Airway diseases
E-poster
Occupational rhinitis and asthma
Digital health
Aims : This session is built from abstracts published on the ERS Congress platform from 23 August, in an e-poster pdf format with a 3-minute audio narration. Participants and chairs of the session are invited to access all e-posters from 23 August to 4 September prior to the 1-hour live, online discussion scheduled from September 5-7. Please note that during live discussion there will be NO e-poster/abstract presentations, only discussion.
Methods :
Pulmonary function testing, Imaging, Cell and molecular biology, Physiology, General respiratory patient care, Public health, Epidemiology
A qualitative study of the barriers facing primary healthcare professionals in identifying occupational asthma
G. Walters(Birmingham (West Midlands), United Kingdom)
COI
1
Visible moulds, non-allergic and allergic rhinitis and asthma in adults: the EGEA study
L. Orsi(Paris, France)
COI
2
Chrinic rhinosinusitis and occupational exposures
J. Minov(Skopje, North Macedonia)
COI
3
Occupational asthma in school teachers
V. Moore(Coventry, United Kingdom)
COI
4
Differences in clinical characteristics between irritant-induced and sensitizer-induced occupational asthma
J. Lantto(Helsinki, Finland)
COI
5
Quantitative CT adiposity metrics as predictors of reduced expiratory flow in WTC workers and volunteers
R. de la Hoz(New York, United States)
COI
6
The role of IL 4, 5, 10, 13 and 8 Values in The Early Detection of Occupational Asthma Disease
M. Fatih Elverisli(Düzce, Turkey)
COI
7
Occupational rhinitis and asthma in bakers: A cross-sectional study in DRCongo
J. PYANA KITENGE(Lubumbashi, Democratic Republic of the Congo)
COI
8
Occupational Asthma in Office Workers: A Cross-Sectional Study
C. Huntley(Bromsgrove, United Kingdom)
COI
9
Stay home; save lives; aid the diagnosis of occupational asthma.
V. Moore(Coventry, United Kingdom)
COI
10
A virtual SIC: A new way of diagnosing occupational asthma in the COVID-19 pandemic
V. Moore(Coventry, United Kingdom)
COI
11
Occupational exposure as a predictor of asthma exacerbation – a multicenter multivariate logistical analysis.
S. Mihaicuta(Timisoara (Timis), Romania)
COI
12
Diagnostic model for occupational asthma induced by high-molecular-weight agents: A tertiary prevention tool
E. Suarthana(Montréal (Québec), Canada)
COI
13
Association between contact with animals during childhood and occupational asthma.
A. Sana(Sousse, Tunisia)
COI
14
Phenotypes of occupational asthma defined with induced sputum after specific inhalation challenge
F. De Blay(Strasbourg, France)
COI
15
Relationship between overweight, obesity and the severity of nasal obstruction in occupational rhinitis
A. Sana(Sousse, Tunisia)
COI
16
Productivity loss and activity impairment in asthmatic patients
A. Omrane(Mahdia, Tunisia)
COI
17
Work-related asthma in healthcare workers, Behavioral Risk Factor Surveillance System, 24 states, 2013–2017
K. Dodd(Morgantown, United States)
COI
18
Endotyping work-related asthma
H. Suojalehto(Helsinki, Finland)
COI
19
Late Breaking Abstract - The impact of the reduction of environmental pollution during COVID-19 lockdown on healthy individuals (POLCOV Study)
M. de Homdedeu Cortes(Barcelona, Spain)
COI
20
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