Fluticasone Furoate And Vilanterol Trifenatate

Q: What is Fluticasone Furoate And Vilanterol Trifenatate used for?

1 INDICATIONS AND USAGE BREO ELLIPTA is a combination of fluticasone furoate, a corticosteroid, and vilanterol, a long-acting beta 2 -adrenergic agonist (LABA), indicated for: • the maintenance treatment of patients with chronic obstructive pulmonary disease (COPD). ( 1.1 ) • the maintenance treatment of asthma in patients aged 5 years and older. ( 1.2 ) Limitations of Use: Not indicated for relief of acute bronchospasm. ( 1.3 , 5.2 ) 1.1 Maintenance Treatment of Chronic Obstructive Pulmonary Di

Q: How should I take Fluticasone Furoate And Vilanterol Trifenatate?

2 DOSAGE AND ADMINISTRATION • For oral inhalation only. ( 2.3 ) • Maintenance treatment of COPD: 1 actuation of BREO ELLIPTA 100/25 mcg once daily administered by oral inhalation. ( 2.1 ) • Maintenance treatment of asthma in adult patients aged 18 years and older: 1 actuation of BREO ELLIPTA 100/25 mcg or BREO ELLIPTA 200/25 mcg once daily administered by oral inhalation. ( 2.2 ) • Maintenance treatment of asthma in pediatric patients aged 12 to 17 years: 1 actuation of BREO ELLIPTA 100/25 mcg o

Q: What should I know before taking Fluticasone Furoate And Vilanterol Trifenatate?

5 WARNINGS AND PRECAUTIONS • LABA monotherapy increases the risk of serious asthma-related events. ( 5.1 ) • Do not initiate in acutely deteriorating COPD or asthma. Do not use to treat acute symptoms. ( 5.2 ) • Do not use in combination with additional therapy containing a LABA because of risk of overdose. ( 5.3 ) • Candida albicans infection of the mouth and pharynx may occur. Monitor patients periodically. Advise the patient to rinse his/her mouth with water without swallowing after inhalatio

Q: Is Fluticasone Furoate And Vilanterol Trifenatate available over the counter?

Fluticasone Furoate And Vilanterol Trifenatate is a prescription medication. You will need a valid prescription from a licensed healthcare provider.

Prescription

商品名： Breo Ellipta

剤形

Inhaler

投与経路

RESPIRATORY (INHALATION)

製造会社

GlaxoSmithKline LLC

About This Medication

11 DESCRIPTION BREO ELLIPTA is an inhalation powder drug product for delivery of a combination of fluticasone furoate (an ICS) and vilanterol (a LABA) to patients by oral inhalation. Fluticasone furoate, a synthetic trifluorinated corticosteroid, has the chemical name (6α,11β,16α,17α)-6,9-difluoro-17-{[(fluoro-methyl)thio]carbonyl}-11-hydroxy-16-methyl-3-oxoandrosta-1,4-dien-17-yl 2-furancarboxylate and the following chemical structure: Fluticasone furoate is a white powder with a molecular weight of 538.6, and the empirical formula is C 27 H 29 F 3 O 6 S. It is practically insoluble in water. Vilanterol trifenatate has the chemical name triphenylacetic acid-4-{(1 R )-2-[(6-{2-[2,6-dicholorobenzyl)oxy]ethoxy}hexyl)amino]-1-hydroxyethyl}-2-(hydroxymethyl)phenol (1:1) and the following chemical structure: Vilanterol trifenatate is a white powder with a molecular weight of 774.8, and the empirical formula is C 24 H 33 Cl 2 NO 5 •C 20 H 16 O 2 . It is practically insoluble in water. BREO ELLIPTA is a light grey and pale blue plastic inhaler containing 2 foil blister strips. Each blister on one strip contains a white powder blend of micronized fluticasone furoate (50, 100, or 200 mcg) and lactose monohydrate (12.5, 12.4 or 12.3 mg, respectively), and each blister on the other strip contains a white powder blend of micronized vilanterol trifenatate (40 mcg equivalent to 25 mcg of vilanterol), magnesium stearate (125 mcg), and lactose monohydrate (12.34 mg). The lactose monohydrate contains milk proteins. After the inhaler is activated, the powder within both blisters is exposed and ready for dispersion into the airstream created by the patient inhaling through the mouthpiece. Under standardized in vitro test conditions, BREO ELLIPTA delivers 46, 92 or 184 mcg of fluticasone furoate and 22 mcg of vilanterol per dose when tested at a flow rate of 60 L/min for 4 seconds. In adult patients with obstructive lung disease and severely compromised lung function (COPD with FEV 1 /FVC <70% and FEV 1 <30% predicted or FEV 1 <50% predicted plus chronic respiratory failure), mean peak inspiratory flow through the ELLIPTA inhaler was 66.5 L/min (range: 43.5 to 81.0 L/min). In adult patients with severe asthma, mean peak inspiratory flow through the ELLIPTA inhaler was 96.6 L/min (range: 72.4 to 124.6 L/min). In pediatric patients with asthma aged 5 to 11 years, mean peak inspiratory flow through the ELLIPTA inhaler was 60.6 L/min (range: 36.3 to 82.5 L/min). The actual amount of drug delivered to the lung will depend on patient factors, such as inspiratory flow profile. fluticasone furoate chemical structure vilanterol trifenatate chemical structure

有効成分

成分	含有量
Fluticasone Furoate	-
Vilanterol Trifenatate	-

適応症と用法

1 INDICATIONS AND USAGE BREO ELLIPTA is a combination of fluticasone furoate, a corticosteroid, and vilanterol, a long-acting beta 2 -adrenergic agonist (LABA), indicated for: • the maintenance treatment of patients with chronic obstructive pulmonary disease (COPD). ( 1.1 ) • the maintenance treatment of asthma in patients aged 5 years and older. ( 1.2 ) Limitations of Use: Not indicated for relief of acute bronchospasm. ( 1.3 , 5.2 ) 1.1 Maintenance Treatment of Chronic Obstructive Pulmonary Disease BREO ELLIPTA is indicated for the maintenance treatment of patients with chronic obstructive pulmonary disease (COPD). 1.2 Maintenance Treatment of Asthma BREO ELLIPTA is indicated for the maintenance treatment of asthma in patients aged 5 years and older. 1.3 Limitations of Use BREO ELLIPTA is NOT indicated for the relief of acute bronchospasm.

作用のしくみ

12.1 Mechanism of Action BREO ELLIPTA BREO ELLIPTA contains both fluticasone furoate and vilanterol. The mechanisms of action described below for the individual components apply to BREO ELLIPTA. These drugs represent 2 different classes of medications (an ICS and a LABA), each having different effects on clinical and physiological indices. Fluticasone Furoate Fluticasone furoate is a synthetic trifluorinated corticosteroid with anti-inflammatory activity. Fluticasone furoate has been shown in vitro to exhibit a binding affinity for the human glucocorticoid receptor that is approximately 29.9 times that of dexamethasone and 1.7 times that of fluticasone propionate. The clinical relevance of these findings is unknown. The precise mechanism through which fluticasone furoate affects COPD and asthma symptoms is not known. Inflammation is an important component in the pathogenesis of COPD and asthma. Corticosteroids have been shown to have a wide range of actions on multiple cell types (e.g., mast cells, eosinophils, neutrophils, macrophages, lymphocytes) and mediators (e.g., histamine, eicosanoids, leukotrienes, cytokines) involved in inflammation. Specific effects of fluticasone furoate demonstrated in in vitro and in vivo models included activation of the glucocorticoid response element, inhibition of pro-inflammatory transcription factors such as NFkB, and inhibition of antigen-induced lung eosinophilia in sensitized rats. These anti-inflammatory actions of corticosteroids may contribute to their efficacy. Vilanterol Vilanterol is a LABA. In vitro tests have shown the functional selectivity of vilanterol was similar to salmeterol. The clinical relevance of this in vitro finding is unknown. Although beta 2 -receptors are the predominant adrenergic receptors in bronchial smooth muscle and beta 1 -receptors are the predominant receptors in the heart, there are also beta 2 -receptors in the human heart comprising 10% to 50% of the total beta-adrenergic receptors. The precise function of these receptors has not been established, but they raise the possibility that even highly selective beta 2 -agonists may have cardiac effects. The pharmacologic effects of beta 2 -adrenergic agonist drugs, including vilanterol, are at least in part attributable to stimulation of intracellular adenyl cyclase, the enzyme that catalyzes the conversion of adenosine triphosphate (ATP) to cyclic-3′,5′-adenosine monophosphate (cyclic AMP). Increased cyclic AMP levels cause relaxation of bronchial smooth muscle and inhibition of release of mediators of immediate hypersensitivity from cells, especially from mast cells.

