Rapivab Dailymed
Generic: peramivir is used for the treatment of Influenza, Human
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Recent Major Changes Section
Indications and Usage ( 1 )09/2017 Dosage and Administration     Acute Uncomplicated Influenza ( 2.1 )09/2017     Renal Impairment ( 2.2 )09/2017 Warnings and Precautions ( 5.2 )04/2018
1 Indications And Usage
RAPIVAB is indicated for the treatment of acute uncomplicated influenza in patients 2 years and older who have been symptomatic for no more than 2 days.
RAPIVAB is an influenza virus neuraminidase inhibitor indicated for the treatment of acute uncomplicated influenza in patients 2 years and older who have been symptomatic for no more than two days. (1 )
Limitations of Use:
- Efficacy based on clinical trials in which the predominant influenza virus type was influenza A; a limited number of subjects infected with influenza B virus were enrolled. (
1 )- Consider available information on influenza drug susceptibility patterns and treatment effects when deciding whether to use. (
1 )- Efficacy could not be established in patients with serious influenza requiring hospitalization. (
1 )
Limitations of Use:
- Efficacy of RAPIVAB is based on clinical trials of naturally occurring influenza in which the predominant influenza infections were influenza A virus; a limited number of subjects infected with influenza B virus were enrolled.
- Influenza viruses change over time. Emergence of resistance substitutions could decrease drug effectiveness. Other factors (for example, changes in viral virulence) might also diminish clinical benefit of antiviral drugs. Prescribers should consider available information on influenza drug susceptibility patterns and treatment effects when deciding whether to use RAPIVAB [see Microbiology (12.4)].
- The efficacy of RAPIVAB could not be established in patients with serious influenza requiring hospitalization [see Clinical Studies (14.3)].
2 Dosage And Administration
- Administer RAPIVAB as a single dose within 2 days of onset of influenza symptoms (
2.1 )- Administer RAPIVAB by intravenous infusion for a minimum of 15 minutes (
2.1 )
Recommended Usual Dose Single Dose Adults and adolescents (13 years and older) 600 mg Pediatric patients (2 to 12 years of age) 12 mg/kg(up to 600 mg)
* Up to maximum dose of 600 mg
Recommended Dose Adjustments in Patients with Altered Creatinine Clearance Creatinine Clearance (mL/min) ≥ 50 30-49 10-29 Adults and adolescents (13 years and older) 600 mg 200 mg 100 mg Pediatric patients *(2 to 12 years of age) 12 mg/kg 4 mg/kg 2 mg/kg
- Hemodialysis: Administer after dialysis (
2.2 )- RAPIVAB must be diluted prior to administration (
2.3 )- See the Full Prescribing Information for drug compatibility information (
2.4 )2.1 Dosage in Acute Uncomplicated Influenza
Administer RAPIVAB within 2 days of onset of symptoms of influenza.
Adults and Adolescents (13 years of age and older)
The recommended dose of RAPIVAB in adult and adolescent patients 13 years of age or older with acute uncomplicated influenza is a single 600 mg dose, administered via intravenous infusion for 15 to 30 minutes.
Pediatric Patients (2 to 12 years of age)
The recommended dose of RAPIVAB in pediatric patients 2 to 12 years of age with acute uncomplicated influenza is a single 12 mg/kg dose (up to a maximum dose of 600 mg), administered via intravenous infusion for 15 to 30 minutes.
2.2 Dosing in Patients with Renal Impairment
Significantly increased drug exposures were observed when RAPIVAB was administered to adult subjects with renal dysfunction [see Clinical Pharmacology (12.3)]. Therefore, the RAPIVAB dose should be reduced for patients with baseline creatinine clearance below 50 mL/min using the recommendations in Table 1 and Table 2. No dose adjustment is required for single administration of RAPIVAB in patients with creatinine clearance of 50 mL/min or higher [see Clinical Pharmacology (12.3)].
In patients with chronic renal impairment maintained on hemodialysis, RAPIVAB should be administered after dialysis at a dose adjusted based on renal function (Table 1 and Table 2) [see Clinical Pharmacology (12.3)].
Table 1. Dosage Adjustment for Adults and Adolescents (13 years and older) with Altered Creatinine Clearance * Calculated using the Cockcroft and Gault equation.
Creatinine Clearance * (mL/min) ≥50 30-49 10-29 Recommended Dose (mg) 600 mg 200 mg 100 mg
Table 2. Dosage Adjustment for Pediatric Patients (2 to 12 years of age) with Altered Creatinine Clearance * Calculated using the Cockcroft and Gault equation.
** Up to maximum dose of 600 mg
Creatinine Clearance * (mL/min) ≥50 30-49 10-29 Recommended Dose (mg/kg)** 12 mg/kg 4 mg/kg 2 mg/kg 2.3 Preparation of RAPIVAB for Intravenous Infusion
Use aseptic technique during the preparation of RAPIVAB to prevent inadvertent microbial contamination. There is no preservative or bacteriostatic agent present in the solution.
