Clinical Trials Logo

Clinical Trial Summary

The overarching objective of this study is to determine the clinical effectiveness of dupilumab for the treatment of CRS that includes several potential disease endotypes with the exclusion of the nasal polyp cluster that has previously been determined. The additional information gained from secondary and exploratory outcomes will help provide important insight for applied research studies and may also provide practical guidance to clinicians on how to select patients for treatment.


Clinical Trial Description

Approximately 12% of adults in the United States, United Kingdom and other industrialized nations suffer from chronic sinus disease. Corticosteroids and antibiotic regimens are often used to treat the condition but the level of evidence to justify this approach is limited and at best offers only a transient solution. Furthermore, adverse side effects from the use of long-term oral steroids and concerns about skewing of the mucosal microbiota from overuse of antibiotics make these options problematic. Currently, there are insufficient options for the approximately 30 million patients in the US suffering from chronic sinus disease. Recent phase 3 clinical trials found that dupilumab, an anti-IL4α receptor monoclonal antibody, reduces symptoms and polyp size in individuals with CRS with nasal polyps (CRSwNP). Similarly anti-IL5 antibodies have also been shown to have modest efficacy in this group of patients. However, for the approximately 65% of individuals with non-polyp related chronic sinus disease, these agents were not evaluated and there remains few viable options for therapy. Chronic rhinosinusitis is defined as symptoms of nasal obstruction, facial pain or pressure, and mucopurulent drainage for at least 12 weeks along with evidence of mucosal disease by radiographic evidence or rhinoscopy. At least ten endotypes have been described although there is considerable overlap in terms of mucosal morphology, allergic status, the presence of polypoid tissue, and expression of biomarkers such as cytokines, specific IgE and other proteins. It may be incorrect to assume that the effectiveness of dupilumab demonstrated for those suffering with nasal polyps is exclusive to this CRS cluster alone. One aspect to explain the differential effects of certain drugs and biologics on the treatment of CRS relates to host nasal and sinus microbial environment. The microbiome of CRS patients has been found to have reduced diversity, increased bacterial populations, and ultimately to have less stable bacterial networks. This imbalance of the microbiome may be a potential cause for sinus inflammation. Studies have demonstrated that Propionibacterium acnes for example, acts as an important stabilizing organism in the bacterial networks. Removal of this bacterial species e.g. from antibiotic use, may allow for more pathogenic organisms such as Staphylococcus or Streptococcus to flourish leading to increased inflammation. An example of how Staphylococcus aureus may increase inflammation is through the production of superantigen that is thought to skew nasal inflammatory responses towards a Th2 dominated disease endotype. Other groups, have concluded that the host mucosal microbiota helps predict disease severity and might also predict susceptibility to certain therapies. Indeed, treatment with certain antibiotics has shown to modulate mucosal bacterial populations leading to clinical improvement and reduced polyp formation in some patients. It is not known whether host microbial and inflammatory milieu adequately predicts polyp formation or helps predict treatment success in the presence of dupilumab. The current study will include investigation of this important exploratory outcome. The investigators have previously shown that modulation of both the innate and adaptive immune responses can impact dendritic cell and basophil responses in vitro and that these changes correlate with treatment success of patients with chronic allergic rhinosinusitis. The investigators also more recently discovered that IL-4 and IL-13 secreted by human basophils upregulates CD20 (mannose receptor), CD23 (FcεRII) and pSTAT6 expression on monocytes, while also promoting CCL17 (TARC) production by these cells. Other investigators have shown that the mannose receptor on monocytes negatively modulates TLR-4 innate immune signaling on dendritic cells that in turn affects T-cell polarization and response to allergens. The investigators might expect dupilumab to help attenuate this pathway resulting in a reduction of local sIgE production in the mucosa for example. It is already known that dupilumab reduces the expression of other inflammatory mediators such as CCL17 in asthma and atopic dermatitis. These aspects will be examined in the exploratory investigations using cell culture assays, flow cytometry and immunofluorescence pre and post treatment. The overarching objective of this study is to determine the clinical effectiveness of dupilumab for the treatment of CRS that includes several potential disease endotypes with the exclusion of the nasal polyp cluster that has previously been determined. The additional information gained from secondary and exploratory outcomes will help provide important insight for applied research studies and may also provide practical guidance to clinicians on how to select patients for treatment. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04362501
Study type Interventional
Source Johns Hopkins University
Contact Jeanne Hoddinott
Phone 4105508017
Email hoddin1@jhmi.edu
Status Recruiting
Phase Phase 2
Start date October 15, 2020
Completion date October 15, 2024

See also
  Status Clinical Trial Phase
Completed NCT02266810 - Safety and Efficacy of the Propel Mini and Propel Nova Steroid-Eluting Sinus Implant in Frontal Sinus Phase 3
Completed NCT01706484 - Efficacy and Safety of Two Dosages of a Herbal Medicinal Product (Dry Extract BNO 1016) in Chronic Rhinosinusitis Phase 3
Completed NCT01197612 - Nasal Packing as a Drug Delivery System Postoperatively in Chronic Sinusitis With Polyposis Phase 3
Completed NCT04163978 - Nitric Oxide Releasing Sinus Irrigation (NOSi) to Treat Recalcitrant Chronic Rhinosinusitis (RCRS) Phase 2
Completed NCT04418622 - Evolution of the Endonasal Microbiota in Patients With Chronic Rhinosinusitis
Not yet recruiting NCT06070311 - Wound Healing After Endoscopic Sinus Surgery N/A
Not yet recruiting NCT05454163 - Post-radiotherapy Rhinosinusitis in Children
Withdrawn NCT01185808 - Vitamin D Supplementation in Chronic Rhinosinusitis With Nasal Polyps N/A
Completed NCT01700725 - Gulf War Illness Nasal Irrigation Study Phase 2
Withdrawn NCT00671281 - The Effect of Tranexamic Acid on Intraoperative and Post-Operative Bleeding in Functional Endoscopic Sinus Surgery N/A
Completed NCT00447837 - Evaluating SPRC-AB01 in Post-Surgical Subjects With Chronic Sinusitis Phase 2
Completed NCT05035654 - LYR-220 for Adult Subjects With Chronic Rhinosinusitis (BEACON Study) Phase 2
Completed NCT02562924 - The Efficacy of MEDIHONEY® for Chronic Rhinosinusitis With Nasal Polyposis After Functional Endoscopic Sinus Surgery N/A
Completed NCT01007799 - Vitamin D for Chronic Sinusitis N/A
Completed NCT03358329 - Safety Evaluation of Repeat Placement of the S8 Sinus Implant in Chronic Sinusitis Patients With Nasal Polyps (ENCORE) Phase 3
Withdrawn NCT02981017 - Improvement of Outcomes in Draf III/Endoscopic Modified Lothrop Procedure N/A
Completed NCT04041609 - LYR-210 Depot (LYR-210) for Adult Subjects With Chronic Sinusitis (LANTERN Study) Phase 2
Recruiting NCT01854619 - Photodynamic Therapy for the Treatment of Chronic Rhinosinusitis N/A
Completed NCT00924404 - Xylitol Versus Saline in Chronic Sinusitis N/A
Not yet recruiting NCT03903432 - The Feasibility of Using MRI During ESS N/A