用量と投与方法

2 DOSAGE AND ADMINISTRATION • For oral inhalation only. ( 2.3 ) • Maintenance treatment of COPD: 1 actuation of BREO ELLIPTA 100/25 mcg once daily administered by oral inhalation. ( 2.1 ) • Maintenance treatment of asthma in adult patients aged 18 years and older: 1 actuation of BREO ELLIPTA 100/25 mcg or BREO ELLIPTA 200/25 mcg once daily administered by oral inhalation. ( 2.2 ) • Maintenance treatment of asthma in pediatric patients aged 12 to 17 years: 1 actuation of BREO ELLIPTA 100/25 mcg once daily administered by oral inhalation. ( 2.2 ) • Maintenance treatment of asthma in pediatric patients aged 5 to 11 years: 1 actuation of BREO ELLIPTA 50/25 mcg once daily administered by oral inhalation. ( 2.2 ) 2.1 Recommended Dosage for Maintenance Treatment of Chronic Obstructive Pulmonary Disease The recommended dosage of BREO ELLIPTA 100/25 mcg (containing fluticasone furoate 100 mcg and vilanterol 25 mcg) is 1 actuation once daily by oral inhalation. If shortness of breath occurs in the period between doses, an inhaled, short-acting beta 2 -agonist (rescue medicine, e.g., albuterol) should be used for immediate relief. 2.2 Recommended Dosage for Maintenance Treatment of Asthma Adult Patients Aged 18 Years and Older The recommended dosage of BREO ELLIPTA 100/25 mcg (containing fluticasone furoate 100 mcg and vilanterol 25 mcg) is 1 actuation once daily by oral inhalation or BREO ELLIPTA 200/25 mcg (containing fluticasone furoate 200 mcg and vilanterol 25 mcg) is 1 actuation once daily by oral inhalation. • When choosing the starting dosage strength of BREO ELLIPTA, consider the patients’ disease severity, their previous asthma therapy, including the inhaled corticosteroid (ICS) dosage, as well as the patients’ current control of asthma symptoms and risk of future exacerbation. • The median time to onset, defined as a 100-mL increase from baseline in mean forced expiratory volume in 1 second (FEV1), was approximately 15 minutes after beginning treatment. Individual patients will experience a variable time to onset and degree of symptom relief. • For patients who do not respond adequately to BREO ELLIPTA 100/25 mcg once daily, increasing the dose to BREO ELLIPTA 200/25 mcg once daily may provide additional improvement in asthma control. For patients who do not respond adequately to BREO ELLIPTA 200/25 mcg once daily, re-evaluate and consider other therapeutic regimens and additional therapeutic options. • The maximum recommended dosage is 1 inhalation of BREO ELLIPTA 200/25 mcg once daily. • If asthma symptoms arise in the period between doses, an inhaled, short-acting beta2-agonist (rescue medicine, e.g., albuterol) should be used for immediate relief. Pediatric Patients Aged 12 to 17 Years The recommended dosage of BREO ELLIPTA 100/25 mcg (containing fluticasone furoate 100 mcg and vilanterol 25 mcg) is 1 actuation once daily by oral inhalation [see Warnings and Precautions ( 5.14 )] . Pediatric Patients Aged 5 to 11 Years The recommended dosage of BREO ELLIPTA 50/25 mcg (containing fluticasone furoate 50 mcg and vilanterol 25 mcg) is 1 actuation once daily by oral inhalation [see Warnings and Precautions ( 5.14 )] . 2.3 Administration Information • After inhalation, the patient should rinse his/her mouth with water without swallowing to help reduce the risk of oropharyngeal candidiasis [see Warnings and Precautions ( 5.4)] . • BREO ELLIPTA should be used at the same time every day. Do not use BREO ELLIPTA more than 1 time every 24 hours. • More frequent administration or a greater number of inhalations (more than 1 inhalation daily) of the prescribed strength of BREO ELLIPTA is not recommended as some patients are more likely to experience adverse effects with higher doses.

