Considerations in the use of different spirometers in epidemiological studies

Edith B Milanzi; Gerard H Koppelman; Marieke Oldenwening; Sonja Augustijn; Bernadette Aalders-de Ruijter; Martijn Farenhorst; