Xhance Drug Information
Generic name: FLUTICASONE PROPIONATE
Uses of Xhance
Chronic Rhinosinusitis with Nasal Polyps
XHANCE is indicated for the treatment of chronic rhinosinusitis with nasal polyps (CRSwNP) in adults.
Chronic Rhinosinusitis without Nasal Polyps
XHANCE is indicated for the treatment of chronic rhinosinusitis without nasal polyps (CRSsNP) in adults.
Dosage & Administration of Xhance
Recommended Dosage
The recommended dosage of XHANCE is 186 mcg (1 spray per nostril) or 372 mcg (2 sprays per nostril) twice daily (total daily dose of 372 mcg or 744 mcg). The maximum total daily dosage should not exceed 2 sprays in each nostril twice daily (total daily dose of 744 mcg). Patients should use XHANCE at regular intervals since its effectiveness depends on regular use. Individual patients will experience a variable time to onset and different degrees of symptom relief. The safety and efficacy of XHANCE when administered in excess of recommended doses have not been established.
Administration Information Shake
XHANCE before each use. Administer XHANCE by the nasal route only. Avoid spraying directly on the nasal septum.
Priming Before initial use, prime XHANCE by first gently shaking and then pressing the bottle 7 times or until a fine mist appears. Direct the spray into the air, away from the face. When XHANCE has not been used for ≥ 7 days, prime the pump again by shaking and releasing 2 sprays into the air, away from the face.
Administration Instructions XHANCE is delivered into the nose by actuating the pump spray into one nostril while simultaneously blowing (exhaling) into the mouthpiece of the device. To administer XHANCE, insert the tapered tip of the cone-shaped nosepiece deep into one nostril and form a tight seal between the nosepiece and the nostril. Next, place the flexible mouthpiece into the mouth, bending it as necessary to maintain a tight seal with the nostril.
Blow into the mouthpiece, and while continuing to blow, push the bottle up to actuate the spray pump. Continuing to blow through the mouth, but not inhaling or exhaling through the nose, at the time of actuation is important to achieve intended drug deposition. Repeat the process in the other nostril for a full dose .
Side Effects of Xhance
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 with rates in the clinical trials of another drug and may not reflect the rates observed in practice. Chronic Rhinosinusitis with Nasal Polyps The safety data described below are based on two placebo-controlled clinical trials evaluating doses of a fluticasone propionate nasal spray with an exhalation delivery system from 93 mcg twice daily to 372 mcg twice daily. Both trials were 16-weeks in duration with an additional 8-week open-label extension.
The trials included a total of 643 adult patients with bilateral nasal polyps and associated moderate or severe nasal congestion of which 161 received 93 mcg twice daily, 160 received 186 mcg twice daily, 161 received 372 mcg twice daily and 161 received placebo. The overall pooled safety data included 296 (46.0%) Female, 347 (54.0%) Male, 584 (90.8%) White, 39 (6.1%) Black, 9 (1.4%) Asian, and 11 (1.7%) patients classified as Other. Of these patients, 45 (7%) were 65 years of age or older.
Table 1 displays adverse reactions with an incidence of ≥ 3% in the XHANCE 186 mcg and 372 mcg twice daily patients, and more common than placebo. Table 1. Summary of Adverse Reactions with XHANCE Reported in ≥ 3% of Patients with CRSwNP and More Common Than Placebo in Placebo-Controlled Studies XHANCE Adverse Reaction Placebo (N = 161) n (%) 186 mcg bid* (N = 160) n (%) 372 mcg bid^ (N = 161) n (%) *186 mcg bid = 1 spray per nostril twice daily ^372 mcg bid = 2 sprays per nostril twice daily 1 Includes spontaneous adverse reaction reports 2 Include ulcerations and erosions Epistaxis 1 4 19 16 Nasopharyngitis 8 3 12 Nasal septal ulceration 2 3 11 12 Nasal congestion 6 7 9 Acute sinusitis 6 7 8 Headache 5 8 6 Pharyngitis 2 2 5 Nasal mucosal ulceration 2 2 6 4 Nasal mucosal erythema 6 9 8 Nasal septal erythema 3 6 7 Other adverse reactions with XHANCE observed with an incidence < 3% but ≥ 1% and more common than placebo included: nasal dryness, sinusitis, oropharyngeal pain, toothache, intraocular pressure increase, dizziness, abdominal discomfort, and weight increase. 5.0% of patients treated with XHANCE 186 mcg twice daily and 1.2% of patients treated with 372 mcg twice daily discontinued from the clinical trials prior to the open-label extension because of adverse reactions compared to 4.3% of patients treated with placebo. There were no clinically relevant differences in the incidence of adverse reactions based on gender.
