Canadian prediction equations of spirometric lung function for Caucasian adults 20 to 90 years of age: Results from the Canadian Obstructive Lung Disease (COLD) study and the Lung Health Canadian Environment (LHCE) study

W. C. Tan; J. Bourbeau; P. Hernandez; K. Chapman; R. Cowie; M. J. FitzGerald; S. Aaron; D. D. Marciniuk; F. Maltais; O'Donnell De O'Donnell; R. Goldstein; D. Sin; M. Chan-Yeung; J. Manfreda; N. R. Anthonisen; R. B. Tate; M. R. Sears; H. C. Siersted; M. R. Becklake; P. Ernst; D. M. Bowie; L. Sweet; L. Van Til

doi:10.1155/2011/540396

Canadian prediction equations of spirometric lung function for Caucasian adults 20 to 90 years of age: Results from the Canadian Obstructive Lung Disease (COLD) study and the Lung Health Canadian Environment (LHCE) study

W. C. Tan, J. Bourbeau, P. Hernandez, K. Chapman, R. Cowie, M. J. FitzGerald, S. Aaron, D. D. Marciniuk, F. Maltais, O'Donnell De O'Donnell, R. Goldstein, D. Sin, M. Chan-Yeung, J. Manfreda, N. R. Anthonisen, R. B. Tate, M. R. Sears, H. C. Siersted, M. R. Becklake, P. ErnstD. M. Bowie, L. Sweet, L. Van Til

Medicine

Medicine

Résultat de recherche: Article › examen par les pairs

54 Citations (Scopus)

Résumé

BACKGROUND: Currently, no reference or normative values for spirometry based on a randomly selected Canadian population exist. OBJECTIVE:. The aim of the present analysis was to construct spirometric reference values for Canadian adults 20 to 90 years of age by combining data collected from healthy lifelong nonsmokers in two population-based studies. METHOD: Both studies similarly used random population sampling, conducted using validated epidemiological protocols in the Canadian Obstructive Lung Disease study, and the Lung Health Canadian Environment study. Spirometric lung function data were available from 3042 subjects in the COLD study, which was completed in 2009, and from 2571 subjects in the LHCE study completed in 1995. A total of 844 subjects 40 to 90 years of age, and 812 subjects 20 to 44 years of age, were identified as healthy, asymptomatic, lifelong nonsmokers, and provided normative reference values for spirometry. Multiple regression models were constructed separately for Caucasian men and women for the following spirometric parameters: forced expiratory volume in 1 s (FEV₁), forced vital capacity (FVC) and FEV ₁/FVC ratio, with covariates of height, sex and age. Comparison with published regression equations showed that the best agreement was obtained from data derived from random populations. RESULTS: The best-fitting regression models for healthy, never-smoking, asymptomatic European-Canadian men and women 20 to 90 years of age were constructed. When age- and height-corrected FEV ₁, FVC and FEV₁/FVC ratio were compared with other spirometry reference studies, mean values were similar, with the closest being derived from population-based studies. CONCLUSION: These spirometry reference equations, derived from randomly selected population-based cohorts with stringently monitored lung function measurements, provide data currently lacking in Canada.

Langue d'origine	English
Pages (de-à)	321-326
Nombre de pages	6
Journal	Canadian Respiratory Journal
Volume	18
Numéro de publication	6
DOI	https://doi.org/10.1155/2011/540396
Statut de publication	Published - 2011

ASJC Scopus Subject Areas

Pulmonary and Respiratory Medicine

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

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10.1155/2011/540396

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Tan, W. C., Bourbeau, J., Hernandez, P., Chapman, K., Cowie, R., FitzGerald, M. J., Aaron, S., Marciniuk, D. D., Maltais, F., De O'Donnell, OD., Goldstein, R., Sin, D., Chan-Yeung, M., Manfreda, J., Anthonisen, N. R., Tate, R. B., Sears, M. R., Siersted, H. C., Becklake, M. R., ... Van Til, L. (2011). Canadian prediction equations of spirometric lung function for Caucasian adults 20 to 90 years of age: Results from the Canadian Obstructive Lung Disease (COLD) study and the Lung Health Canadian Environment (LHCE) study. Canadian Respiratory Journal, 18(6), 321-326. https://doi.org/10.1155/2011/540396

Canadian prediction equations of spirometric lung function for Caucasian adults 20 to 90 years of age: Results from the Canadian Obstructive Lung Disease (COLD) study and the Lung Health Canadian Environment (LHCE) study. / Tan, W. C.; Bourbeau, J.; Hernandez, P. et al.
Dans: Canadian Respiratory Journal, Vol. 18, N° 6, 2011, p. 321-326.

