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We studied the relationship between occupational exposures, chronic
bronchitis, and lung function in a general population survey in 14
industrialized countries, including 13,253 men and women aged
20 to 44 yr. We studied associations between occupational group,
occupational exposures, bronchitis symptoms (cough and phlegm
production for at least 3 mo each year), FEV
1
, and nonspecific
bronchial responsiveness (NSBR) separately in lifetime nonsmokers,
cigarette smokers, and ex-smokers. Occupational exposure to vapors,
gas, dust, or fumes, estimated with a job exposure matrix
(JEM), was associated with chronic bronchitis among current
smokers only (prevalence ratio (PR): 1.2 to 1.7). The interaction of
occupational exposure with smoking, however, was not statistically
significant (p
0.1). Self-reported exposure was related to
chronic bronchitis in all smoking groups. An increased risk for
chronic bronchitis was found in agricultural, textile, paper, wood,
chemical, and food processing workers, being more pronounced
in smokers. Lung function and NSBR were not clearly related to
occupational exposures. Findings were similar for asthmatic and
nonasthmatic subjects. In conclusion, occupational exposures contributed
to the occurrence of chronic (industrial) bronchitis in
young adults. Fixed airflow limitation was not evident, probably
due to the relatively young age of this populatio
Occupation, Chronic Bronchitis, and Lung Function in
Young Adults
JAN PAUL ZOCK;JORDI SUNYER;MANOLIS KOGEVINAS;HANS KROMHOUT;PETER BURNEY;JOSEP MARIA ANTÓ;The ECRHS Study Group: M. Abramson;J. Kutin;Australia;P. Vermeire;F. van Bastelaer, Belgium;H. Magnussen;D. Nowak;H. E. Wichmann;J. Heinrich Germany;T. Gislason;D. Gislason Iceland;J. Prichard, S. Allwright;D. MacLeod Ireland;M. Bugiani;BUCCA, Caterina;ROMANO, Canzio;R. de Marco;lo Cascio;C. Campello;A. Marinoni;I. Cerveri;L. Casali;L. Perfetti Italy;B. Rijcken;J. P. Schouten;M. Kerkhof;H. M. Boezen, The Netherlands;J. Crane, S. Lewis;N. Pearce New Zealand;A. Gulsvik;E. Omenaas Norway;J. M. Antó;J. Sunyer;J. Soriano;M. Kogevinas;A. Tobías;J. Roca;N. Muniozguren;J. Ramos González;A. Capelastegui, J. Martínez Moratalla;E. Almar;J. Maldonado Pérez;A. Pereira;J. Sánchez;J. Quirós;I. Huerta, Spain;G. Boman, C. Janson;E. Björnsson;L. Rosenhall;E. Norrman;B. Lundbäck;N. Lindholm, P. Plaschke;K. Torén Sweden;N. Künzli Switzerland;R. Hall, B. Harrison;J. Stark United Kingdom;S. Buist, W. Vollmer;M. Osborne Oregon;H. Kromhout;R. Vermeulen;Utrecht;The Netherland
2001-01-01
Abstract
We studied the relationship between occupational exposures, chronic
bronchitis, and lung function in a general population survey in 14
industrialized countries, including 13,253 men and women aged
20 to 44 yr. We studied associations between occupational group,
occupational exposures, bronchitis symptoms (cough and phlegm
production for at least 3 mo each year), FEV
1
, and nonspecific
bronchial responsiveness (NSBR) separately in lifetime nonsmokers,
cigarette smokers, and ex-smokers. Occupational exposure to vapors,
gas, dust, or fumes, estimated with a job exposure matrix
(JEM), was associated with chronic bronchitis among current
smokers only (prevalence ratio (PR): 1.2 to 1.7). The interaction of
occupational exposure with smoking, however, was not statistically
significant (p
0.1). Self-reported exposure was related to
chronic bronchitis in all smoking groups. An increased risk for
chronic bronchitis was found in agricultural, textile, paper, wood,
chemical, and food processing workers, being more pronounced