Follow the steps below to prepare a diluted solution of RAPIVAB:
(a) Do not use if seal over bottle opening is broken or missing.(b) Visually inspect RAPIVAB for particulate matter and discoloration prior to administration.(c) Dilute an appropriate dose of RAPIVAB 10 mg/mL solution [see Dosage and Administration (2)] in 0.9% or 0.45% sodium chloride, 5% dextrose, or lactated Ringer's to a maximum volume of 100 mL.(d) Administer the diluted solution via intravenous infusion for 15 to 30 minutes.(e) Discard any unused diluted solution of RAPIVAB after 24 hours.
Once a diluted solution of RAPIVAB has been prepared, administer immediately or store under refrigerated conditions (2° to 8°C or 36° to 46°F) for up to 24 hours. If refrigerated, allow the diluted solution of RAPIVAB to reach room temperature then administer immediately.
2.4 Drug Compatibility
RAPIVAB injection is compatible with 0.9% or 0.45% sodium chloride, 5% dextrose, or lactated Ringer's. Do not mix or co-infuse RAPIVAB with other intravenous medications.
RAPIVAB injection is compatible with materials commonly used for administration such as polyvinylchloride (PVC) bags and PVC-free bags, polypropylene syringes, and polyethylene tubing.
3 Dosage Forms And Strengths
Each vial of RAPIVAB injection contains 200 mg per 20 mL (10 mg per mL) as a clear, colorless solution [see How Supplied/Storage and Handling (16)].
Injection: 200 mg in 20 mL (10 mg/mL) in a single-use vial (3 )
4 Contraindications
RAPIVAB is contraindicated in patients with known serious hypersensitivity or anaphylaxis to peramivir or any component of the product. Severe allergic reactions have included anaphylaxis, erythema multiforme and Stevens-Johnson Syndrome [see Warnings and Precautions (5.1)].
Patients with known serious hypersensitivity or anaphylaxis to peramivir or any component of RAPIVAB (4 )
5 Warnings And Precautions
- Cases of anaphylaxis and serious skin/hypersensitivity reactions such as Stevens-Johnson syndrome and erythema multiforme have occurred with RAPIVAB. Discontinue RAPIVAB and initiate appropriate treatment if anaphylaxis or serious skin reaction occurs or is suspected. (
5.1 )- Neuropsychiatric events: Patients with influenza may be at an increased risk of hallucinations, delirium and abnormal behavior early in their illness. Monitor for signs of abnormal behavior. (
5.2 )5.1 Serious Skin/Hypersensitivity Reactions
Rare cases of serious skin reactions, including erythema multiforme, have been reported with RAPIVAB in clinical studies and in postmarketing experience. Cases of anaphylaxis and Stevens-Johnson Syndrome have been reported in postmarketing experience with RAPIVAB. Discontinue RAPIVAB and institute appropriate treatment if anaphylaxis or a serious skin reaction occurs or is suspected. The use of RAPIVAB is contraindicated in patients with known serious hypersensitivity or anaphylaxis to RAPIVAB [see Contraindications (4) and Adverse Reactions (6.2)].
5.2 Neuropsychiatric Events
Influenza can be associated with a variety of neurologic and behavioral symptoms that can include events such as hallucinations, delirium, and abnormal behavior, in some cases resulting in fatal outcomes. These events may occur in the setting of encephalitis or encephalopathy but can occur in uncomplicated influenza as well.
There have been postmarketing reports of delirium and abnormal behavior leading to injury in patients with influenza who were receiving neuraminidase inhibitors, including RAPIVAB. Because these events were reported voluntarily during clinical practice, estimates of frequency cannot be made, but they appear to be uncommon. These events were reported primarily among pediatric patients and often had an abrupt onset and rapid resolution. The contribution of RAPIVAB to these events has not been established. Patients with influenza should be closely monitored for signs of abnormal behavior.
5.3 Risk of Bacterial Infections
There is no evidence for efficacy of RAPIVAB in any illness caused by agents other than influenza viruses. Serious bacterial infections may begin with influenza-like symptoms or may coexist with or occur as complications during the course of influenza. RAPIVAB has not been shown to prevent such complications.
Prescribers should be alert to the potential for secondary bacterial infections and treat with antibiotics as appropriate.
6 Adverse Reactions
The following adverse reactions are discussed in other sections of the labeling:
Most common adverse reaction (incidence >2%) is diarrhea (6 )
To report SUSPECTED ADVERSE REACTIONS, contact BioCryst Pharmaceuticals, Inc. at 1-844-273-2327 or FDA at 1-800-FDA-1088 orwww.fda.gov/medwatch
6.1 Clinical Trials Experience
Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice.