Clinical trials did not include sufficient numbers of non-Caucasian patients or patients aged 65 years and older to determine whether they respond differently from Caucasian or younger patients, respectively. Chronic Rhinosinusitis without Nasal Polyps The safety of XHANCE was based on a pooled safety population that reflect the exposure of XHANCE in 367 adults with chronic rhinosinusitis with (CRSwNP) or without nasal polyps (CRSsNP) exposed for 24 weeks duration. XHANCE was studied in two randomized, placebo-controlled, multicenter trials (Trial 3 and Trial 4). Patients received either XHANCE 186 mcg (1 spray per nostril) twice daily, XHANCE 372 mcg (2 sprays per nostril) twice daily, or placebo delivered with an exhalation delivery system.
The pooled safety population had a mean age of 49 years, and were 55% male, 94% White, 96% non-Hispanic or Latino, 4% Black or African American, and 2% Asian. In these trials, 1.6% of patients treated with XHANCE 186 mcg (1 spray per nostril) twice daily and 1.6% of patients treated with 372 mcg (2 sprays per nostril) twice daily discontinued treatment due to adverse reactions compared to 2.7% of patients treated with placebo. The most common adverse reactions that occurred at a rate of ≥ 3% in patients treated with XHANCE and at a higher rate in at least one treatment group than placebo from the pooled safety population (Trials 3 and 4) are shown in Table 2. Table 2. Summary of Adverse Reactions with XHANCE Reported in ≥ 3% of Patients and More Common Than Placebo from Pooled Safety Population (Trials 3 and 4) 1 XHANCE Adverse Reaction Placebo (N = 187) n (%) 186 mcg bid* (N = 184) n (%) 372 mcg bid^ (N = 183) n (%) *186 mcg bid = 1 spray per nostril twice daily ^372 mcg bid = 2 sprays per nostril twice daily 1 Patients in Trial 3 included adults with CRSsNP and Trial 4 included adults with CRSsNP and CRSwNP Epistaxis 1 (0.5%) 9 (4.9%) 20 (10.9%) Headache 7 (3.7%) 4 (2.2%) 10 (5.5%) Nasopharyngitis 8 (4.3%) 9 (4.9%) 7 (3.8%)
Postmarketing Experience
The following adverse reactions have been identified during postapproval use of XHANCE. 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. Eye disorders: central serous chorioretinopathy Respiratory, thoracic, and mediastinal disorders: dysphonia, nasal discomfort, and nasal dryness Skin and subcutaneous tissue disorders: pruritus, rash
Warnings & Cautions for Xhance
Local Nasal Adverse Reactions Epistaxis, Nasal Erosions and Ulcerations
In placebo-controlled clinical trials of 16 weeks duration, epistaxis, nasal erosions, and nasal ulcerations were reported more frequently in patients treated with XHANCE than those who received placebo . Nasal Septal Perforation Nasal septal perforations have been reported in patients following the nasal application of XHANCE. In placebo-controlled clinical trials of 16 weeks duration, nasal septal perforation was reported in 1 (0.3%) patient treated with XHANCE compared with none treated with placebo. The patient had a prior history of nasal/sinus surgery. Three (0.3%) patients treated with XHANCE in uncontrolled, open-label trials of 3 to 12 months duration developed nasal septal perforations.