Side Effects Overview

6 ADVERSE REACTIONS The following clinically significant adverse reactions are described elsewhere in labeling: • Serious Asthma-Related Events – Hospitalizations, Intubations, Death [see Warnings and Precautions ( 5.1 )] • Oropharyngeal Candidiasis [see Warnings and Precautions ( 5.4 )] • Pneumonia [see Warnings and Precautions ( 5.5 )] • Immunosuppression and Risk of Infections [see Warnings and Precautions ( 5.6 )] • Hypercorticism and Adrenal Suppression [see Warnings and Precautions ( 5.8 )] • Paradoxical Bronchospasm [see Warnings and Precautions ( 5.10 )] • Cardiovascular Effects [see Warnings and Precautions ( 5.12 )] • Reduction in Bone Mineral Density [see Warnings and Precautions ( 5.13 )] • Growth Effects [see Warnings and Precautions ( 5.14 )] • Glaucoma and Cataracts [see Warnings and Precautions ( 5.15 )] Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared with rates in the clinical trials of another drug and may not reflect the rates observed in practice. • COPD: Most common adverse reactions (incidence ≥3%) are nasopharyngitis, upper respiratory tract infection, headache, oral candidiasis, back pain, pneumonia, bronchitis, sinusitis, cough, oropharyngeal pain, arthralgia, hypertension, influenza, pharyngitis, and pyrexia. ( 6.1 ) • Asthma: Most common adverse reactions (incidence ≥2%) are nasopharyngitis, oral candidiasis, headache, influenza, upper respiratory tract infection, bronchitis, sinusitis, oropharyngeal pain, dysphonia, and cough. ( 6.2 ) To report SUSPECTED ADVERSE REACTIONS, contact GlaxoSmithKline at 1-888-825-5249 or FDA at 1-800-FDA-1088 or www.fda.gov/medwatch. 6.1 Clinical Trials Experience in Chronic Obstructive Pulmonary Disease The safety data described below are based on two 6-month and two 12-month trials and one long-term mortality trial. In these studies, 5,356 patients with COPD received at least 1 dose of BREO ELLIPTA 100/25 mcg. Adverse reactions observed in other studies of BREO ELLIPTA in COPD patients were similar to those observed in these 5 trials. 6-Month Trials The incidence of adverse reactions associated with BREO ELLIPTA 100/25 mcg in Table 2 is based on 2 placebo-controlled, 6-month clinical trials (Trials 1 and 2; n = 1,224 and n = 1,030, respectively). Of the 2,254 patients, 70% were male and 84% were White. They had a mean age of 62 years and an average smoking history of 44 pack years, with 54% identified as current smokers. At screening, the mean postbronchodilator percent predicted FEV 1 was 48% (range: 14% to 87%), the mean postbronchodilator FEV 1 /forced vital capacity (FVC) ratio was 47% (range: 17% to 88%), and the mean percent reversibility was 14% (range: -41% to 152%). Patients received 1 inhalation once daily of the following: BREO ELLIPTA 100/25 mcg, BREO ELLIPTA 200/25 mcg, fluticasone furoate/vilanterol 50/25 mcg, fluticasone furoate 100 mcg, fluticasone furoate 200 mcg, vilanterol 25 mcg, or placebo. Table 2. Adverse Reactions with BREO ELLIPTA 100/25 mcg with ≥3% Incidence and More Common than Placebo in Patients with Chronic Obstructive Pulmonary Disease a Includes oral candidiasis, oropharyngeal candidiasis, candidiasis, and fungal oropharyngitis. Adverse Reaction BREO ELLIPTA 100/25 mcg (n = 410) % Vilanterol 25 mcg (n = 408) % Fluticasone Furoate 100 mcg (n = 410) % Placebo (n = 412) % Infections and infestations Nasopharyngitis 9 10 8 8 Upper respiratory tract infection 7 5 4 3 Oropharyngeal candidiasis a 5 2 3 2 Nervous system disorders Headache 7 9 7 5 12-Month Trials Long-term safety data are based on two 12-month trials (Trials 3 and 4; n = 1,633 and n = 1,622, respectively). Trials 3 and 4 included 3,255 patients, of which 57% were male and 85% were White. They had a mean age of 64 years and an average smoking history of 46 pack years, with 44% identified as current smokers. At screening, the mean postbronchodilator percent predicted FEV 1 was 45% (range: 12% to 91%), and the mean postbronchodilator FEV 1 /FVC ratio was 46% (range: 17% to 81%), indicating that the patient population had moderate to very severely impaired airflow obstruction. Patients received 1 inhalation once daily of the following: BREO ELLIPTA 100/25 mcg, BREO ELLIPTA 200/25 mcg, fluticasone furoate/vilanterol 50/25 mcg, or vilanterol 25 mcg. In addition to the reactions shown in Table 2 , adverse reactions occurring in ≥3% of the patients treated with BREO ELLIPTA 100/25 mcg (n = 806) for 12 months included back pain, pneumonia [see Warnings and Precautions ( 5.5 )] , bronchitis, sinusitis, cough, oropharyngeal pain, arthralgia, influenza, pharyngitis, and pyrexia. Mortality Trial Safety data are available from a mortality trial in patients with moderate COPD (moderate airflow limitation [≥50% and ≤70% predicted FEV 1 ]) who either had a history of, or were at risk of, cardiovascular disease and were treated for up to 4 years (median treatment duration of 1.5 years). The trial included 16,568 patients, 4,140 of whom received BREO ELLIPTA 100/25 mcg. In addition to the events in COPD trials shown in Table 2 , adverse reactions occurring in ≥3% of the patients treated with BREO ELLIPTA 100/25 mcg and more common than placebo included pneumonia, back pain, hypertension, and influenza. 6.2 Clinical Trials Experience in Asthma The safety data described below were based on trials that evaluated BREO ELLIPTA 100/25 mcg in 1,757 patients and BREO ELLIPTA 200/25 mcg in 745 patients. While patients aged 12 to 17 years were included in these trials, BREO ELLIPTA 200/25 mcg is not approved for use in this age group [see Dosage and Administration ( 2.2 )] . One additional 24-week trial enrolled 902 pediatric patients with asthma. In this trial, BREO ELLIPTA 100/25 mcg was studied in 117 patients aged 12 to 17 years and BREO ELLIPTA 50/25 mcg was studied in 337 patients aged 5 to 11 years. Adult Patients The safety of BREO ELLIPTA for the maintenance treatment of asthma in adult patients was based on the data from Trials 8, 9, 10, 11, and 12 [see Clinical Studies ( 14.2 )] . Trial 8 was a 12-week trial that evaluated the efficacy of BREO ELLIPTA 100/25 mcg in patients with asthma compared with fluticasone furoate 100 mcg and placebo. The