Dupilumab Improves Outcomes in Patients with Chronic Rhinosinusitis with Nasal Polyps and Coexisting Asthma Irrespective of Baseline Asthma Characteristics

Purpose Chronic rhinosinusitis with nasal polyps (CRSwNP) is a predominantly type 2 inflammatory disease frequently coexisting with other type 2 conditions including asthma and non-steroidal anti-inflammatory drug-exacerbated respiratory disease (NSAID-ERD). Coexisting asthma leads to increased CRSwNP symptom burden. Dupilumab, a monoclonal antibody that blocks the shared receptor component for interleukin-4 and -13, demonstrated efficacy in adults with severe CRSwNP in the Phase 3 SINUS-24 (NCT02912468) and SINUS-52 (NCT02898454) studies, including in patients with coexisting asthma/NSAID-ERD. However, the impact of different asthma characteristics on dupilumab treatment in this population is unknown. We report CRSwNP and asthma outcomes with dupilumab in patients with CRSwNP and coexisting asthma according to baseline asthma characteristics. Methods Change from baseline at Week 24 (pooled studies) and Week 52 (SINUS-52) in CRSwNP outcomes (nasal polyp score, nasal congestion, 22-item Sino-Nasal Outcome Test [SNOT-22], loss of smell score, University of Pennsylvania Smell Identification Test) and asthma outcomes (5-item Asthma Control Questionnaire [ACQ-5], pre-bronchodilator forced expiratory volume in 1 second [FEV1]) were analyzed post hoc for placebo and dupilumab 300 mg every 2 weeks according to baseline blood eosinophils ≥150/≥300 cells/µL, ACQ-5 scores <1.5/≥1.5, and FEV1 <80%. Results In the pooled studies, 428/724 patients (59.1%) had coexisting asthma, of which 181/428 (42.3%) had coexisting NSAID-ERD. Dupilumab significantly improved all CRSwNP and asthma outcomes vs placebo at Week 24 (P < 0.001) regardless of baseline eosinophil or ACQ-5 category, or FEV1 <80%. Similar magnitude of improvement was seen at Week 52 (SINUS-52) and in patients with NSAID-ERD (pooled studies, Week 24). By Week 24, improvements with dupilumab exceeded the minimum clinically important differences for ACQ-5 and SNOT-22 in 35.2% to 74.2% and 72.0% to 78.7% of patients, respectively. Conclusion Dupilumab improved CRSwNP outcomes in patients with CRSwNP and coexisting asthma, and improved asthma outcomes, regardless of differences in baseline asthma characteristics.

[1]  M. Wagenmann,et al.  Dupilumab provides early and durable improvement of symptoms in patients with chronic rhinosinusitis with nasal polyps , 2023, Clinical & translational immunology.

[2]  M. Bonini,et al.  Mepolizumab Improves Outcomes of Chronic Rhinosinusitis with Nasal Polyps in Severe Asthmatic Patients: A Multicentric Real-Life Study , 2022, Journal of personalized medicine.

[3]  K. Kuwano,et al.  Real-life effectiveness of dupilumab in patients with mild to moderate bronchial asthma comorbid with CRSwNP , 2022, BMC Pulmonary Medicine.

[4]  G. Canonica,et al.  Benralizumab in Patients With Severe Eosinophilic Asthma With and Without Chronic Rhinosinusitis With Nasal Polyps: An ANANKE Study post-hoc Analysis , 2022, Frontiers in Allergy.

[5]  G. Brusselle,et al.  FeNO as a Potential Prognostic and Predictive Marker of Lung Function Decline in Patients with Uncontrolled, Moderate-to-Severe Asthma: LIBERTY ASTHMA QUEST , 2022, B93. BREAKTHROUGHS IN PEDIATRIC AND ADULT ASTHMA CLINICAL TRIALS.

[6]  C. Ulrik,et al.  Long-term predictors of severe exacerbations and mortality in a cohort of well-characterised adults with asthma , 2021, Respiratory Research.

[7]  C. Hopkins,et al.  Development of Sinonasal Outcome Test (SNOT‐22) Domains in Chronic Rhinosinusitis With Nasal Polyps , 2021, The Laryngoscope.

[8]  M. D’Amato,et al.  Benralizumab effectiveness in Severe Eosinophilic Asthma with and without Chronic Rhinosinusitis with Nasal Polyps: A Real-World Multicentre Study. , 2021, The journal of allergy and clinical immunology. In practice.

[9]  I. Pavord,et al.  Derivation of a prototype asthma attack risk scale centred on blood eosinophils and exhaled nitric oxide , 2021, Thorax.

[10]  I. Pavord,et al.  Baseline FeNO as a prognostic biomarker for subsequent severe asthma exacerbations in patients with uncontrolled, moderate-to-severe asthma receiving placebo in the LIBERTY ASTHMA QUEST study: a post-hoc analysis. , 2021, The Lancet. Respiratory medicine.

[11]  B. Beghé,et al.  Real-World Experience with Dupilumab in Severe Asthma: One-Year Data from an Italian Named Patient Program , 2021, Journal of asthma and allergy.

[12]  M. D’Amato,et al.  Mepolizumab improves sino-nasal symptoms and asthma control in severe eosinophilic asthma patients with chronic rhinosinusitis and nasal polyps: a 12-month real-life study , 2021, Therapeutic advances in respiratory disease.

[13]  W. Busse,et al.  Understanding the key issues in the treatment of uncontrolled persistent asthma with type 2 inflammation , 2021, European Respiratory Journal.