As with any long term topical treatment of the nasal cavity, patients using XHANCE over several months or longer should be examined periodically for possible changes in the nasal mucosa. If a septal perforation is noted, discontinue XHANCE. Avoid spraying XHANCE directly on the septum. Candida Infection In clinical trials with XHANCE, localized infections with Candida albicans have been observed.
Eight (0.9%) patients in uncontrolled, open-label trials of 3 to 12 months duration developed Candida albicans infections (nasal, pharyngeal, esophageal or intestinal). If such an infection develops, it may require treatment with appropriate local therapy and discontinuation of XHANCE. Patients using XHANCE should be examined periodically for evidence of Candida infection in the nasal and oropharyngeal mucosa. Impaired Wound Healing Because of the inhibitory effect of corticosteroids on wound healing, patients who have experienced recent nasal ulcerations, nasal surgery, or nasal trauma should avoid using XHANCE until healing has occurred.
Glaucoma and Cataracts Nasal and inhaled corticosteroids, including fluticasone propionate, may result
in the development of glaucoma and/or cataracts. In placebo-controlled clinical trials of 16 weeks duration, cataracts were reported in 4 (1.2%) patients treated with XHANCE, compared with 3 (1.9%) patients treated with placebo. Among these patients, 2 patients treated with XHANCE reported subcapsular cataracts compared with none treated with placebo.
Eleven patients (1.2%) in uncontrolled, open-label trials of 3 to 12 months duration developed new or worsening cataracts, of which none were subcapsular. Therefore, close monitoring is warranted in patients with a change in vision or with a history of increased intraocular pressure (IOP), glaucoma, and/or cataracts. Consider referral to an ophthalmologist in patients who develop ocular symptoms or use XHANCE long-term.
Hypersensitivity Reactions Including Anaphylaxis Hypersensitivity reactions (e.g., anaphylaxis, angioedema, urticaria, contact dermatitis
rash, hypotension, and bronchospasm) have been reported after administration of fluticasone propionate. XHANCE is contraindicated in patients with known hypersensitivity to fluticasone propionate or any of the ingredients of XHANCE. Discontinue XHANCE if such reactions (e.g., anaphylaxis, angioedema, urticaria, contact dermatitis, rash, hypotension, and bronchospasm) occur .
Immunosuppression and Risk of Infection Persons who are using drugs that suppress
the immune system, such as corticosteroids, including XHANCE, are more susceptible to infections than healthy individuals and may experience a worsening of existing infections. Chickenpox and measles, for example, can have a more serious or even fatal course in susceptible adults using corticosteroids. In such adults 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. Corticosteroids 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 .
Hypercorticism and Adrenal Suppression Hypercorticism and adrenal suppression may occur when nasal
corticosteroids, such as XHANCE, are used at higher than recommended dosages or in susceptible individuals at recommended dosages. Since fluticasone propionate is absorbed into the circulation and can be systemically active at higher doses, recommended dosages of XHANCE should not be exceeded to avoid hypothalamic-pituitary-adrenal (HPA) dysfunction. A relationship between plasma levels of fluticasone propionate and inhibitory effects on stimulated cortisol production has been shown after 4 weeks of pulmonary treatment with fluticasone propionate inhalation aerosol.
Since individual sensitivity to effects on cortisol production exists, physicians should consider this information when prescribing XHANCE. Patients treated with XHANCE should be observed carefully for any evidence of systemic corticosteroid effects such as hypercorticism and adrenal suppression (including adrenal crisis). If such effects occur, the dosage of XHANCE should be reduced slowly, consistent with accepted procedures for reducing systemic corticosteroids, and other treatments for management of nasal symptoms should be considered. Particular care should be taken in observing patients postoperatively or during periods of stress for evidence of inadequate adrenal response. The replacement of a systemic corticosteroid with a topical corticosteroid can be accompanied by signs of adrenal insufficiency.
