Human bronchial epithelial cells from patients with asthma have an altered gene expression profile Source: ERJ Open Res, 8 (1) 00625-2021; 10.1183/23120541.00625-2021 Year: 2022
Characterisation and mRNA expression analysis of the bronchial hyperresponsiveness susceptibility gene protocadherin-1 in asthma patients Source: Annual Congress 2009 - New results in molecular pathology and functional genomics of non-neoplastic lung diseases Year: 2009
Differential gene expression in primary bronchial epithelial cells from COPD patients and control subjects. Evaluation by means of a cDNA array for cytokines and cytokine related genes Source: Eur Respir J 2002; 20: Suppl. 38, 483s Year: 2002
Distinct epithelial phenotypes in child allergic respiratory disease are revealed by gene expression profiling Source: Annual Congress 2009 - What is new in molecular pathology and functional genomics of neoplastic and non-neoplastic lung disease? Year: 2009
Longitudinal analysis of airway epithelium of COPD subjects reveals unique inflammatory gene networks up-regulated over time Source: Annual Congress 2012 - COPD inflammation and genes Year: 2012
PP120 – Smoking alters gene expression and methylation patterns in asthma patient nasal epithelium Source: ERS Lung Science Conference 2021 Year: 2021
Comparison of gene expression profiles from nasal and bronchial brushes Source: International Congress 2017 – Functional genomics knowledge in parenchymal and bronchial diseases Year: 2017
A sputum gene expression signature predicts oral corticosteroid response in asthma Source: Eur Respir J, 49 (6) 1700180; 10.1183/13993003.00180-2017 Year: 2017
Meta-analysis of airway epithelium gene expression in asthma Source: Eur Respir J, 51 (5) 1701962; 10.1183/13993003.01962-2017 Year: 2018
COPD bronchial brush microbiome association with lung function and bronchial gene expression Source: Virtual Congress 2020 – Host-microbe interactions and their influence on lung disease onset and severity Year: 2020
Microarray gene expression profiles in lung tissue of COPD patients Source: Eur Respir J 2007; 30: Suppl. 51, 537s Year: 2007
MicroRNA profiling in bronchial biopsies identifies altered expression in asthma and high levels of allergen-modulated epithelial microRNAs Source: Virtual Congress 2021 – Early manifestations of chronic respiratory disease: zooming in at the epithelial barrier Year: 2021
Differential bronchial epithelial gene expression in COPD versus controls Source: International Congress 2016 – Molecular targets in pulmonary disease Year: 2016
Gene expression signatures in airway and nasal epithelium of COPD: linking endotypes to clinical outcomes Source: International Congress 2017 – Heterogeneity in COPD inflammation: implications for therapy and clinical outcomes Year: 2017
Correlation of eotaxin-3 gene expression and other IL-13-induced genes in patients with asthma Source: Virtual Congress 2021 – New insight into the immunology of allergies, asthma and COPD: from mouse to man Year: 2021
Gene expression in CD4+ T-cells reflects heterogeneity in infant wheezing phenotypes Source: Eur Respir J 2008; 32: 1203-1212 Year: 2008
Analysis of gene expression profiles of lung adenocarcinomas using amplified mRNA Source: Eur Respir J 2003; 22: Suppl. 45, 224s Year: 2003
Comparison of the gene expression profile in lung fibroblasts from patients with emphysema and changes in gene expression induced by cigarette smoke extract (CSE) Source: Eur Respir J 2006; 28: Suppl. 50, 585s Year: 2006
Azithromycin treatment modifies airway and blood gene expression networks in neutrophilic COPD Source: ERJ Open Res, 4 (4) 00031-2018; 10.1183/23120541.00031-2018 Year: 2018
Changes in gene expression associated with COPD revealed by low density microarray analysis Source: Eur Respir J 2006; 28: Suppl. 50, 584s Year: 2006