[14]  C. Bachert,et al.  Burden of Disease in Chronic Rhinosinusitis with Nasal Polyps , 2021, Journal of asthma and allergy.

[15]  C. Bachert,et al.  Dupilumab improves upper- and lower-airway disease control in chronic rhinosinusitis with nasal polyps and asthma. , 2021, Annals of allergy, asthma & immunology : official publication of the American College of Allergy, Asthma, & Immunology.

[16]  V. Backer,et al.  EUFOREA Expert Board Meeting on Uncontrolled Severe Chronic Rhinosinusitis with Nasal Polyps (CRSwNP) and Biologics: Definitions and Management. , 2020, The Journal of allergy and clinical immunology.

[17]  I. Pavord,et al.  P220 BASELINE EXHALED NITRIC OXIDE (FENO) AS PREDICTOR OF RESPONSE TO DUPILUMAB IN UNCONTROLLED, MODERATE-TO-SEVERE ASTHMA , 2020 .

[18]  J. Mullol,et al.  Chronic Rhinosinusitis With Nasal Polyps and Asthma. , 2020, The journal of allergy and clinical immunology. In practice.

[19]  C. Hopkins,et al.  Socioeconomic, comorbidity, lifestyle, and quality of life comparisons between chronic rhinosinusitis phenotypes , 2020, The Laryngoscope.

[20]  N. Lombardo,et al.  Real-life effects of benralizumab on allergic chronic rhinosinusitis and nasal polyposis associated with severe asthma , 2020, International journal of immunopathology and pharmacology.

[21]  G. Canonica,et al.  Defining type 2 asthma and patients eligible for dupilumab in Italy: a biomarker-based analysis , 2020, Clinical and Molecular Allergy.

[22]  G. Canonica,et al.  Effectiveness of omalizumab in patients with severe allergic asthma with and without chronic rhinosinusitis with nasal polyps: a PROXIMA study post hoc analysis , 2020, Clinical and Translational Allergy.

[23]  A. Didier,et al.  Effectiveness and safety of dupilumab for the treatment of severe asthma in a real‐life French multi‐centre adult cohort , 2020, Clinical and experimental allergy : journal of the British Society for Allergy and Clinical Immunology.

[24]  A. Murphy,et al.  Dual blockade of IL‐4 and IL‐13 with dupilumab, an IL‐4Rα antibody, is required to broadly inhibit type 2 inflammation , 2019, Allergy.

[25]  C. Bachert,et al.  Efficacy and safety of dupilumab in patients with severe chronic rhinosinusitis with nasal polyps (LIBERTY NP SINUS-24 and LIBERTY NP SINUS-52): results from two multicentre, randomised, double-blind, placebo-controlled, parallel-group phase 3 trials , 2019, The Lancet.

[26]  C. Bachert,et al.  The GALEN rhinosinusitis cohort: chronic rhinosinusitis with nasal polyps affects health-related quality of life. , 2019, Rhinology.

[27]  N. Bhattacharyya,et al.  Cost burden and resource utilization in patients with chronic rhinosinusitis and nasal polyps , 2019, The Laryngoscope.

[28]  C. Bachert,et al.  The Global Allergy and Asthma European Network (GALEN rhinosinusitis cohort: a large European cross-sectional study of chronic rhinosinusitis patients with and without nasal polyps. , 2019, Rhinology.

[29]  J. Kavanagh,et al.  P48 The ‘T2-low’ asthma phenotype: could it just be T2-high asthma treated with corticosteroids? , 2018, Triggering and controlling asthma exacerbations.

[30]  Andrew A. White,et al.  Diagnosis and management of NSAID‐Exacerbated Respiratory Disease (N‐ERD)—a EAACI position paper , 2018, Allergy.

[31]  J. Bousquet,et al.  Endotype-driven care pathways in patients with chronic rhinosinusitis. , 2018, The Journal of allergy and clinical immunology.

[32]  V. Lund,et al.  Omalizumab treats chronic rhinosinusitis with nasal polyps and asthma together-a real life study. , 2018, Rhinology.

[33]  N. Graham,et al.  Commonality of the IL-4/IL-13 pathway in atopic diseases , 2017, Expert review of clinical immunology.

[34]  Jonathan D. Campbell,et al.  Exploring asthma control cutoffs and economic outcomes using the Asthma Control Questionnaire. , 2016, Annals of allergy, asthma & immunology : official publication of the American College of Allergy, Asthma, & Immunology.

[35]  T. Casale,et al.  Precision medicine in patients with allergic diseases: Airway diseases and atopic dermatitis-PRACTALL document of the European Academy of Allergy and Clinical Immunology and the American Academy of Allergy, Asthma & Immunology. , 2016, The Journal of allergy and clinical immunology.

[36]  G. Yancopoulos,et al.  Targeting key proximal drivers of type 2 inflammation in disease , 2015, Nature Reviews Drug Discovery.

[37]  E. Bel,et al.  Management of the patient with eosinophilic asthma: a new era begins , 2015, ERJ Open Research.

[38]  V. Lund,et al.  Psychometric validity of the 22‐item Sinonasal Outcome Test , 2009, Clinical otolaryngology : official journal of ENT-UK ; official journal of Netherlands Society for Oto-Rhino-Laryngology & Cervico-Facial Surgery.

[39]  Klas Svensson,et al.  Measurement properties and interpretation of three shortened versions of the asthma control questionnaire. , 2005, Respiratory medicine.

[40]  William W Busse,et al.  Use of the Asthma Control Questionnaire to predict future risk of asthma exacerbation. , 2011, The Journal of allergy and clinical immunology.