In addition, some patients may experience symptoms of corticosteroid withdrawal (e.g., joint and/or muscular pain, lassitude, depression). After withdrawal from systemic corticosteroids, a number of months are required for recovery of HPA function. Patients previously treated for prolonged periods with systemic corticosteroids and transferred to topical corticosteroids should be carefully monitored for acute adrenal insufficiency in response to stress such as trauma, surgery, infection (particularly gastroenteritis), or other conditions associated with severe electrolyte loss. In patients who have asthma or other clinical conditions requiring long-term systemic corticosteroid treatment, rapid decreases in systemic corticosteroid dosages may cause a severe exacerbation of their symptoms .
Drug Interactions with Strong Cytochrome P450 3A4 Inhibitors
The use of strong cytochrome P450 3A4 (CYP3A4) inhibitors (e.g., ritonavir, atazanavir, clarithromycin, indinavir, itraconazole, nefazodone, nelfinavir, saquinavir, ketoconazole, telithromycin, conivaptan, lopinavir, voriconazole) with XHANCE is not recommended because increased systemic corticosteroid adverse effects may occur .
Reduction in Bone Mineral Density Decreases in bone mineral density (BMD) have
been observed with long-term oral inhalation of products containing corticosteroids into the lungs. 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.
A 2-year trial in 160 patients (females aged 18 to 40 years, males aged 18 to 50 years) with asthma receiving chlorofluorocarbon (CFC)-propelled fluticasone propionate inhalation aerosol 88 or 440 mcg twice daily demonstrated no statistically significant changes in BMD at any time point (24, 52, 76, and 104 weeks of double-blind treatment) as assessed by dual-energy x-ray absorptiometry at lumbar regions L1 through L4.
Effect on Growth Nasal corticosteroids, including
XHANCE, may cause a reduction in growth velocity when administered to pediatric patients. The safety and effectiveness of XHANCE has not been established in pediatric patients .
Drug Interactions with Xhance
Inhibitors of Cytochrome P450 3A4 Fluticasone propionate is a substrate of
CYP3A4. The use of strong CYP3A4 inhibitors (e.g., ritonavir, atazanavir, clarithromycin, indinavir, itraconazole, nefazodone, nelfinavir, saquinavir, ketoconazole, telithromycin, conivaptan, lopinavir, voriconazole) with XHANCE is not recommended because increased systemic corticosteroid adverse effects may occur. Ritonavir A drug interaction trial with fluticasone propionate aqueous nasal spray in healthy subjects has shown that ritonavir (a strong CYP3A4 inhibitor) can significantly increase plasma fluticasone propionate exposure, resulting in significantly reduced serum cortisol concentrations . During postmarketing use, there have been reports of clinically significant drug interactions in patients receiving fluticasone propionate products with ritonavir, resulting in systemic corticosteroid effects including Cushing’s syndrome and adrenal suppression. Ketoconazole Coadministration of orally inhaled fluticasone propionate (1000 mcg) and ketoconazole (200 mg once daily) resulted in a 1.9-fold increase in plasma fluticasone propionate exposure and a 45% decrease in plasma cortisol area under the curve (AUC), but had no effect on urinary excretion of cortisol.
Pregnancy Safety for Xhance
Pregnancy Risk Summary Available data from published literature on the use of inhaled or nasal fluticasone propionate in pregnant women have not reported a clear association with adverse developmental outcomes. In animals, teratogenicity characteristic of corticosteroids, decreased fetal body weight, and/or skeletal variations in rats, mice, and rabbits were observed with subcutaneously administered maternal toxic doses of fluticasone propionate less than the maximum recommended human daily inhaled dose (MRHDID) on a mcg/m 2 basis. However, fluticasone propionate administered via inhalation to rats decreased fetal body weight, but did not induce teratogenicity at a maternal toxic dose less than the MRHDID on a mcg/m 2 basis ( see Data ). Experience with oral corticosteroids suggests that rodents are more prone to teratogenic effects from corticosteroids than humans.