Adverse Reactions in Adults (18 years of age and older)
In five randomized, double-blind, controlled trials, 1,399 subjects with acute uncomplicated influenza received a single dose of RAPIVAB, administered intravenously or intramuscularly, at doses up to 600 mg. Among the 664 subjects receiving RAPIVAB 600 mg (intravenous or intramuscular), the most commonly observed adverse reaction was diarrhea, occurring at a rate of 8% versus 7% in subjects receiving placebo. No subject receiving RAPIVAB 600 mg experienced a serious adverse event and less than 1% discontinued study because of an adverse reaction.
Clinically significant laboratory abnormalities (DAIDS Grade 2-4) uled in Table 3 occurred more frequently in subjects treated with RAPIVAB 600 mg (intravenous or intramuscular) than placebo. Only events occurring at ≥2% are included.
Table 3: Laboratory Abnormalities Occurring in ≥2% of Subjects Treated with RAPIVAB 600 mg * Frequencies based on treatment-emergent laboratory abnormalities
Laboratory Parameter Abnormality * RAPIVAB 600 mg Placebo Alanine Aminotransferase (>2.5 x ULN) (N=654)3% (N=430)2% Serum Glucose (>160 mg/dL) (N=660)5% (N=433)3% Creatine Phosphokinase (≥6.0 x ULN) (N=654)4% (N=431)2% Neutrophils (<1.000 x10 9 /L) (N=654)8% (N=430)6%
In a subset of subjects with serious influenza requiring hospitalization treated with RAPIVAB 600 mg as monotherapy (N=101), the following adverse reactions were also reported more frequently with RAPIVAB as compared to placebo: constipation (4% versus 2%), insomnia (3% versus 0%), AST increased (3% versus 2%), and hypertension (2% versus 0%).
Adverse Reactions in Adolescent and Pediatric Subjects (2 to 17 years of age)
Assessment of adverse reactions is based on a randomized, active-controlled study in which 110 adolescent and pediatric subjects ages 2 to 17 years of age with acute uncomplicated influenza received open-label treatment with a single dose of RAPIVAB (N=88), or 5 days of treatment with oseltamivir (N=22) [see Use In Specific Populations (8.4) and Clinical Studies (14.2)].
The safety profile of RAPIVAB in subjects 2 to 17 years of age was generally similar to that observed in adults. Specific adverse reactions reported in pediatric subjects treated with RAPIVAB (occurring in ≥2% of subjects) and not reported in adults included vomiting (3% versus 9% for oseltamivir), fever and tympanic membrane erythema (2% versus 0%, respectively, for each of these events). The only clinically significant laboratory abnormality (DAIDS Grade 2) occurring in ≥2% of pediatric subjects treated with RAPIVAB was proteinuria by dipstick analysis (3% versus 0% for oseltamivir).
6.2 Postmarketing Experience
The following additional adverse reactions have been identified during postapproval use of RAPIVAB. Because postmarketing reactions are reported voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure.
Dermatologic: Stevens-Johnson Syndrome, exfoliative dermatitis, rash [see Warnings and Precautions (5.1)]
General disorders and administration site conditions: anaphylactic/anaphylactoid reactions [see Warnings and Precautions (5.1)]
Psychiatric: abnormal behavior, hallucination [see Warnings and Precautions (5.2)]
7 Drug Interactions
This section describes clinically relevant drug interactions with RAPIVAB. Drug-drug interaction studies are described elsewhere in the labeling [see Clinical Pharmacology (12.3)].
Live attenuated influenza vaccine (LAIV), intranasal: Avoid use of LAIV within 2 weeks before or 48 hours after administration of RAPIVAB, unless medically indicated (7.1 )
7.1 Influenza Vaccines
Inactivated influenza vaccine can be administered at any time relative to use of RAPIVAB. For live attenuated influenza vaccine (LAIV), antiviral drugs may inhibit viral replication and thus may reduce vaccine efficacy. The concurrent use of RAPIVAB with LAIV intranasal has not been evaluated. Because of the potential for interference between these two products, avoid use of LAIV within 2 weeks before or 48 hours after administration of RAPIVAB unless medically indicated.
8 Use In Specific Populations
8.1 Pregnancy
Risk Summary
Limited available data with RAPIVAB use in pregnant women are insufficient to determine a drug-associated risk of adverse developmental outcomes. There are risks to the mother and fetus associated with influenza in pregnancy [see Clinical Considerations]. In animal reproduction studies, no adverse developmental effects were observed in rats when peramivir was administered by intravenous bolus injection during organogenesis at the maximum feasible dose, resulting in systemic drug exposures (AUC) approximately 8 times those in humans at the recommended dose. However, when peramivir was administered to rats by continuous intravenous infusion during the same gestation period, fetal abnormalities of reduced renal papilla and dilated ureters were observed. In rabbits, administration of peramivir during organogenesis at exposures 8 times those in humans at the recommended dose resulted in developmental toxicity (abortion or premature delivery) at a maternally toxic dose [see Data].