in smokers. Lung function and NSBR were not clearly related to
occupational exposures. Findings were similar for asthmatic and
nonasthmatic subjects. In conclusion, occupational exposures contributed
to the occurrence of chronic (industrial) bronchitis in
young adults. Fixed airflow limitation was not evident, probably
due to the relatively young age of this populatio
JAN-PAUL ZOCK, JORDI SUNYER, MANOLIS KOGEVINAS, HANS KROMHOUT, PETER BURNEY, JOSEP MARIA ANTÓ,
and The ECRHS Study Group: M. Abramson, J. Kutin (Melbourne), Australia; P. Vermeire and F. van Bastelaer (Antwerp South, Antwerp Central), Belgium; H. Magnussen and D. Nowak (Hamburg), and H.E. Wichmann and J. Heinrich, (Erfurt) Germany; T. Gislason and D. Gislason, (Reykjavik) Iceland; J. Prichard, S. Allwright and D. MacLeod, (Dublin) Ireland; M. Bugiani, C. Bucca, C. Romano, (Turin), R. de Marco, lo Cascio and C. Campello (Verona), A. Marinoni, I. Cerveri, L. Casali, and L. Perfetti, (Pavia) Italy; B. Rijcken, J.P. Schouten, M. Kerkhof and H.M. Boezen, (Groningen, Bergen op Zoom, Geleen), The Netherlands; J. Crane, S. Lewis and N. Pearce, (Wellington, Christchurch, and Hawkes Bay) New Zealand; A. Gulsvik and E. Omenaas, (Bergen) Norway; J.M. Antó, J. Sunyer, J. Soriano,
M. Kogevinas, A. Tobías and J. Roca, (Barcelona), N.Muniozguren, J. Ramos González and A. Capelastegui, (Galdakao), J. Martínez-Moratalla and E. Almar, (Albacete), J. Maldonado Pérez, A. Pereira and J. Sánchez, (Huelva), and J. Quirós and I. Huerta, (Oviedo), Spain; G. Boman, C. Janson, and E. Björnsson,
(Uppsala), L. Rosenhall, E. Norrman, and B. Lundbäck , (Umea), and N. Lindholm, P. Plaschke, and K. Torén, (Göteborg) Sweden; N. Künzli, (Basel) Switzerland;R. Hall, (Ipswich), B. Harrison, (Norwich), and J. Stark, (Cambridge) United Kingdom; and S. Buist, W. Vollmer, and M. Osborne, (Portland) Oregon and H. Kromhout, and R. Vermeulen, Utrecht, The Netherland
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/124706
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simulazione ASN
Il report seguente simula gli indicatori relativi alla produzione scientifica in relazione alle soglie ASN 2023-2025 del proprio SC/SSD. Si ricorda che il superamento dei valori soglia (almeno 2 su 3) è requisito necessario ma non sufficiente al conseguimento dell'abilitazione.
La simulazione si basa sui dati IRIS e presenta gli indicatori calcolati alla data indicata sul report. Si ricorda che in sede di domanda ASN presso il MIUR gli indicatori saranno invece calcolati a partire dal 1° gennaio rispettivamente del quinto/decimo/quindicesimo anno precedente la scadenza del quadrimestre di presentazione della domanda (art 2 del DM 598/2018).
In questa simulazione pertanto il valore degli indicatori potrà differire da quello conteggiato all’atto della domanda ASN effettuata presso il MIUR a seguito di:
Correzioni imputabili a eventuali periodi di congedo obbligatorio, che in sede di domanda ASN danno diritto a incrementi percentuali dei valori.
Presenza di eventuali errori di catalogazione e/o dati mancanti in IRIS
Variabilità nel tempo dei valori citazionali (per i settori bibliometrici)
Variabilità della finestra temporale considerata in funzione della sessione di domanda ASN a cui si partecipa.
La presente simulazione è stata realizzata sulla base delle regole riportate nel DM 598/2018 e dell'allegata Tabella A e delle specifiche definite all'interno del Focus Group Cineca relativo al modulo IRIS ER. Il Cineca non si assume alcuna responsabilità in merito all'uso che il diretto interessato o terzi faranno della simulazione.