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 risk of major birth defects and miscarriages in clinically recognized pregnancies is 2% to 4% and 15% to 20%, respectively.
Data Animal Data In embryofetal development studies with pregnant rats and mice dosed by the subcutaneous route throughout the period of organogenesis, fluticasone propionate was teratogenic in both species. Omphalocele, decreased body weight, and skeletal variations were observed in rat fetuses, in the presence of maternal toxicity, at a dose approximately equivalent to the MRHDID (on a mcg/m 2 basis with a maternal subcutaneous dose of 100 mcg/kg/day). The rat no observed adverse effect level (NOAEL) was observed at approximately 0.4 times the MRHDID (on a mcg/m 2 basis with a maternal subcutaneous dose of 30 mcg/kg/day). Cleft palate and fetal skeletal variations were observed in mouse fetuses at a dose approximately 0.3 times the MRHDID (on a mcg/m 2 basis with a maternal subcutaneous dose of 45 mcg/kg/day). The mouse NOAEL was observed with a dose approximately 0.1 times the MRHDID (on a mcg/m 2 basis with a maternal subcutaneous dose of 15 mcg/kg/day). In an embryofetal development study with pregnant rats dosed by the inhalation route throughout the period of organogenesis, fluticasone propionate produced decreased fetal body weights and skeletal variations, in the presence of maternal toxicity, at a dose approximately 0.34 times the MRHDID (on a mcg/m 2 basis with a maternal inhalation dose of 25.7 mcg/kg/day); however, there was no evidence of teratogenicity. The NOAEL was observed with a dose approximately 0.1 times the MRHDID (on a mcg/m 2 basis with a maternal inhalation dose of 5.5 mcg/kg/day). In an embryofetal development study in pregnant rabbits that were dosed by the subcutaneous route throughout organogenesis, fluticasone propionate produced reductions of fetal body weights, in the presence of maternal toxicity, at doses approximately 0.02 times the MRHDID and higher (on a mcg/m 2 basis with a maternal subcutaneous dose of 0.57 mcg/kg/day). Teratogenicity was evident based upon a finding of cleft palate for 1 fetus at a dose approximately 0.1 times the MRHDID (on a mcg/m 2 basis with a maternal subcutaneous dose of 4 mcg/kg/day). The NOAEL was observed in rabbit fetuses with a dose approximately 0.002 times the MRHDID (on a mcg/m 2 basis with a maternal subcutaneous dose of 0.08 mcg/kg/day). Fluticasone propionate crossed the placenta following subcutaneous administration to mice and rats and oral administration to rabbits.
In a pre- and post-natal development study in pregnant rats dosed from late gestation through delivery and lactation (Gestation Day 17 to Postpartum Day 22), fluticasone propionate was not associated with decreases in pup body weight, and had no effects on developmental landmarks, learning, memory, reflexes, or fertility at doses up to 0.7 times the MRHDID (on a mcg/m 2 basis with maternal subcutaneous doses up to 50 mcg/kg/day).
Pediatric Use of Xhance
Pediatric Use The safety and effectiveness of XHANCE in pediatric patients have not been established. Effects on Growth Controlled clinical trials have shown that nasal corticosteroids may cause a reduction in growth velocity when administered to pediatric patients. This effect was observed in the absence of laboratory evidence of HPA axis suppression, suggesting that growth velocity is a more sensitive indicator of systemic corticosteroid exposure in pediatric patients than some commonly used tests of HPA axis function.
The long-term effects of this reduction in growth velocity associated with nasal corticosteroids, including the impact on final adult height, are unknown. The potential for “catch-up” growth following discontinuation of treatment with nasal corticosteroids has not been adequately studied. The growth of pediatric patients receiving nasal corticosteroids should be monitored routinely (e.g., via stadiometry). The potential growth effects of prolonged treatment should be weighed against the clinical benefits obtained and the risks associated with alternative therapies.