The estimated background risk of major birth defects and miscarriage for the indicated population is unknown. All pregnancies have a background risk of birth defect, loss, or other adverse outcomes. In the U.S. general population, the estimated background risk of major birth defects and miscarriage in clinically recognized pregnancies is 2-4% and 15-20%, respectively.
Clinical Considerations
Disease-Associated Maternal and/or Embryo/Fetal Risk
Pregnant women are at higher risk of severe complications from influenza, which may lead to adverse pregnancy and/or fetal outcomes including maternal death, stillbirths, birth defects, preterm delivery, low birthweight, and small for gestational age.
Data
Animal Data
Reproductive toxicity studies have been performed in rats and rabbits. In rats, peramivir was administered once daily by intravenous bolus injection at doses of 200, 400, and 600 mg/kg/day on gestational days 6-17. No treatment-related fetal toxicities were observed when peramivir was administered by intravenous bolus injection at the maximum feasible dose of 600 mg/kg, resulting in exposures approximately 8 times those in humans at the recommended dose.
Peramivir was also administered by continuous intravenous infusion to rats at daily doses of 50, 400, and 1000 mg/kg/day on gestational days 6-17. Dose related increases in the incidence of fetal abnormalities of reduced renal papilla and dilated ureters were observed at 400 and 1000 mg/kg/day. The systemic drug exposure in rats at a dose without fetal effects was less than the exposures in humans at the recommended dose.
In rabbits, peramivir was administered once daily by intravenous bolus injection at doses of 25, 50, 100, and 200 mg/kg/day on gestational days 7-19. Developmental toxicity (abortion or premature delivery) was observed at maternally toxic dose levels (100 and 200 mg/kg/day) resulting in exposures approximately 8 times those in humans at the recommended dose. The exposure in rabbits at doses without developmental toxicity was less than the exposure in humans at the recommended dose.
A pre/post-natal developmental toxicity study was performed in pregnant rats administered peramivir once daily by intravenous infusion at doses of 50, 200, 400 and 600 mg/kg/day on gestational day 6 through lactation day 20. No significant effects of peramivir on developmental outcomes were observed in nursing pups at up to the highest dose tested.
8.2 Lactation
Risk Summary
There are no data on the presence of RAPIVAB in human milk, the effects on the breastfed infant, or the effects on milk production. Peramivir is present in rat milk [see Data]. Limited clinical data during lactation preclude a clear determination of the risk of RAPIVAB to an infant during lactation; therefore, the developmental and health benefits of breastfeeding should be considered along with the mother's clinical need for RAPIVAB and any potential adverse effects on the breastfed child from the drug or from the underlying maternal condition.
Data
A pharmacokinetic study was performed in lactating rats administered a single intravenous dose of peramivir (10 mg/kg) on lactation/postpartum days 11-13. The maximum concentration of peramivir in milk was reached at 0.75 hours post-dose. The milk to plasma AUC ratio of peramivir was approximately 0.5.
8.4 Pediatric Use
The safety and effectiveness of RAPIVAB for the treatment of influenza has been established in pediatric patients 2 to 17 years of age. Use of RAPIVAB for this indication is supported by evidence from adequate and well-controlled trials of RAPIVAB in adults with additional data from Study 305, a randomized, active-controlled trial of 110 adolescent and pediatric subjects with acute uncomplicated influenza who received open-label treatment with a single dose of RAPIVAB or 5 days of treatment with oseltamivir administered within 48 hours of onset of symptoms of influenza [see Dosage and Administration (2.1), Clinical Pharmacology (12.3), and Clinical Studies (14.2)]. Study 305 included:
- 13 to 17 years of age: 21 subjects treated with RAPIVAB 600 mg
- 2 to 12 years of age: 67 subjects treated with RAPIVAB 12 mg/kg (up to a maximum dose of 600 mg)
Safety and effectiveness of RAPIVAB in pediatric patients less than 2 years of age have not been established.
8.5 Geriatric Use
Clinical trials of RAPIVAB did not include sufficient numbers of subjects aged 65 and over to determine whether they respond differently from younger subjects. Other reported clinical experience has not identified differences in exposures between the elderly and younger subjects [see Clinical Pharmacology (12.3)].
8.6 Patients with Impaired Renal Function
A reduced dose of RAPIVAB is recommended for patients with creatinine clearance below 50 mL/min [see Dosage and Administration (2.2), Clinical Pharmacology (12.3)]. Dose adjustment is not required for a single administration of RAPIVAB for patients with creatinine clearance 50 mL/min or higher [see Dosage and Administration (2.2), Clinical Pharmacology (12.3)].
In patients with chronic renal impairment maintained on hemodialysis, RAPIVAB should be administered after dialysis at a dose adjusted based on renal function [see Dosage and Administration (2.2), Clinical Pharmacology (12.3)].