incidence of adverse reactions associated with BREO ELLIPTA 100/25 mcg is shown in Table 3 . Table 3. Adverse Reactions with BREO ELLIPTA 100/25 mcg with ≥2% Incidence and More Common than Placebo in Patients with Asthma (Trial 8) a Includes oral candidiasis and oropharyngeal candidiasis. Adverse Reaction BREO ELLIPTA 100/25 mcg (n = 201) % Fluticasone Furoate 100 mcg (n = 205) % Placebo (n = 203) % Infections and infestations Nasopharyngitis 10 7 7 Oral candidiasis a 2 2 0 Nervous system disorders Headache 5 4 4 Respiratory, thoracic, and mediastinal disorders Oropharyngeal pain 2 2 1 Dysphonia 2 1 0 Trial 9 was a 12-week trial that evaluated the efficacy of BREO ELLIPTA 100/25 mcg, BREO ELLIPTA 200/25 mcg, and fluticasone furoate 100 mcg in patients with asthma. This trial did not have a placebo arm. The incidence of adverse reactions associated with BREO ELLIPTA 100/25 mcg and BREO ELLIPTA 200/25 mcg is shown in Table 4 . Table 4. Adverse Reactions with BREO ELLIPTA 100/25 mcg and BREO ELLIPTA 200/25 mcg with ≥2% Incidence in Patients with Asthma (Trial 9) Adverse Reaction BREO ELLIPTA 200/25 mcg (n = 346) % BREO ELLIPTA 100/25 mcg (n = 346) % Fluticasone Furoate 100 mcg (n = 347) % Nervous system disorders Headache 8 8 9 Infections and infestations Nasopharyngitis 7 6 7 Influenza 3 3 1 Upper respiratory tract infection 2 2 3 Sinusitis 2 1 <1 Bronchitis 2 <1 2 Respiratory, thoracic, and mediastinal disorders Oropharyngeal pain 2 2 1 Cough 1 2 1 24-Week Trial Trial 10 was a 24-week trial that evaluated the efficacy of BREO ELLIPTA 200/25 mcg once daily, fluticasone furoate 200 mcg once daily, and fluticasone propionate 500 mcg twice daily in patients with asthma. This trial did not have a placebo arm. In addition to the reactions shown in Tables 3 and 4 , adverse reactions occurring in ≥2% of patients treated with BREO ELLIPTA 200/25 mcg included viral respiratory tract infection, pharyngitis, pyrexia, and arthralgia. 12-Month Trial Long-term safety data are based on a 12-month trial that evaluated the safety of BREO ELLIPTA 100/25 mcg once daily (n = 201), BREO ELLIPTA 200/25 mcg once daily (n = 202), and fluticasone propionate 500 mcg twice daily (n = 100) in patients with asthma (Trial 11). In addition to the reactions shown in Tables 3 and 4 , adverse reactions occurring in ≥2% of the patients treated with BREO ELLIPTA 100/25 mcg or BREO ELLIPTA 200/25 mcg for 12 months included pyrexia, back pain, extrasystoles, upper abdominal pain, respiratory tract infection, allergic rhinitis, pharyngitis, rhinitis, arthralgia, supraventricular extrasystoles, ventricular extrasystoles, acute sinusitis, and pneumonia. Adult and Pediatric Patients Aged 12 to 17 Years Exacerbation Trial Trial 12 included both adult and pediatric patients 12 years of age and older. Although this trial did not support efficacy of BREO ELLIPTA for maintenance treatment of asthma in pediatric patients 12 to 17 years of age, it was used to evaluate safety in both adult and pediatric patients 12 to 17 years of age. Patients received BREO ELLIPTA 100/25 mcg (n = 1,009) or fluticasone furoate 100 mcg (n = 1,010). Patients participating in this trial had a history of 1 or more asthma exacerbations that required treatment with oral/systemic corticosteroids or emergency department visit or in-patient hospitalization for the treatment of asthma in the year prior to trial entry. Asthma-related hospitalizations occurred in 10 patients (1%) treated with BREO ELLIPTA 100/25 mcg compared with 7 patients (0.7%) treated with fluticasone furoate 100 mcg. Among patients aged 12 to 17 years, asthma-related hospitalizations occurred in 4 patients (2.6%) treated with BREO ELLIPTA 100/25 mcg (n = 151) compared with 0 patients treated with fluticasone furoate 100 mcg (n = 130). There were no asthma-related deaths or asthma-related intubations observed in this trial. Pediatric Patients Aged 5 to 17 Years The safety of BREO ELLIPTA for the maintenance treatment of asthma in pediatric patients 5 years and older was based on the data from Trial 14, a 24-week clinical trial that enrolled 902 patients with asthma aged 5 to 17 years (aged 5 to 11 years [n = 673]; aged 12 to 17 years [n = 229]). Pediatric patients aged 12 to 17 years were randomized to BREO ELLIPTA 100/25 mcg (n = 117) or fluticasone furoate 100 mcg (n = 112). Pediatric patients aged 5 to 11 years were randomized to BREO ELLIPTA 50/25 mcg (n = 337) or fluticasone furoate 50 mcg (n = 336) [see Clinical Studies ( 14.2 )] . Adverse reactions reported in ≥3% of pediatric patients treated with BREO ELLIPTA is shown in Table 5 . Table 5. Adverse Reactions with BREO ELLIPTA with ≥3% Incidence in Pediatric Patients with Asthma (Trial 14) a The dose of BREO ELLIPTA was 100/25 mcg once daily for pediatric patients aged 12 to 17 years and 50/25 mcg once daily for pediatric patients aged 5 to 11 years. b The dose of fluticasone furoate was 100 mcg once daily for pediatric patients aged 12 to 17 years and 50 mcg once daily for pediatric patients aged 5 to 11 years. Adverse Reaction BREO ELLIPTA a (n = 454) % Fluticasone Furoate b (n = 448) % Infections and infestations Nasopharyngitis 10 8 Upper respiratory tract infection 7 6 Rhinitis 3 1 Viral upper respiratory tract infection 3 <1 Respiratory, thoracic, and mediastinal disorders Rhinitis allergic 4 1 Nervous system disorders Headache 3 2 6.3 Postmarketing Experience In addition to adverse reactions reported from clinical trials, the following adverse reactions have been identified during post approval use of BREO ELLIPTA. Because these 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. These events have been chosen for inclusion due to either their seriousness, frequency of reporting, or causal connection to BREO ELLIPTA or a combination of these factors. Cardiac Disorders Palpitations, tachycardia. Immune System Disorders Hypersensitivity reactions, including anaphylaxis, angioedema, rash, and urticaria. Metabolism and Nutrition Disorders Hyperglycemia. Musculoskeletal and Connective Tissue Disorders Muscle spasms. Nervous System Disorders Tremor. Psychiatric Disorders Nervousness. Respiratory, Thoracic, and Mediastinal Disorders Paradoxical bronchospasm.