Controlled clinical trials have shown that corticosteroids orally inhaled into the lungs may cause a reduction in growth in pediatric patients. In these trials, the mean reduction in growth velocity was approximately 1 cm/year (range: 0.3 to 1.8 cm/year) and appeared to depend upon dose and duration of exposure. The effects on growth velocity of treatment with corticosteroids orally inhaled into the lungs for over 1 year, including the impact on final adult height, are unknown.
The growth of children and adolescents receiving corticosteroids should be monitored routinely (e.g., via stadiometry) .
Contraindications for Xhance
is contraindicated in patients with hypersensitivity to any of the ingredients . Hypersensitivity to any ingredient in XHANCE.
Overdosage Information for Xhance
Overdosage may result in signs/symptoms of hypercorticism .
Clinical Studies of Xhance
Chronic Rhinosinusitis with Nasal Polyps
The efficacy of XHANCE was evaluated in two randomized, double-blind, parallel‑group, multicenter, placebo-controlled, dose-ranging trials in adults 18 years and older with Chronic Rhinosinusitis with Nasal Polyps (CRSwNP) and associated moderate to severe nasal congestion (Trial 1, Trial 2 ). The two trials included a total of 646 patients with a mean age of 45.5 years. Patients were randomized 1:1:1:1 to receive 93 mcg, 186 mcg, or 372 mcg twice daily or placebo for a period of 16 weeks. At baseline 35.7%, 79.0%, and 18.3% had polyps graded as mild, moderate, or severe, respectively.
In addition, 90.6% of patients reported previous use of a topical steroid nasal spray for the treatment of CRSwNP and 53.6% reported previous sinus surgery or polypectomy. The co-primary efficacy endpoints were 1) change from baseline to Week 4 in nasal congestion / obstruction averaged over the preceding 7 days of treatment and 2) change from baseline to Week 16 in bilateral polyp grade. Nasal congestion was rated by the patient on a 0 to 3 categorical severity scale (0 = none, 1 = mild, 2 = moderate, 3 = severe) at the time immediately prior to the next dose (instantaneous). Polyp grade was determined by the clinician using nasal endoscopy.
Polyps on each side of the nose were graded on a categorical scale (0 = No polyps; 1 = Mild – polyps not reaching below the inferior border of the middle turbinate; 2 = Moderate – polyps reaching below the inferior border of the middle concha, but not the inferior border of the inferior turbinate; 3 = Severe – large polyps reaching below the lower inferior border of the inferior turbinate). Efficacy was demonstrated for both XHANCE 186-mcg twice daily and XHANCE 372-mcg twice daily (Table 3). Table 3: Effect of XHANCE nasal spray in two randomized, placebo-controlled trials in patients with CRSwNP. bid= twice daily Placebo XHANCE 186-mcg bid XHANCE 372-mcg bid Diff. (95% CI) XHANCE 186-mcg bid vs placebo Diff. (95% CI) XHANCE 372-mcg bid vs placebo Trial 1 (N) 82 80 79 Baseline nasal congestion 2.31 2.24 2.29 LS mean change from baseline in nasal congestion at week 4 -0.24 -0.54 -0.62 -0.30 (-0.48, -0.11) -0.38 (-0.57, -0.19) Baseline total bilateral polyp grade 3.8 3.9
LS mean change from baseline in total bilateral polyp grade at week
16 -0.45 -1.03 -1.06 -0.59 (-0.93, -0.24) -0.62 (-0.96, -0.27) Trial 2 (N) 79 80 82 Baseline nasal congestion 2.29 2.20 2.25 LS mean change from baseline in nasal congestion at week 4 -0.24 -0.68 -0.62 -0.45 (-0.64, -0.25) -0.38 (-0.58, -0.18) Baseline total bilateral polyp grade 3.8 3.9
LS mean change from baseline in total bilateral polyp grade at week
16 -0.61 -1.22 -1.41 -0.60 (-0.89, -0.31) -0.80 (-1.08, -0.51) There were no clinically relevant differences in effectiveness of XHANCE across subgroups of patients defined by gender, age, or race. Onset of action, evaluated by determining the starting period that the treatment effect of XHANCE on daily instantaneous AM congestion score started to achieve statistical significance in comparison to placebo and roughly maintained thereafter, was generally observed within 2 weeks for both XHANCE doses.
