<scp>COBRAPed</scp> cohort: Do sensitization patterns differentiate children with severe asthma from those with a milder disease?

Lejeune, Stéphanie; Bouazza, Naïm; Nicaise, Pascale Roland; Jolaine, Valérie; Roditis, Léa; Marguet, Christophe; Amat, Flore; Berger, Patrick; Fayon, Michael; Dubus, Jean‐Christophe; Valois, Sophie; Reix, Philippe; Pellan, Mathieu; Brouard, Jacques; Chiron, Raphael; Giovannini‐Chami, Lisa; de Blic, Jacques; Deschildre, Antoine; Lezmi, Guillaume; ,

doi:10.1111/pai.14112

Pediatric Allergy Immunology

2024

DOI: 10.1111/pai.14112

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COBRAPed cohort: Do sensitization patterns differentiate children with severe asthma from those with a milder disease?

Stéphanie Lejeune,

Naïm Bouazza,

Pascale Roland Nicaise

et al.

Abstract: BackgroundIt is unclear whether sensitization patterns differentiate children with severe recurrent wheeze (SRW)/severe asthma (SA) from those with non‐severe recurrent wheeze (NSRW)/non‐severe asthma (NSA). Our objective was to determine whether sensitization patterns can discriminate between children from the French COBRAPed cohort with NSRW/NSA and those with SRW/SA.MethodsIgE to 112 components (c‐sIgE) (ImmunoCAP® ISAC) were analyzed in 125 preschools (3–6 years) and 170 school‐age children (7–12 years). S… Show more

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Cited by 4 publications

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Predicting exacerbations in severe preschool wheezers

Fayon,

Beaufils

2024

Pediatric Pulmonology

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Simple clinical indices, complex composite phenotyping/endotyping and telehome monitoring now allow us to evaluate the risk of preschool wheezing on a population or individual level. We herein discuss the usefulness of clinical markers which involve underlying issues such as in utero smoke exposure, the pathophysiology of viral‐immunological‐allergic interactions, and changes in airway epithelium, mesenchyme and smooth muscle cells. The most important unmet need in this age group remains disease‐modifying interventions.

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Predicting exacerbations in severe preschool wheezers

Fayon,

Beaufils

2024

Pediatric Pulmonology

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Three-year outcome of a very young severe uncontrolled preschool wheezers cohort, a real-life study

Petat,

Marguet

2024

Respiratory Medicine

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Molecular allergen sensitization drives phenotypes of severe asthma in children: Evidence from a megacity cohort (SAMP)

Bourgoin‐Heck,

Wolff‐Goldnadel,

Chantran

et al. 2024

Pediatric Allergy Immunology

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BackgroundSeveral major sensitization profiles have been described in children with asthma, but it remains unclear how these profiles relate to asthma phenotypes. The aim of this study was to determine allergenic sensitization profiles in a megacity cohort (SAMP).MethodsThis was a cross‐sectional analysis performed from 2011 to 2015 including preschool and school‐age children with severe and moderate asthma from the SAMP cohort. We performed ALEX multiplex array and carried out cluster analysis.ResultsData from 367 children were analyzed: 224 of preschool age and 143 of school age, respectively 84 (38%) and 114 (80%) presented at least one allergic sensitization. At preschool age, three clusters were identified: Cluster 1, Few sensitizations to inhaled allergen molecular families and non‐type 2 (T2) inflammation (n = 61); Cluster 2, Predominant sensitization to HDM molecular families (n = 16); Cluster 3, Severe asthma with multiple sensitizations to inhaled and food allergen molecular families (n = 7). At school age, five clusters were identified: Cluster 1, Few sensitizations to inhaled allergen molecular families and non‐T2 inflammation (n = 43); Cluster 2, Predominant sensitization to HDM molecular families (n = 31); Cluster 3, Predominant sensitization to PR‐10 protein family (n = 25); Cluster 4, Severe asthma with predominant sensitization to tropomyosin family (n = 11); Cluster 5, Severe asthma with multiple sensitizations to inhaled and food allergen molecular families (n = 4).ConclusionThese results underline the heterogeneity of sensitization profiles in severe allergic childhood asthma. The most severe asthma phenotypes were associated with multiple sensitizations to both inhaled and food allergen molecular families as expected, and to the tropomyosin molecular family, a novel finding.

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COBRAPed cohort: Do sensitization patterns differentiate children with severe asthma from those with a milder disease?

Cited by 4 publications

References 27 publications

Predicting exacerbations in severe preschool wheezers

Predicting exacerbations in severe preschool wheezers

Three-year outcome of a very young severe uncontrolled preschool wheezers cohort, a real-life study

Molecular allergen sensitization drives phenotypes of severe asthma in children: Evidence from a megacity cohort (SAMP)

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