警告と注意事項

5 WARNINGS AND PRECAUTIONS • LABA monotherapy increases the risk of serious asthma-related events. ( 5.1 ) • Do not initiate in acutely deteriorating COPD or asthma. Do not use to treat acute symptoms. ( 5.2 ) • Do not use in combination with additional therapy containing a LABA because of risk of overdose. ( 5.3 ) • Candida albicans infection of the mouth and pharynx may occur. Monitor patients periodically. Advise the patient to rinse his/her mouth with water without swallowing after inhalation to help reduce the risk. ( 5.4 ) • Increased risk of pneumonia in patients with COPD. Monitor patients for signs and symptoms of pneumonia. ( 5.5 ) • Potential worsening of infections (e.g., existing tuberculosis; fungal, bacterial, viral, or parasitic infections; ocular herpes simplex). Use with caution in patients with these infections. More serious or even fatal course of chickenpox or measles can occur in susceptible patients. ( 5.6 ) • Risk of impaired adrenal function when transferring from systemic corticosteroids. Wean patients slowly from systemic corticosteroids if transferring to BREO ELLIPTA. ( 5.7 ) • Hypercorticism and adrenal suppression may occur with very high dosages or at the regular dosage in susceptible individuals. If such changes occur, discontinue BREO ELLIPTA slowly. ( 5.8 ) • If paradoxical bronchospasm occurs, discontinue BREO ELLIPTA and institute alternative therapy. ( 5.10 ) • Use with caution in patients with cardiovascular disorders because of beta-adrenergic stimulation. ( 5.12 ) • Assess for decrease in bone mineral density (BMD) initially and periodically thereafter. ( 5.13 ) • Monitor growth of pediatric patients ( 5.14 ) • Glaucoma and cataracts may occur with long-term use of Inhaled Corticosteroid (ICS). Consider referral to an ophthalmologist in patients who develop ocular symptoms or use BREO ELLIPTA long term. ( 5.15 ) • Use with caution in patients with convulsive disorders, thyrotoxicosis, diabetes mellitus, and ketoacidosis. ( 5.16 ) • Increased blood glucose levels have been reported. Also, be alert to hypokalemia. ( 5.17 ) 5.1 Serious Asthma-Related Events – Hospitalizations, Intubations, Death Use of Long-acting Beta 2 -adrenergic Agonist (LABA) as monotherapy (without ICS) for asthma is associated with an increased risk of asthma-related death [see Salmeterol Multicenter Asthma Research Trial (SMART)] . Available data from controlled clinical trials also suggest that use of LABA as monotherapy increases the risk of asthma-related hospitalization in pediatric patients. These findings are considered a class effect of LABA monotherapy. When LABA are used in fixed-dose combination with ICS, data from large clinical trials do not show a significant increase in the risk of serious asthma‑related events (hospitalizations, intubations, death) compared with ICS alone (see Serious Asthma-Related Events with Inhaled Corticosteroid/Long-Acting Beta 2 -Adrenergic Agonists) . Serious Asthma-Related Events with Inhaled Corticosteroid/Long-Acting Beta 2 -Adrenergic Agonists Four (4) large, 26-week, randomized, double-blind, active-controlled clinical safety trials were conducted to evaluate the risk of serious asthma-related events when LABA were used in fixed-dose combination with ICS compared with ICS alone in patients with asthma. Three (3) trials included adult and pediatric patients aged 12 years and older: 1 trial compared budesonide/formoterol with budesonide, 1 trial compared fluticasone propionate/salmeterol inhalation powder with fluticasone propionate inhalation powder, and 1 trial compared mometasone furoate/formoterol with mometasone furoate. The fourth trial included pediatric patients aged 4 to 11 years and compared fluticasone propionate/salmeterol inhalation powder with fluticasone propionate inhalation powder. The primary safety endpoint for all 4 trials was serious asthma-related events (hospitalizations, intubations, death). A blinded adjudication committee determined whether events were asthma related. The 3 adult and pediatric trials were designed to rule out a risk margin of 2.0, and the pediatric trial was designed to rule out a risk margin of 2.7. Each individual trial met its pre-specified objective and demonstrated non-inferiority of ICS/LABA to ICS alone. A meta-analysis of the 3 adult and pediatric trials did not show a significant increase in risk of a serious asthma-related event with ICS/LABA fixed-dose combination compared with ICS alone ( Table 1 ). These trials were not designed to rule out all risk for serious asthma-related events with ICS/LABA compared with ICS. Table 1. Meta-Analysis of Serious Asthma-Related Events in Patients with Asthma Aged 12 Years and Older ICS = Inhaled Corticosteroid, LABA = Long-acting Beta 2 -adrenergic Agonist. a Randomized patients who had taken at least 1 dose of study drug. Planned treatment used for analysis. b Estimated using a Cox proportional hazards model for time to first event with baseline hazards stratified by each of the 3 trials. c Number of patients with event that occurred within 6 months after the first use of study drug or 7 days after the last date of study drug, whichever date was later. Patients can have one or more events, but only the first event was counted for analysis. A single, blinded, independent adjudication committee determined whether events were asthma related. ICS/LABA (n = 17,537) a ICS (n = 17,552) a ICS/LABA vs. ICS Hazard Ratio (95% CI) b Serious asthma-related event c 116 105 1.10 (0.85, 1.44) Asthma-related death 2 0 Asthma-related intubation (endotracheal) 1 2 Asthma-related hospitalization (≥24-hour stay) 115 105 The pediatric safety trial included 6,208 pediatric patients aged 4 to 11 years who received ICS/LABA (fluticasone propionate/salmeterol inhalation powder) or ICS (fluticasone propionate inhalation powder). In this trial, 27/3,107 (0.9%) patients randomized to ICS/LABA and 21/3,101 (0.7%) patients randomized to ICS experienced a serious asthma-related event. There were no asthma-related deaths or intubations. ICS/LABA did not show a significantly increased risk of a serious asthma-related event compared with ICS based on the pre-specified risk margin (2.7), with an estimated hazard ratio of time to first event of 1.29 (95% CI: 0.73, 2.27). Salmeterol Multicenter Asthma Research Trial (SMART) A 28-week, placebo-controlled, U.S. trial that compared the safety of salmeterol with placebo, each added to usual asthma therapy, showed an increase in asthma-related deaths in patients receiving salmeterol (13/13,176 in patients treated with salmeterol vs. 3/13,179 in patients treated with placebo; relative risk: 4.37 [95% CI: 1.25, 15.34]). Use of background ICS was not required in SMART. The increased risk of asthma-related death is considered a class effect of LABA monotherapy. 5.2 Deterioration of Disease and Acute Episodes BREO ELLIPTA should not be initiated in patients during rapidly deteriorating or potentially life-threatening episodes of COPD or asthma. BREO ELLIPTA has not been studied in patients with acutely deteriorating COPD or asthma. The initiation of BREO ELLIPTA in this setting is not appropriate. In COPD, if BREO ELLIPTA 100/25 mcg no longer controls symptoms of bronchoconstriction; the patient’s inhaled, short-acting, beta 2 -agonist becomes less effective; or the patient needs more short-acting beta 2 -agonist than usual, these may be markers of deterioration of disease. In this setting, re-evaluate the patient and the COPD treatment regimen at once. For COPD, the daily dose of BREO ELLIPTA 100/25 mcg should not be increased. Increasing use of inhaled, short-acting beta 2 -agonists is a marker of deteriorating asthma. In this situation, the patient requires immediate reevaluation with reassessment of the treatment regimen, giving special consideration to the need for additional therapeutic options. Patients should not use more than 1 inhalation once daily of BREO ELLIPTA. BREO ELLIPTA should not be used for the relief of acute symptoms, i.e., as rescue therapy for the treatment of acute episodes of bronchospasm. BREO ELLIPTA has not been studied in the relief of acute symptoms and extra doses should not be used for that purpose. Acute symptoms should be treated with an inhaled, short-acting beta 2 -agonist. When beginning treatment with BREO ELLIPTA, patients who have been taking oral or inhaled, short-acting beta 2 -agonists on a regular basis (e.g., 4 times a day) should be instructed to discontinue the regular use of these drugs and to use them only for symptomatic relief of acute respiratory symptoms. When prescribing BREO ELLIPTA, the healthcare provider should also prescribe an inhaled, short-acting beta 2 -agonist and instruct the patient on how it should be used. 5.3 Risk Associated with Excessive Use of Long-Acting Beta 2 -Agonists, including BREO ELLIPTA BREO ELLIPTA should not be used more often than recommended, at higher doses than recommended [see Dosage and Administration ( 2 )] , or in conjunction with other therapies containing LABA, as an overdose may result. Clinically significant cardiovascular effects and fatalities have been reported in association with excessive use of inhaled sympathomimetic drugs. Patients using BREO ELLIPTA should not use another therapy containing a LABA (e.g., salmeterol, formoterol fumarate, arformoterol tartrate, indacaterol) for any reason. 