Chronic Rhinosinusitis without Nasal Polyps
The efficacy of XHANCE for Chronic Rhinosinusitis without Nasal Polyps (CRSsNP) was evaluated in two 24-week randomized, double-blind, parallel-group, multicenter, placebo-controlled trials in 555 adults 18 years and older (Trial 3 and Trial 4 ). Trial 3 included 223 patients with CRSsNP and Trial 4 included 332 patients with either CRSsNP (N=124) or CRSwNP (N=208). While Trial 4 included CRSwNP patients, efficacy results from Trials 3 and 4 are presented for CRSsNP patients only. In both trials, patients were randomized 1:1:1 to receive XHANCE 186 mcg twice daily, XHANCE 372 mcg twice daily, or placebo, all administered nasally for 24 weeks. All patients enrolled in Trial 3 and Trial 4 had at least 2 active nasal symptoms (congestion/obstruction, discharge, facial pain or pressure, reduction or loss of smell) with a minimum nasal congestion score ≥1.5 out of 3 and a baseline CT scan showing ≥25% opacification of both ethmoid and at least 1 maxillary sinus.
Refer to Table 4 for the demographic and baseline characteristics of all randomized CRSsNP patients in Trials 3 and 4. Table 4: Demographics and Baseline Characteristics of Trials 3 & 4 1 SD = standard deviation Trial 3 (N=223) Trial 4 (N=124) Mean age (years) (SD) 48 50 Male, n (%) 112 64 Race, n (%) White 220 114 Asian 0 6 Black or African American 2 4 Other 1 (<1) 0 Number (%) of patients with a history of environmental allergies 69 58 Number (%) of patients using standard-delivery nasal steroids at study entry 57 64 Mean number (SD) of acute sinusitis exacerbations where subject received an antibiotic or oral steroids in last year 1.1
In both trials, the coprimary efficacy endpoints were 1) change from baseline
at Week 4 in the composite symptom score (CSS) as determined by patients using a daily diary and 2) change from baseline at Week 24 in percent opacified sinus volume. CSS was the sum of the individual nasal symptom scores for congestion/obstruction, facial pain/pressure, and nasal discharge, each rated by the patient on a 0 to 3 categorical severity scale (0 = none, 1 = mild, 2 = moderate, 3 = severe) in the morning immediately prior to the next dose. Sinus opacification was measured by CT scan and scored using a 3-dimensional computer-assisted volumetric assessment using software to quantify the average percent of opacified volume in the ethmoid and maxillary sinuses.