8.7 Patients with Serious Influenza Requiring Hospitalization
The use of RAPIVAB was not shown to provide benefit in patients with serious influenza requiring hospitalization [see Indications and Usage (1) and Clinical Studies (14.2)].
10 Overdosage
There is no human experience of acute overdosage with RAPIVAB. Treatment of overdosage with RAPIVAB should consist of general supportive measures including monitoring of vital signs and observation of the clinical status of the patient. There is no specific antidote for overdose with RAPIVAB.
RAPIVAB is cleared by renal excretion and can be cleared by hemodialysis.
11 Description
RAPIVAB (peramivir) is an inhibitor of influenza virus neuraminidase. The chemical name is (1S,2S,3R,4R)-3-[(1S)-1-(acetylamino)-2-ethylbutyl]-4-(carbamimidoylamino)-2-hydroxycyclopentanecarboxylic acid, trihydrate. The chemical formula is C15H28N4O4 ∙ 3H2O, representing a molecular weight of 382.45. The molecular structure is as follows:
RAPIVAB injection is a clear, colorless, sterile, isotonic solution (200 mg per 20 mL) in glass vials fitted with rubber stoppers and royal blue flip-off seals. Each mL contains 10 mg peramivir (on an anhydrous basis) in 0.9% sodium chloride solution. The pH may have been adjusted with sodium hydroxide, USP and/or hydrochloric acid, USP. The pH is 5.5 – 8.5.
12 Clinical Pharmacology
12.1 Mechanism of Action
Peramivir is an antiviral drug with activity against influenza virus [see Microbiology (12.4)].
12.2 Cardiac Electrophysiology
At twice the maximum recommended dose, RAPIVAB did not prolong the QTc interval to any clinically relevant extent.
12.3 Pharmacokinetics
The pharmacokinetics of RAPIVAB was evaluated in Phase 1 trials in adults. The pharmacokinetic parameters following intravenous administration of RAPIVAB (0.17 to 2 times the recommended dose) showed a linear relationship between dose and exposure parameters (Cmax and AUC).
Following intravenous administration of a single dose of RAPIVAB 600 mg over 30 minutes, a maximum serum concentration (Cmax) of 46,800 ng/mL (46.8 μg/mL) was reached at the end of infusion. AUC0-∞ values were 102,700 ng•hr/mL.
Distribution
In vitro binding of peramivir to human plasma proteins is less than 30%.
Based on a population pharmacokinetic analysis, the central volume of distribution was 12.56 L.
Metabolism and Elimination
Peramivir is not a substrate for CYP enzymes, does not affect glucuronidation, and is not a substrate or inhibitor of P-glycoprotein mediated transport.
Peramivir is not significantly metabolized in humans.
The elimination half-life of RAPIVAB following IV administration to healthy subjects of 600 mg as a single dose is approximately 20 hours. The major route of elimination of RAPIVAB is via the kidney. Renal clearance of unchanged peramivir accounts for approximately 90% of total clearance. Negligible accumulation was observed following multiple doses, either once or twice daily, for up to 10 days.
Specific Populations
Race: Pharmacokinetics of peramivir was evaluated primarily in Caucasians and Asians. Based on a population pharmacokinetic analysis including race as a covariate, volume of distribution was dependent on weight and Asian race. No dose adjustment is required based on weight or Asian race.
Gender: Peramivir pharmacokinetics was similar in male and female subjects.
Pediatric Patients: The pharmacokinetics of peramivir has been evaluated in a study in pediatric subjects 2 to 17 years of age with acute uncomplicated influenza. Pharmacokinetic sampling in this study was limited to approximately 3 hours after administration of peramivir. Pharmacokinetics of peramivir in subjects 13 to 17 years of age was similar to those in adult subjects, with a Cmax of 54,300 ng/mL and AUC0-last of 72,400 ng•h/mL after administration of a single 600 mg dose. Pharmacokinetics of peramivir in subjects 2 to 12 years of age (Cmax of 61,300 ng/mL and AUC0-last of 81,700 ng•h/mL) administered a single 12 mg/kg dose was also similar to that in adult subjects administered a single 600 mg dose.
Geriatric Patients: Peramivir pharmacokinetics in elderly subjects was similar to non-elderly subjects. Peak concentrations of peramivir after a single 4 mg/kg IV dose were approximately 10% higher in elderly subjects when compared to young adults (22,647 vs 20,490 ng/mL, respectively). Exposure (AUC0-12) to peramivir at steady state was roughly 34% higher in elderly subjects compared to young adults (61,572 vs 46,000 ng•hr/mL, respectively). Dose adjustment is not required for elderly patients.
Patients with Impaired Renal Function: A trial was conducted in adult subjects with various degrees of renal impairment. When compared to a concurrent cohort with normal renal function, no change in mean Cmax was observed (6 subjects per cohort). However, mean AUC0-∞ after a single 2 mg/kg IV dose was increased by 28%, by 302%, and by 412% in subjects with creatinine clearance 50-79, 30-49, and 10-29 mL/min, respectively.