5.4 Oropharyngeal Candidiasis BREO ELLIPTA contains fluticasone furoate, an ICS. Localized infections of the mouth and pharynx with Candida albicans have occurred in patients treated with orally inhaled drug products containing fluticasone furoate. Monitor patients periodically. When such an infection develops, it should be treated with appropriate local or systemic (i.e., oral) antifungal therapy while treatment with BREO ELLIPTA continues. In some cases, therapy with BREO ELLIPTA may need to be interrupted. Advise the patient to rinse his/her mouth with water without swallowing following administration of BREO ELLIPTA to help reduce the risk of oropharyngeal candidiasis. 5.5 Pneumonia An increase in the incidence of pneumonia has been observed in patients with COPD receiving BREO ELLIPTA 100/25 mcg in clinical trials. There was also an increased incidence of pneumonias resulting in hospitalization. In some incidences these pneumonia events were fatal. Healthcare providers should remain vigilant for the possible development of pneumonia in patients with COPD as clinical features of pneumonia and exacerbations frequently overlap. In replicate 12-month trials in 3,255 patients with moderate to severe COPD who had experienced a COPD exacerbation in the previous year, there was a higher incidence of pneumonia reported in patients receiving fluticasone furoate/vilanterol 50/25 mcg: 6% (48 of 820 patients); BREO ELLIPTA 100/25 mcg: 6% (51 of 806 patients); or BREO ELLIPTA 200/25 mcg: 7% (55 of 811 patients) than in patients receiving vilanterol 25 mcg: 3% (27 of 818 patients). There was no fatal pneumonia in patients receiving vilanterol or fluticasone furoate/vilanterol 50/25 mcg. There was fatal pneumonia in 1 patient receiving BREO ELLIPTA 100/25 mcg and in 7 patients receiving BREO ELLIPTA 200/25 mcg (<1% for each treatment group). In a mortality trial with a median treatment duration of 1.5 years in 16,568 patients with moderate COPD and cardiovascular disease, the annualized incidence rate of pneumonia was 3.4 per 100 patient-years for BREO ELLIPTA 100/25 mcg, 3.2 for placebo, 3.3 for fluticasone furoate 100 mcg, and 2.3 for vilanterol 25 mcg. Adjudicated, on-treatment deaths due to pneumonia occurred in 13 patients receiving BREO ELLIPTA 100/25 mcg, 9 patients receiving placebo, 10 patients receiving fluticasone furoate 100 mcg, and 6 patients receiving vilanterol 25 mcg (<0.2 per 100 patient-years for each treatment group). 5.6 Immunosuppression and Risk of Infections Patients who are on drugs that suppress the immune system are more susceptible to infection than healthy individuals. Chickenpox and measles can have a more serious or even fatal course in susceptible patients using corticosteroids. In such patients who have not had these diseases or been properly immunized, particular care should be taken to avoid exposure. How the dose, route, and duration of corticosteroid administration affect the risk of developing a disseminated infection is not known. The contribution of the underlying disease and/or prior corticosteroid treatment to the risk is also not known. If a patient is exposed to chickenpox, prophylaxis with varicella zoster immune globulin (VZIG) may be indicated. If a patient is exposed to measles, prophylaxis with pooled intramuscular immunoglobulin (IG) may be indicated. (See the respective Prescribing Information for VZIG and IG) If chickenpox develops, treatment with antiviral agents may be considered. ICS should be used with caution, if at all, in patients with active or quiescent tuberculosis infections of the respiratory tract; systemic fungal, bacterial, viral, or parasitic infections; or ocular herpes simplex. 5.7 Transferring Patients from Systemic Corticosteroid Therapy Hypothalamic-Pituitary-Adrenal Suppression/Adrenal Insufficiency Particular care is needed for patients who have been transferred from systemically active corticosteroids to ICS because deaths due to adrenal insufficiency have occurred in patients during and after transfer from systemic corticosteroids to less systemically available ICS. After withdrawal from systemic corticosteroids, a number of months are required for recovery of hypothalamic-pituitary-adrenal (HPA) function. Patients who have been previously maintained on 20 mg or more of prednisone (or its equivalent) may be most susceptible, particularly when their systemic corticosteroids have been almost completely withdrawn. During this period of HPA suppression, patients may exhibit signs and symptoms of adrenal insufficiency when exposed to trauma, surgery, or infection (particularly gastroenteritis) or other conditions associated with severe electrolyte loss. Although BREO ELLIPTA may control COPD or asthma symptoms during these episodes, in recommended doses it supplies less than normal physiological amounts of glucocorticoid systemically and does NOT provide the mineralocorticoid activity that is necessary for coping with these emergencies. During periods of stress, a severe COPD exacerbation, or a severe asthma attack, patients who have been withdrawn from systemic corticosteroids should be instructed to resume oral corticosteroids (in large doses) immediately and to contact their healthcare practitioner for further instruction. These patients should also be instructed to carry a warning card indicating that they may need supplementary systemic corticosteroids during periods of stress, a severe COPD exacerbation, or a severe asthma attack. Patients requiring oral corticosteroids should be weaned slowly from systemic corticosteroid use after transferring to BREO ELLIPTA. Prednisone reduction can be accomplished by reducing the daily prednisone dose by 2.5 mg on a weekly basis during therapy with BREO ELLIPTA. Lung function (FEV 1 or peak expiratory flow), beta-agonist use, and COPD or asthma symptoms should be carefully monitored during withdrawal of oral corticosteroids. In addition, patients should be observed for signs and symptoms of adrenal insufficiency, such as fatigue, lassitude, weakness, nausea and vomiting, and hypotension. Unmasking of Allergic Conditions Previously Suppressed by Systemic Corticosteroids Transfer of patients from systemic corticosteroid therapy to BREO ELLIPTA may unmask allergic conditions previously suppressed by the systemic corticosteroid therapy (e.g., rhinitis, conjunctivitis, eczema, arthritis, eosinophilic conditions). Corticosteroid Withdrawal Symptoms During withdrawal from oral corticosteroids, some patients may experience symptoms of systemically active corticosteroid withdrawal (e.g., joint and/or muscular pain, lassitude, depression) despite maintenance or even improvement of respiratory function. 