Efficacy was demonstrated for both coprimary endpoints (CSS and percent opacified sinus volume) for XHANCE 186 mcg twice daily and XHANCE 372 mcg twice daily. Refer to Table 5 for coprimary endpoint results. Improvements demonstrated in CSS at Week 4 with either dose of XHANCE remained at Weeks 8 and 12. Table 5: LS Mean Change in Composite Symptom Scores (CSS) a at Week 4 and Percent Opacified Sinus Volume at Week 24 in Patients with CRSsNP in Trials 3 and 4 Results were based on all patients who received at least one dose of study drug and had baseline measurements for coprimary endpoints, and at least one post-baseline CSS on or before Week 4. a CSS range was 0 – 9. Scores were averaged over 7 days before a visit. b Data presented for Trial 4 patients with CRSsNP only LS= Least Square; BID= twice daily; CI = Confidence Interval Placebo XHANCE 186-mcg BID XHANCE 372-mcg BID Diff. (95% CI) XHANCE 186-mcg BID vs placebo Diff. (95% CI) XHANCE 372-mcg BID vs placebo Trial 3 (N) 75 72 73 Baseline Mean CSS a 6.2 5.9
LS mean change from baseline in
CSS at week 4 -0.8 -1.5 -1.7 -0.7 (-1.3, -0.2) -0.9 (-1.5, -0.4) Baseline Percent of Opacified Sinus Volume 64.1 60.5
LS mean change from baseline in Percent Opacified Sinus Volume at week
24 0.4 -7.0 -5.5 -7.5 (-12.1, -2.8) -5.9 (-10.6, -1.3) Trial 4 (N) b 41 41 40 Baseline Mean CSS 5.7 5.5
LS mean change from baseline in
CSS at week 4 -0.7 -1.6 -1.6 -0.9 (-1.6, -0.2) -0.9 (-1.6, -0.2) Baseline Percent of Opacified Sinus Volume 61.9 63.0
LS mean change from baseline in Percent Opacified Sinus Volume at week
24 -5.3 -5.7 -8.4 -0.5 (-6.8, 5.9) -3.2 (-9.5, 3.2) Secondary efficacy endpoints included change from baseline in individual symptoms of the CSS (nasal congestion, nasal pain/pressure, and nasal discharge) at Week 4. Refer to Table 6 for individual symptom score results. Table 6: LS Mean Change in Individual Symptom Scores a at Week 4 in Patients with CRSsNP in Trials 3 and 4 Individual symptom scores were not prespecified to adjust for multiplicity. a Score range was 0-3. b Data presented for Trial 4 patients with CRSsNP only LS= Least Square; BID= twice daily; CI = Confidence Interval Placebo XHANCE 186-mcg BID XHANCE 372-mcg BID Diff. (95% CI) XHANCE 186-mcg BID vs placebo Diff. (95% CI) XHANCE 372-mcg BID vs placebo Mean Baseline LS Mean Change Mean Baseline LS Mean Change Mean Baseline LS Mean Change Trial 3 (N) 75 72 73 Nasal Congestion/ Obstruction 2.3 -0.3 2.1 -0.6 2.2 -0.7 -0.3 (-0.5, -0.1) -0.4 (-0.7, -0.2) Facial Pain/Pressure 1.8 -0.3 1.7 -0.4 1.7 -0.5 -0.2 (-0.4, 0.1) -0.2 (-0.5, -0.0) Nasal Discharge 2.1 -0.3 2.1 -0.5 2.0 -0.6 -0.2 (-0.4, -0.0) -0.3 (-0.5, -0.1) Trial 4 (N) b 41 41 40 Nasal Congestion/ Obstruction 2.2 -0.3 2.1 -0.6 2.2 -0.6 -0.3 (-0.6, -0.1) -0.3 (-0.6, -0.0) Facial Pain/Pressure 1.7 -0.2 1.6 -0.4 1.7 -0.4 -0.2 (-0.5, 0.0) -0.2 (-0.5, 0.0) Nasal Discharge 1.9 -0.2 1.8 -0.6 1.9 -0.6 -0.4 (-0.6, -0.1) -0.4 (-0.6, -0.1) Acute Exacerbations Acute exacerbations of chronic rhinosinusitis (AECRS), defined as a worsening of symptoms that required escalation of treatment (e.g., antibiotics, oral steroids, acute care visits), was assessed in the CRSsNP patients from pooled data (Trials 3 and 4) through Week 24. The rate of AECRS was reduced by 53% among patients in each XHANCE treatment group versus placebo. This was derived from incidence rate ratios of 0.47 (95% CI: 0.21, 1.08) and 0.47 (95% CI: 0.20, 1.09) among patients using XHANCE 186 mcg and 372 mcg twice daily versus placebo, respectively; which were not statistically significant.
Drug information sourced from the FDA. This content is for informational purposes only and does not constitute medical advice. Consult a healthcare professional before making any medication decisions.
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