Hemodialysis was effective in reducing systemic exposure of peramivir by 73% to 81%.
A reduced dose of RAPIVAB is recommended for patients with creatinine clearance below 50 mL/min [see Dosage and Administration (2.2)].
The pharmacokinetics of peramivir has not been studied in pediatric subjects with renal impairment. Given that the pharmacokinetics in pediatric subjects is comparable to that observed in adults, the same proportional dose reduction in pediatric patients is recommended [see Dosage and Administration (2.2)].
Patients with Hepatic Impairment: The pharmacokinetics of peramivir in subjects with hepatic impairment has not been studied. No clinically relevant alterations to peramivir pharmacokinetics are expected in patients with hepatic impairment based on the route of peramivir elimination.
Assessment of Drug Interactions
The potential for CYP mediated interactions involving RAPIVAB with other drugs is low, based on the known elimination pathway of RAPIVAB, and data from in vitro studies indicating RAPIVAB does not induce or inhibit cytochrome P450.
There was no evidence of drug-drug interactions when RAPIVAB was administered with oral rimantadine, oseltamivir, or oral contraceptives containing ethinyl estradiol and levonorgestrel; or when peramivir IM was administered with oral probenecid.
RAPIVAB is primarily cleared in the urine by glomerular filtration.
12.4 Microbiology
Mechanism of Action
Peramivir is an inhibitor of influenza virus neuraminidase, an enzyme that releases viral particles from the plasma membrane of infected cells. The median neuraminidase inhibitory activities (IC50 values) of peramivir in biochemical assays against influenza A/H1N1 virus, influenza A/H3N2 virus, and influenza B virus clinical isolates were 0.16 nM (n=44; range 0.01-1.77 nM), 0.13 nM (n=32; range 0.05-11 nM), and 0.99 nM (n=39; range 0.04-54.2 nM), respectively, in a neuraminidase assay with a fluorescently labeled MUNANA substrate.
Antiviral Activity
The antiviral activity of peramivir against laboratory strains and clinical isolates of influenza virus was determined in cell culture. The concentrations of peramivir required for inhibition of influenza virus in cell culture varied depending on the assay method used and the virus tested. The median 50% effective concentrations (EC50 values) of peramivir in cell culture assays were 2.6 nM (n=13; range 0.09-21 nM), 0.08 nM (n=17; range 0.01-1.9 nM) and 4.8 nM (n=11; range 0.06-120 nM) for influenza A/H1N1 virus, A/H3N2 virus, and B virus strains, respectively.
The relationship between the antiviral activity in cell culture, inhibitory activity in the neuraminidase assay, and the inhibition of influenza virus replication in humans has not been established.
Resistance
Cell culture: Influenza A and B virus isolates with reduced susceptibility to peramivir were recovered by serial passage of virus in cell culture in the presence of increasing concentrations of peramivir. Reduced susceptibility of influenza virus to inhibition by peramivir may be conferred by amino acid substitutions in the viral neuraminidase or hemagglutinin proteins (Table 4).
Table 4: Amino Acid Substitutions Selected by Peramivir in Cell Culture Studies * Numbering based on A/California/04/2009
†Numbering based on A/Texas/50/2012
‡ Numbering based on B/Massachusetts/02/2012
§ Numbering begins after the predicted signal peptide.
Type/Subtype Protein A/H1N1 * A/H3N2 †B ‡ HA § D125S, R208K N63K, G78D, N145D, K189E T139N, G141E, R162M, D195N, T198N, Y319H NA N58D, I211T, H275Y - H273Y
In vivo: Influenza A and B virus isolates with amino acid substitutions associated with reduced susceptibility to peramivir were observed in clinical isolates collected during clinical trials with peramivir (Table 5). Amino acid substitutions have also been observed in viral isolates sampled during community surveillance studies which may be associated with reduced susceptibility to peramivir (Table 5). The clinical impact of this reduced susceptibility is unknown and may be strain-dependent.
Table 5: Neuraminidase Amino Acid Substitutions Associated with Reduced Susceptibility to Peramivir in Clinical Virus Isolates * Numbering based on A/California/04/2009
†Numbering based on A/Texas/50/2012
‡ Numbering based on B/Massachusetts/02/2012
Protein Type / Subtype Influenza A/H1N1 * Influenza A/H3N2 †Influenza B ‡ NA Clinical Trial R152K, H275Y R292K, N294S - Community Surveillance Studies G147R, I223R/V, S247N, H275Y E119V, Q136K, D151A/E/G/N/V P139S, D197E/N/Y, I221T/V, R374K
Circulating seasonal influenza strains expressing neuraminidase resistance-associated substitutions have been observed in individuals who have not received RAPIVAB. Prescribers should consider available information from the CDC on influenza virus drug susceptibility patterns and treatment effects when deciding whether to use RAPIVAB.