5.8 Hypercorticism and Adrenal Suppression Inhaled fluticasone furoate is absorbed into the circulation and can be systemically active. Effects of fluticasone furoate on the HPA axis are not observed with the therapeutic doses of fluticasone furoate in BREO ELLIPTA. However, exceeding the recommended dosage or coadministration with a strong cytochrome P450 3A4 (CYP3A4) inhibitor may result in HPA dysfunction [see Warnings and Precautions ( 5.9 ), Drug Interactions ( 7.1 )] . Because of the possibility of significant systemic absorption of ICS in sensitive patients, patients treated with BREO ELLIPTA should be observed carefully for any evidence of systemic corticosteroid effects. Particular care should be taken in observing patients postoperatively or during periods of stress for evidence of inadequate adrenal response. It is possible that systemic corticosteroid effects such as hypercorticism and adrenal suppression (including adrenal crisis) may appear in a small number of patients who are sensitive to these effects. If such effects occur, reduce the dose of BREO ELLIPTA slowly, consistent with accepted procedures for reducing systemic corticosteroids, and consider other treatments for management of COPD or asthma symptoms. 5.9 Drug Interactions with Strong Cytochrome P450 3A4 Inhibitors Caution should be exercised when considering the coadministration of BREO ELLIPTA with ketoconazole and other known strong CYP3A4 inhibitors (including, but not limited to, ritonavir, clarithromycin, conivaptan, indinavir, itraconazole, lopinavir, nefazodone, nelfinavir, saquinavir, telithromycin, troleandomycin, voriconazole) because increased systemic corticosteroid and increased cardiovascular adverse effects may occur [see Drug Interactions ( 7.1 ), Clinical Pharmacology ( 12.3 )]. 5.10 Paradoxical Bronchospasm BREO ELLIPTA can produce paradoxical bronchospasm, which may be life threatening. If paradoxical bronchospasm occurs following dosing with BREO ELLIPTA, it should be treated immediately with an inhaled, short-acting bronchodilator; BREO ELLIPTA should be discontinued immediately; and alternative therapy should be instituted [see Adverse Reactions ( 6.3 )] . 5.11 Hypersensitivity Reactions, including Anaphylaxis Hypersensitivity reactions such as anaphylaxis, angioedema, rash, and urticaria may occur after administration of BREO ELLIPTA. Discontinue BREO ELLIPTA if such reactions occur. There have been reports of anaphylactic reactions in patients with severe milk protein allergy after inhalation of other powder medications containing lactose; therefore, patients with severe milk protein allergy should not use BREO ELLIPTA [see Contraindications ( 4 ), Adverse Reactions ( 6.3 )] . 5.12 Cardiovascular Effects BREO ELLIPTA, like other drugs containing beta 2 -agonists, can produce a clinically significant cardiovascular effect in some patients as measured by increases in pulse rate, systolic or diastolic blood pressure, and also cardiac arrhythmias, such as supraventricular tachycardia and extrasystoles [see Adverse Reactions ( 6.3 )] . If such effects occur, BREO ELLIPTA may need to be discontinued. In addition, beta-agonists have been reported to produce electrocardiographic changes, such as flattening of the T wave, prolongation of the QTc interval, and ST segment depression, although the clinical significance of these findings is unknown [see Clinical Pharmacology ( 12.2 )] . Fatalities have been reported in association with excessive use of inhaled sympathomimetic drugs. In healthy subjects, large doses of inhaled fluticasone furoate/vilanterol (4 times the recommended dose of vilanterol, representing a 12- or 10-fold higher systemic exposure than seen in patients with COPD or asthma, respectively) have been associated with clinically significant prolongation of the QTc interval, which has the potential for producing ventricular arrhythmias. Therefore, BREO ELLIPTA, like other sympathomimetic amines, should be used with caution in patients with cardiovascular disorders, especially coronary insufficiency, cardiac arrhythmias, and hypertension. In a mortality trial with a median treatment duration of 1.5 years in 16,568 patients with moderate COPD and cardiovascular disease, the annualized incidence rate of adjudicated cardiovascular events (composite of myocardial infarction, stroke, unstable angina, transient ischemic attack, or on-treatment death due to cardiovascular events) was 2.5 per 100 patient-years for BREO ELLIPTA 100/25 mcg, 2.7 for placebo, 2.4 for fluticasone furoate 100 mcg, and 2.6 for vilanterol 25 mcg. Adjudicated, on-treatment deaths due to cardiovascular events occurred in 82 patients receiving BREO ELLIPTA 100/25 mcg, 86 patients receiving placebo, 80 patients receiving fluticasone furoate 100 mcg, and 90 patients receiving vilanterol 25 mcg (annualized incidence rate ranged from 1.2 to 1.3 per 100 patient-years for the treatment groups). 5.13 Reduction in Bone Mineral Density Decreases in bone mineral density (BMD) have been observed with long-term administration of products containing ICS. The clinical significance of small changes in BMD with regard to long-term consequences such as fracture is unknown. Patients with major risk factors for decreased bone mineral content, such as prolonged immobilization, family history of osteoporosis, postmenopausal status, tobacco use, advanced age, poor nutrition, or chronic use of drugs that can reduce bone mass (e.g., anticonvulsants, oral corticosteroids) should be monitored and treated with established standards of care. Since patients with COPD often have multiple risk factors for reduced BMD, assessment of BMD is recommended prior to initiating BREO ELLIPTA and periodically thereafter. If significant reductions in BMD are seen and BREO ELLIPTA is still considered medically important for that patient’s COPD therapy, use of therapy to treat or prevent osteoporosis should be strongly considered. In replicate 12-month trials in 3,255 patients with moderate to severe COPD, bone fractures were reported by 2% of patients receiving the fluticasone furoate/vilanterol combination (50/25 mcg: 2% [14 of 820 patients]; 100/25 mcg: 2% [19 of 806 patients]; or 200/25 mcg: 2% [14 of 811 patients]) compared with <1% of patients receiving vilanterol 25 mcg alone (8 of 818 patients). Similar findings were seen in a mortality trial with a median treatment duration of 1.5 years in 16,568 patients with moderate COPD and cardiovascular disease. 5.14 Effect on Growth Orally inhaled corticosteroids, , including fluticasone furoate, a component in BREO ELLIPTA may cause a reduction in growth velocity when administered to pediatric patients. The safety and effectiveness of BREO ELLIPTA have not been established in pediatric patients less than 5 years of age. Monitor the growth of pediatric patients receiving BREO ELLIPTA routinely (e.g., via stadiometry). To minimize the systemic effects of orally inhaled corticosteroids, including BREO ELLIPTA, titrate each patient’s dose to the lowest dosage that effectively controls his/her symptoms [see Dosage and Administration ( 2.3 ), Use in Specific Populations ( 8.4 )] . 5.15 Glaucoma and Cataracts Glaucoma, increased intraocular pressure, and cataracts have been reported in patients with COPD or asthma following the long-term administration of ICS, including fluticasone furoate, a component in BREO ELLIPTA. Consider referral to an ophthalmologist in patients who develop ocular symptoms or use BREO ELLIPTA long term. 5.16 Risk of Using Sympathomimetic Amines in Certain Coexisting Conditions BREO ELLIPTA, like all therapies containing sympathomimetic amines, should be used with caution in patients with convulsive disorders, thyrotoxicosis, or diabetes mellitus and in those who are unusually responsive to sympathomimetic amines. Doses of the related beta 2 -adrenoceptor agonist albuterol, when administered intravenously, have been reported to aggravate preexisting diabetes mellitus and ketoacidosis. 5.17 Hyperglycemia and Hypokalemia There have been reports of increases in blood glucose levels with BREO ELLIPTA. This should be considered in patients with a history of, or with risk factors for, diabetes mellitus [see Adverse Reactions ( 6.3 )] . Beta-adrenergic agonist therapies may produce significant hypokalemia in some patients, possibly through intracellular shunting, which has the potential to produce adverse cardiovascular effects. The decrease in serum potassium is usually transient, not requiring supplementation. In clinical trials evaluating BREO ELLIPTA in patients with COPD or asthma, there was no evidence of a treatment effect on serum potassium.