Résultat de recherche: Article › examen par les pairs

Tan, WC, Bourbeau, J, Hernandez, P, Chapman, K, Cowie, R, FitzGerald, MJ, Aaron, S, Marciniuk, DD, Maltais, F, De O'Donnell, OD, Goldstein, R, Sin, D, Chan-Yeung, M, Manfreda, J, Anthonisen, NR, Tate, RB, Sears, MR, Siersted, HC, Becklake, MR, Ernst, P, Bowie, DM, Sweet, L & Van Til, L 2011, 'Canadian prediction equations of spirometric lung function for Caucasian adults 20 to 90 years of age: Results from the Canadian Obstructive Lung Disease (COLD) study and the Lung Health Canadian Environment (LHCE) study', Canadian Respiratory Journal, vol. 18, n° 6, pp. 321-326. https://doi.org/10.1155/2011/540396

Tan WC, Bourbeau J, Hernandez P, Chapman K, Cowie R, FitzGerald MJ et al. Canadian prediction equations of spirometric lung function for Caucasian adults 20 to 90 years of age: Results from the Canadian Obstructive Lung Disease (COLD) study and the Lung Health Canadian Environment (LHCE) study. Canadian Respiratory Journal. 2011;18(6):321-326. doi: 10.1155/2011/540396

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title = "Canadian prediction equations of spirometric lung function for Caucasian adults 20 to 90 years of age: Results from the Canadian Obstructive Lung Disease (COLD) study and the Lung Health Canadian Environment (LHCE) study",

abstract = "BACKGROUND: Currently, no reference or normative values for spirometry based on a randomly selected Canadian population exist. OBJECTIVE:. The aim of the present analysis was to construct spirometric reference values for Canadian adults 20 to 90 years of age by combining data collected from healthy lifelong nonsmokers in two population-based studies. METHOD: Both studies similarly used random population sampling, conducted using validated epidemiological protocols in the Canadian Obstructive Lung Disease study, and the Lung Health Canadian Environment study. Spirometric lung function data were available from 3042 subjects in the COLD study, which was completed in 2009, and from 2571 subjects in the LHCE study completed in 1995. A total of 844 subjects 40 to 90 years of age, and 812 subjects 20 to 44 years of age, were identified as healthy, asymptomatic, lifelong nonsmokers, and provided normative reference values for spirometry. Multiple regression models were constructed separately for Caucasian men and women for the following spirometric parameters: forced expiratory volume in 1 s (FEV1), forced vital capacity (FVC) and FEV 1/FVC ratio, with covariates of height, sex and age. Comparison with published regression equations showed that the best agreement was obtained from data derived from random populations. RESULTS: The best-fitting regression models for healthy, never-smoking, asymptomatic European-Canadian men and women 20 to 90 years of age were constructed. When age- and height-corrected FEV 1, FVC and FEV1/FVC ratio were compared with other spirometry reference studies, mean values were similar, with the closest being derived from population-based studies. CONCLUSION: These spirometry reference equations, derived from randomly selected population-based cohorts with stringently monitored lung function measurements, provide data currently lacking in Canada.",

author = "Tan, {W. C.} and J. Bourbeau and P. Hernandez and K. Chapman and R. Cowie and FitzGerald, {M. J.} and S. Aaron and Marciniuk, {D. D.} and F. Maltais and {De O'Donnell}, O'Donnell and R. Goldstein and D. Sin and M. Chan-Yeung and J. Manfreda and Anthonisen, {N. R.} and Tate, {R. B.} and Sears, {M. R.} and Siersted, {H. C.} and Becklake, {M. R.} and P. Ernst and Bowie, {D. M.} and L. Sweet and {Van Til}, L.",

year = "2011",

doi = "10.1155/2011/540396",

language = "English",

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pages = "321--326",

journal = "Canadian Respiratory Journal",

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T1 - Canadian prediction equations of spirometric lung function for Caucasian adults 20 to 90 years of age

T2 - Results from the Canadian Obstructive Lung Disease (COLD) study and the Lung Health Canadian Environment (LHCE) study

AU - Tan, W. C.