Cross Resistance
Cross-resistance between peramivir, oseltamivir and zanamivir was observed in neuraminidase biochemical assays and cell culture assays. The amino acid substitutions that resulted in reduced susceptibility to peramivir and either oseltamivir or zanamivir are summarized in Table 6. The clinical impact of this reduced susceptibility is unknown and may be strain-dependent.
Table 6: Summary of Amino Acid Substitutions with Cross-Resistance between Peramivir and Oseltamivir or Zanamivir in Susceptibility Assays * Numbering based on A/California/04/2009
†Numbering based on A/Texas/50/2012
‡ Numbering based on B/Massachusetts/02/2012
§ Numbering begins after the predicted signal peptide.
Type/ Subtype Protein A/H1N1 * A/H3N2 †B ‡ Oseltamivir HA § - N63K, N145D - NA E119V, D151G/N, R152K, Y155H, D199G, I223R/T/V, S247N, G249R+I267V, H275Y, N295S, Q313R, R368K, I427T E119I/V, I222V, S247P, R292K, N294S P139S, G140R, D197E/N/Y, I221T/V, H273Y, R374K, G407S Zanamivir HA § - N63K, N145D - NA Q136K, R152K, Y155H, D199G, I223T, S247N, G249R+I267V, N295S, Q313R, R368K, I427T E119G/V, T148I, D151A/G/N/V, I222V, S247P, R292K, N294S E117A/D/G, P139S, R150K, D197E/N/Y, R292K, R374K, G407S
No single amino acid substitution has been identified that could confer cross-resistance between the neuraminidase inhibitor class (peramivir, oseltamivir, zanamivir) and the M2 ion channel inhibitor class (amantadine, rimantadine). However, a virus may carry a neuraminidase inhibitor resistance-associated substitution in neuraminidase and an M2 ion channel inhibitor resistance-associated substitution in M2 and may therefore be resistant to both classes of inhibitors. The clinical relevance of phenotypic cross-resistance evaluations has not been established and may be strain-dependent.
Immune Response
No influenza vaccine/peramivir interaction study has been conducted.
13 Nonclinical Toxicology
13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility
Carcinogenesis
Carcinogenicity studies by intravenous injection of peramivir were not performed. However, in an oral carcinogenicity study in Sprague-Dawley rats no drug-related neoplasms were observed at drug exposures 0.2- to 0.5-fold that of humans at the clinically recommended dose of 600 mg/day.
Mutagenesis
Peramivir was not mutagenic or clastogenic in a battery of in vitro and in vivo assays including the Ames bacterial reverse mutation assay, the Chinese hamster ovary chromosomal aberration test, and the in vivo mouse micronucleus test with intravenous administration.
Impairment of Fertility
Peramivir had no effects on mating or fertility in rats up to 600 mg/kg/day, at which exposures were approximately 8-fold of those in humans at the clinically recommended dose.
13.2 Animal Toxicology and/or Pharmacology
Peramivir caused renal tubular necrosis and abnormal renal function in rabbits. Toxicities included tubular dilatation and necrosis with protein casts in cortical areas, dilated tubules with mineralization in corticomedullary junction areas, and multifocal tubular regeneration. The rabbit appeared to be the sensitive species for peramivir renal toxicity, which was noted at exposures approximately 2- to 4-fold those in humans at the clinically recommended dose.
14 Clinical Studies
14.1 Acute Uncomplicated Influenza in Adults
Study 621 was a randomized, multicenter, blinded trial conducted in Japan that evaluated a single intravenous administration of RAPIVAB 300 mg, RAPIVAB 600 mg, or placebo administered over 30 minutes in subjects 20 to 65 years of age with acute uncomplicated influenza. Subjects were eligible if they had fever greater than or equal to 38°C (axillary) and a positive rapid antigen test for influenza virus, accompanied by at least two symptoms (cough, nasal symptoms, sore throat, myalgia, chills/sweats, malaise, fatigue, or headache). In addition, all subjects enrolled were allowed to take fever-reducing medications.
Study treatment was started within 48 hours of onset of symptoms. Subjects participating in the trial were required to self-assess their influenza symptoms as “none', ‘mild', ‘moderate', or ‘severe' twice daily. The primary endpoint, time to alleviation of symptoms, was defined as the number of hours from initiation of study drug until the start of the 24 hour period in which all seven symptoms of influenza (cough, sore throat, nasal congestion, headache, feverishness, myalgia and fatigue) were either absent or present at a level no greater than mild for at least 21.5 hours.
The overall efficacy population, consisting of subjects with confirmed influenza and administered study drug, totaled 297 subjects. Among the 98 subjects enrolled in the RAPIVAB 600 mg dose group, the mean age was 34 years; 55% were male; 34% were smokers; 99% were infected with influenza A virus and 1% were infected with influenza B virus. The majority of subjects (53%) had influenza illness lasting less than 24 hours at the time of presentation.
