simple syrup, cherry syrup vehicle, or Ora-Sweet SF are stable for 5 weeks at 2–8°C or 5 days at 25°C.

Actions and Spectrum

Oseltamivir phosphate is prodrug and is inactive until hydrolyzed by hepatic esterases to oseltamivir carboxylate, the active metabolite.
Oseltamivir carboxylate is a potent selective competitive inhibitor of influenza virus neuraminidase, an enzyme essential for viral replication; possibly alters virus particle aggregation and release.
Active in vitro in cell culture against influenza A and B viruses. Majority of seasonal influenza A (H1N1)pdm09, influenza A (H3N2), and influenza B viruses circulating during recent influenza seasons have been susceptible to oseltamivir in vitro.
Active in vitro against some avian influenza A (H5N1) and other avian influenza A viruses (e.g., H7N2, H7N9, H9N2, H10N8).
Major mechanisms of resistance to neuraminidase inhibitors are viral neuraminidase (NA) mutations that affect ability of the drugs to inhibit the enzyme and hemagglutinin (HA) mutations that reduce viral dependence on neuraminidase activity.
Resistance to oseltamivir has been produced in vitro by serial passage of influenza A and B viruses in cell culture in the presence of increasing concentrations of oseltamivir carboxylate and reduced in vitro susceptibility have been observed in clinical isolates. Viral surveillance data from recent influenza seasons indicate that reduced in vitro susceptibility or resistance to oseltamivir was reported rarely in circulating strains of influenza A (H1N1)pdm09, influenza A (H3N2), influenza B (Yamagata lineage), and influenza B (Victoria lineage).
Avian influenza A (H5N1) and avian influenza A (H7N9) with reduced in vitro susceptibility or resistance to oseltamivir reported.
Cross-resistance between oseltamivir and other neuraminidase inhibitors (e.g., peramivir, zanamivir) reported in influenza A and B viruses. However, because oseltamivir, peramivir, and zanamivir bind to different sites on the neuraminidase enzyme or interact differently with binding sites, cross-resistance among the drugs is variable.

Advice to Patients

Importance of using the appropriate graduated oral dosing dispenser to measure and administer dose of reconstituted oral suspension.
Importance of initiating oseltamivir treatment as soon as possible after appearance of influenza symptoms (within 48 hours after symptom onset); efficacy not established if treatment begins >48 hours after symptoms have been established.
Importance of initiating oseltamivir prophylaxis as soon as possible after exposure to influenza (within 48 hours after exposure).
Importance of complying with the entire drug regimen. Importance of taking missed dose as soon as remembered, except if within 2 hours of the next scheduled dose.
Advise patients and/or caregivers of the risk of severe allergic reactions (including anaphylaxis) or serious skin reactions. Instruct patients and/or caregiver to discontinue oseltamivir and seek immediate medical attention if an allergic-like reaction occurs or is suspected.
Advise patients and/or caregivers of risk of neuropsychiatric events; importance of informing clinician if signs of unusual behavior develop.
Inform patients with hereditary fructose intolerance that a 75-mg dose of oseltamivir oral suspension delivers 2 g of sorbitol; this is above the daily maximum limit of sorbitol and may cause dyspepsia and diarrhea.
Advise patients that oseltamivir is not a substitute for annual vaccination with influenza virus vaccine.
Importance of informing clinicians of existing or contemplated therapy, including prescription and OTC drugs, as well as any concomitant illnesses.
Importance of women informing clinicians if they are or plan to become pregnant or plan to breast-feed.
Importance of advising patients of other important precautionary information. (See Cautions.)

Preparations

Excipients in commercially available drug preparations may have clinically important effects in some individuals; consult specific product labeling for details.

Please refer to the ASHP Drug Shortages Resource Center for information on shortages of one or more of these preparations.

* available from one or more manufacturer, distributor, and/or repackager by generic (nonproprietary) name

Oseltamivir Phosphate
Routes	Dosage Forms	Strengths	Brand Names	Manufacturer
Oral	Capsules	30 mg (of oseltamivir)*	Oseltamivir Capsules
			Tamiflu	Genentech
		45 mg (of oseltamivir)*	Oseltamivir Capsules
			Tamiflu	Genentech
		75 mg (of oseltamivir)*	Oseltamivir Capsules
			Tamiflu	Genentech
	For suspension	6 mg (of oseltamivir) per mL*	Oseltamivir for Suspension
			Tamiflu	Genentech