AU - Bourbeau, J.

AU - Hernandez, P.

AU - Chapman, K.

AU - Cowie, R.

AU - FitzGerald, M. J.

AU - Aaron, S.

AU - Marciniuk, D. D.

AU - Maltais, F.

AU - De O'Donnell, O'Donnell

AU - Goldstein, R.

AU - Sin, D.

AU - Chan-Yeung, M.

AU - Manfreda, J.

AU - Anthonisen, N. R.

AU - Tate, R. B.

AU - Sears, M. R.

AU - Siersted, H. C.

AU - Becklake, M. R.

AU - Ernst, P.

AU - Bowie, D. M.

AU - Sweet, L.

AU - Van Til, L.

PY - 2011

Y1 - 2011

N2 - BACKGROUND: Currently, no reference or normative values for spirometry based on a randomly selected Canadian population exist. OBJECTIVE:. The aim of the present analysis was to construct spirometric reference values for Canadian adults 20 to 90 years of age by combining data collected from healthy lifelong nonsmokers in two population-based studies. METHOD: Both studies similarly used random population sampling, conducted using validated epidemiological protocols in the Canadian Obstructive Lung Disease study, and the Lung Health Canadian Environment study. Spirometric lung function data were available from 3042 subjects in the COLD study, which was completed in 2009, and from 2571 subjects in the LHCE study completed in 1995. A total of 844 subjects 40 to 90 years of age, and 812 subjects 20 to 44 years of age, were identified as healthy, asymptomatic, lifelong nonsmokers, and provided normative reference values for spirometry. Multiple regression models were constructed separately for Caucasian men and women for the following spirometric parameters: forced expiratory volume in 1 s (FEV1), forced vital capacity (FVC) and FEV 1/FVC ratio, with covariates of height, sex and age. Comparison with published regression equations showed that the best agreement was obtained from data derived from random populations. RESULTS: The best-fitting regression models for healthy, never-smoking, asymptomatic European-Canadian men and women 20 to 90 years of age were constructed. When age- and height-corrected FEV 1, FVC and FEV1/FVC ratio were compared with other spirometry reference studies, mean values were similar, with the closest being derived from population-based studies. CONCLUSION: These spirometry reference equations, derived from randomly selected population-based cohorts with stringently monitored lung function measurements, provide data currently lacking in Canada.

AB - BACKGROUND: Currently, no reference or normative values for spirometry based on a randomly selected Canadian population exist. OBJECTIVE:. The aim of the present analysis was to construct spirometric reference values for Canadian adults 20 to 90 years of age by combining data collected from healthy lifelong nonsmokers in two population-based studies. METHOD: Both studies similarly used random population sampling, conducted using validated epidemiological protocols in the Canadian Obstructive Lung Disease study, and the Lung Health Canadian Environment study. Spirometric lung function data were available from 3042 subjects in the COLD study, which was completed in 2009, and from 2571 subjects in the LHCE study completed in 1995. A total of 844 subjects 40 to 90 years of age, and 812 subjects 20 to 44 years of age, were identified as healthy, asymptomatic, lifelong nonsmokers, and provided normative reference values for spirometry. Multiple regression models were constructed separately for Caucasian men and women for the following spirometric parameters: forced expiratory volume in 1 s (FEV1), forced vital capacity (FVC) and FEV 1/FVC ratio, with covariates of height, sex and age. Comparison with published regression equations showed that the best agreement was obtained from data derived from random populations. RESULTS: The best-fitting regression models for healthy, never-smoking, asymptomatic European-Canadian men and women 20 to 90 years of age were constructed. When age- and height-corrected FEV 1, FVC and FEV1/FVC ratio were compared with other spirometry reference studies, mean values were similar, with the closest being derived from population-based studies. CONCLUSION: These spirometry reference equations, derived from randomly selected population-based cohorts with stringently monitored lung function measurements, provide data currently lacking in Canada.

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