Overall, subjects receiving RAPIVAB 600 mg experienced alleviation of their combined influenza symptoms a median of 21 hours sooner than those receiving placebo. The median time to recovery to normal temperature (less than 37°C) in the 600 mg group was approximately 12 hours sooner compared to placebo.
Insufficient numbers of subjects infected with influenza B virus were enrolled to determine efficacy of RAPIVAB in this influenza type.
14.2 Acute Uncomplicated Influenza in Pediatric Subjects
Study 305 was a randomized, multicenter, open-label, active-controlled trial to evaluate the safety, pharmacokinetics and efficacy of a single intravenous dose of RAPIVAB administered for a minimum of 15 minutes in subjects 2 to 17 years of age with acute uncomplicated influenza who had fever greater than or equal to 37.8°C (oral) with at least one respiratory symptom (cough or rhinitis) or a positive influenza rapid antigen test. Study treatment was started within 48 hours of onset of symptoms. Subjects were randomized to receive RAPIVAB 600 mg (13 to 17 years of age), RAPIVAB 12 mg/kg up to a maximum dose of 600 mg (2 to 12 years of age), or oral oseltamivir BID for 5 days. In addition, all enrolled subjects were allowed to take fever-reducing medications.
The overall efficacy population, consisting of subjects with confirmed influenza who were administered study drug, totaled 84 subjects. Among the 69 subjects treated with RAPIVAB, the median age was 7.9 years; 55% were male; 58% were infected with influenza A virus, 36% were infected with influenza B virus, and 6% were co-infected with influenza A and B viruses.
The primary endpoint was the safety of peramivir compared to oseltamivir as measured by adverse events, laboratory analysis, vital signs and physical exams. Secondary endpoints included efficacy outcomes such as time to resolution of influenza symptoms and time to resolution of fever; however, the trial was not powered to detect statistically significant differences in these secondary endpoints. Subjects receiving RAPIVAB experienced a median time to alleviation of their combined influenza symptoms of 79 hours (interquartile range: 34-122 hours) compared to 107 hours (interquartile range: 57-145 hours) in subjects receiving oseltamivir. The median time to recovery to normal temperature (less than 37°C) was 40 hours (interquartile range: 19-68 hours) and 28 hours (interquartile range: 15-41 hours) in subjects receiving RAPIVAB and oseltamivir, respectively [see Use In Specific Populations (8.4)].
14.3 Serious Influenza Requiring Hospitalization
The efficacy of RAPIVAB could not be established in patients with serious influenza requiring hospitalization [see Indications and Usage (1)].
A randomized, double-blind, multicenter, placebo-controlled trial (Study 301) was conducted in 398 subjects with serious influenza requiring hospitalization. Subjects were randomized to receive RAPIVAB 600 mg daily for 5 days plus standard of care versus standard of care plus placebo within 72 hours of start of symptoms. The primary endpoint was time to clinical resolution defined as the time in hours from initiation of study treatment until resolution of at least 4 of 5 signs (temperature, oxygen saturation, respiration rate, heart rate, or systolic blood pressure), maintained for at least 24 hours. RAPIVAB plus standard of care did not improve median time to clinical resolution compared with standard of care alone.
16 How Supplied/storage And Handling
RAPIVAB injection is a clear, colorless sterile, isotonic solution. Each single-use vial contains 200 mg per 20 mL (10 mg/mL) of peramivir in a clear glass vial (NDC # 61364-181-01). RAPIVAB injection is supplied in cartons containing three single-use vials (NDC # 61364-181-03).
Store vials of RAPIVAB injection in original cartons at 20° to 25°C (68° to 77°F). Excursions are permitted to 15° to 30°C (59° to 86°F).
Do not use if seal over bottle opening is broken or missing.
17 Patient Counseling Information
Advise patients of the following:
- There is a risk of severe allergic reactions (including anaphylaxis) or serious skin reactions with RAPIVAB use. Advise patients to seek immediate medical attention if an allergic-like reaction occurs or is suspected [see Warnings and Precautions (5.1)].
- There is a risk of neuropsychiatric events in patients with influenza. Patients should contact their physician if they experience signs of abnormal behavior after receiving RAPIVAB [see Warnings and Precautions (5.2)].
Manufactured for:BioCryst Pharmaceuticals, Inc.Durham, NC 27703
Distributed by:Seqirus USA Inc. Summit, NJ 07901
RAPIVAB is a registered trademark of Seqirus UK Limited.
206426-GS-004
Package Label.principal Display Panel
PRINCIPAL DISPLAY PANEL - 200 mg/20 mL Vial Carton
Rx Only
NDC 61364-181-03
Rapivabâ„¢ peramivir injection
200 mg/20 mL per vial (10 mg/mL)
For Intravenous Infusion Only Dilute Before Use
Carton contains 3 vials.
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