禁忌

4 CONTRAINDICATIONS BREO ELLIPTA is contraindicated in the following conditions: • Primary treatment of status asthmaticus or other acute episodes of COPD or asthma where intensive measures are required [see Warnings and Precautions ( 5.2 )] . • Severe hypersensitivity to milk proteins or demonstrated hypersensitivity to fluticasone furoate, vilanterol, or any of the excipients [see Warnings and Precautions ( 5.11 ), Description ( 11 )] . • Primary treatment of status asthmaticus or acute episodes of COPD or asthma requiring intensive measures. ( 4 ) • Severe hypersensitivity to milk proteins or any ingredients. ( 4 )

薬物動態

12.3 Pharmacokinetics Linear pharmacokinetics was observed for fluticasone furoate (200 to 800 mcg) and vilanterol (25 to 100 mcg). On repeated once-daily inhalation administration, steady state of fluticasone furoate and vilanterol plasma concentrations was achieved after 6 days, and the accumulation was up to 2.6-fold for fluticasone furoate and 2.4-fold for vilanterol as compared with single dose. Absorption Fluticasone Furoate: Fluticasone furoate plasma levels may not predict therapeutic effect. Peak plasma concentrations are reached within 0.5 to 1 hour. Absolute bioavailability of fluticasone furoate when administered by inhalation was 15.2%, primarily due to absorption of the inhaled portion of the dose delivered to the lung. Oral bioavailability from the swallowed portion of the dose is low (approximately 1.3%) due to extensive first-pass metabolism. Systemic exposure (AUC) in patients with COPD or asthma was 46% or 7% lower, respectively, than observed in healthy subjects. Vilanterol: Vilanterol plasma levels may not predict therapeutic effect. Peak plasma concentrations are reached within 10 minutes following inhalation. Absolute bioavailability of vilanterol when administered by inhalation was 27.3%, primarily due to absorption of the inhaled portion of the dose delivered to the lung. Oral bioavailability from the swallowed portion of the dose of vilanterol is low (<2%) due to extensive first-pass metabolism. Systemic exposure (AUC) in patients with COPD was 24% higher than observed in healthy subjects. Systemic exposure (AUC) in patients with asthma was 21% lower than observed in healthy subjects. Distribution Fluticasone Furoate: Following intravenous administration to healthy subjects, the mean volume of distribution at steady state was 661 L. Binding of fluticasone furoate to human plasma proteins was high (>99%). Vilanterol: Following intravenous administration to healthy subjects, the mean volume of distribution at steady state was 165 L. Binding of vilanterol to human plasma proteins was on average 94%. Elimination Metabolism: Fluticasone Furoate: Fluticasone furoate is cleared from systemic circulation principally by hepatic metabolism via CYP3A4 to metabolites with significantly reduced corticosteroid activity. There was no in vivo evidence for cleavage of the furoate moiety resulting in the formation of fluticasone. Vilanterol: Vilanterol is mainly metabolized, principally via CYP3A4, to a range of metabolites with significantly reduced β 1 - and β 2 -agonist activity. Excretion: Fluticasone Furoate: Fluticasone furoate and its metabolites are eliminated primarily in the feces, accounting for approximately 101% and 90% of the orally and intravenously administered doses, respectively. Urinary excretion accounted for approximately 1% and 2% of the orally and intravenously administered doses, respectively. Following repeat-dose inhaled administration, the plasma elimination phase half-life averaged 24 hours. Vilanterol: Following oral administration, vilanterol was eliminated mainly by metabolism followed by excretion of metabolites in urine and feces (approximately 70% and 30%, respectively, of the recovered radioactive dose). The plasma elimination half-life of vilanterol, as determined from inhalation administration of multiple doses of vilanterol 25 mcg, is 21.3 hours in patients with COPD and 16.0 hours in patients with asthma. Specific Populations The effects of renal and hepatic impairment and other intrinsic factors on the pharmacokinetics of fluticasone furoate and vilanterol are shown in Figure 1 . Figure 1. Impact of Intrinsic Factors on the Pharmacokinetics (PK) of Fluticasone Furoate (FF) and Vilanterol (VI) Following Administration as Fluticasone Furoate/Vilanterol Combination a Severe renal impairment (CrCl <30 mL/min) compared with healthy subjects; mild (Child‑Pugh A), moderate (Child-Pugh B), and severe (Child-Pugh C) hepatic impairment compared with healthy subjects. b For COPD and asthma, the following comparisons were made: age compared with ≤65 years, gender compared with female, and ethnicity compared with White. Pediatric Patients: Fluticasone Furoate: A population pharmacokinetics analysis to assess impact of age on fluticasone furoate systemic exposure was conducted using combined data from clinical trials in pediatric patients aged 5 to 11 years (n = 306). There was no relevant effect of age on the apparent clearance of fluticasone furoate. The dose-adjusted fluticasone furoate systemic exposure at steady state in children aged 5 to 11 years following 50 mcg were comparable to that observed in adult and pediatric patients 12 years and older following dosing with fluticasone furoate 100 mcg monotherapy. Vilanterol: A population pharmacokinetic analysis was conducted to characterize vilanterol pharmacokinetics using combined data from clinical trials in pediatric patients aged 5 to 11 years (n = 142). There was no relevant effect of age, weight, body mass index, sex, ethnicity, and race on vilanterol clearance. A cross-study comparison in pediatric patients with asthma showed that at steady-state, when combined with fluticasone furoate, vilanterol had similar AUC values but lower C max values compared to vilanterol administered alone. Vilanterol systemic exposure at steady state, in patients with asthma aged 5 to 11 years, was similar to those observed in adult and pediatric patients 12 years and older with asthma following repeat dosing of BREO ELLIPTA 100/25 mcg. Racial or Ethnic Groups: Fluticasone Furoate: Systemic exposure [AUC (0-24) ] to inhaled fluticasone furoate 200 mcg was 27% to 49% higher in healthy subjects of Japanese, Korean, and Chinese heritage compared with White subjects. Similar differences were observed for patients with COPD or asthma ( Figure 1 ). However, there is no evidence that this higher exposure to fluticasone furoate results in clinically relevant effects on urinary cortisol excretion or on efficacy in these racial groups. Vilanterol: There was no effect of race on the pharmacokinetics of vilanterol in patients with COPD. In patients with asthma, vilanterol C max is estimated to be higher (3-fold) and AUC (0-24) comparable for those patients from an Asian heritage compared with patients from a non-Asian heritage. However, the higher C max values are similar to those seen in healthy subjects. Patients with Hepatic Impairment: Fluticasone Furoate: Following repeat dosing of fluticasone furoate/vilanterol 200/25 mcg (100/12.5 mcg in the severe impairment group) for 7 days, there was an increase of 34%, 83%, and 75% in fluticasone furoate systemic exposure (AUC) in patients with mild, moderate, and severe hepatic impairment, respectively, compared with healthy subjects ( Figure 1 ). In patients with moderate hepatic impairment receiving fluticasone furoate/vilanterol 200/25 mcg, mean serum cortisol (0 to 24 hours) was reduced by 34% (90% CI: 11%, 51%) compared with healthy subjects. In patients with severe hepatic impairment receiving fluticasone furoate/vilanterol 100/12.5 mcg, mean serum cortisol (0 to 24 hours) was increased by 14% (90% CI: -16%, 55%) compared with healthy subjects. Patients with moderate to severe hepatic disease should be closely monitored. Vilanterol: Hepatic impairment had no effect on vilanterol systemic exposure [C max and AUC (0-24) on Day 7] following repeat-dose administration of fluticasone furoate/vilanterol 200/25 mcg (100/12.5 mcg in the severe impairment group) for 7 days ( Figure 1 ). There were no additional clinically relevant effects of the fluticasone furoate/vilanterol combinations on heart rate or serum potassium in patients with mild or moderate hepatic impairment (vilanterol 25 mcg combination) or with severe hepatic impairment (vilanterol 12.5 mcg combination) compared with healthy subjects. Patients with Renal Impairment: Fluticasone furoate systemic exposure was not increased and vilanterol systemic exposure [AUC (0-24) ] was 56% higher in patients with severe renal impairment compared with healthy subjects ( Figure 1 ). There was no evidence of greater corticosteroid or beta-agonist class-related systemic effects (assessed by serum cortisol, heart rate, and serum potassium) in patients with severe renal impairment compared with healthy subjects. Drug Interaction Studies There were no clinically relevant differences in the pharmacokinetics or pharmacodynamics of either fluticasone furoate or vilanterol when administered in combination compared with administration alone. The potential for fluticasone furoate and vilanterol to inhibit or induce metabolic enzymes and transporter systems is negligible at low inhalation doses. Inhibitors of Cytochrome P450 3A4: The exposure (AUC) of fluticasone furoate and vilanterol were 36% and 65% higher, respectively, when coadministered with ketoconazole 400 mg compared with placebo ( Figure 2 ). The increase in fluticasone furoate exposure was associated with a 27% reduction in weighted mean serum cortisol (0 to 24 hours). The increase in vilanterol exposure was not associated with an increase in beta-agonist–related systemic effects on heart rate or blood potassium. Figure 2. Impact of Coadministered Drugs a on the Pharmacokinetics (PK) of Fluticasone Furoate (FF) and Vilanterol (VI) Following Administration as Fluticasone Furoate/Vilanterol Combination or Vilanterol Coadministered with a Long-Acting Muscarinic Antagonist a Compared with placebo group. Inhibitors of P-glycoprotein: Fluticasone furoate and vilanterol are both substrates of P-glycoprotein (P-gp). Coadministration of repeat-dose (240 mg once daily) verapamil (a moderate CYP3A4 inhibitor and a P-gp inhibitor) did not affect the vilanterol C max or AUC in healthy subjects ( Figure 2 ). Drug interaction trials with a specific P-gp inhibitor and fluticasone furoate have not been conducted. Figure 1. Impact of Intrinsic Factors on the Pharmacokinetics (PK) of Fluticasone Furoate (FF) and Vilanterol (VI) Following Administration as Fluticasone Furoate/Vilanterol Combination Figure 2. Impact of Coadministered Drugsa on the Pharmacokinetics (PK) of Fluticasone Furoate (FF) and Vilanterol (VI) Following Administration as Fluticasone Furoate/Vilanterol Combination or Vilanterol Coadministered with a Long-Acting Muscarinic Antagonist

Frequently Asked Questions

1 INDICATIONS AND USAGE BREO ELLIPTA is a combination of fluticasone furoate, a corticosteroid, and vilanterol, a long-acting beta 2 -adrenergic agonist (LABA), indicated for: • the maintenance treatment of patients with chronic obstructive pulmonary disease (COPD). ( 1.1 ) • the maintenance treatment of asthma in patients aged 5 years and older. ( 1.2 ) Limitations of Use: Not indicated for relief of acute bronchospasm. ( 1.3 , 5.2 ) 1.1 Maintenance Treatment of Chronic Obstructive Pulmonary Disease BREO …

2 DOSAGE AND ADMINISTRATION • For oral inhalation only. ( 2.3 ) • Maintenance treatment of COPD: 1 actuation of BREO ELLIPTA 100/25 mcg once daily administered by oral inhalation. ( 2.1 ) • Maintenance treatment of asthma in adult patients aged 18 years and older: 1 actuation of BREO ELLIPTA 100/25 mcg or BREO ELLIPTA 200/25 mcg once daily administered by oral inhalation. ( 2.2 ) • Maintenance treatment of asthma in pediatric patients aged 12 to 17 years: …

5 WARNINGS AND PRECAUTIONS • LABA monotherapy increases the risk of serious asthma-related events. ( 5.1 ) • Do not initiate in acutely deteriorating COPD or asthma. Do not use to treat acute symptoms. ( 5.2 ) • Do not use in combination with additional therapy containing a LABA because of risk of overdose. ( 5.3 ) • Candida albicans infection of the mouth and pharynx may occur. Monitor patients periodically. Advise the patient to rinse his/her mouth with water …

4 CONTRAINDICATIONS BREO ELLIPTA is contraindicated in the following conditions: • Primary treatment of status asthmaticus or other acute episodes of COPD or asthma where intensive measures are required [see Warnings and Precautions ( 5.2 )] . • Severe hypersensitivity to milk proteins or demonstrated hypersensitivity to fluticasone furoate, vilanterol, or any of the excipients [see Warnings and Precautions ( 5.11 ), Description ( 11 )] . • Primary treatment of status asthmaticus or acute episodes of COPD or asthma …

Fluticasone Furoate And Vilanterol Trifenatate is a prescription medication. You will need a valid prescription from a licensed healthcare provider.

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References & Data Sources

• DailyMed — Fluticasone Furoate And Vilanterol Trifenatate drug label (National Library of Medicine)
• openFDA — Fluticasone Furoate And Vilanterol Trifenatate label data (U.S. Food & Drug Administration)
• RxNorm — RXCUI 1424889 (NLM Normalized Drug Names)
• NDC Directory — Fluticasone Furoate And Vilanterol Trifenatate (FDA National Drug Code)

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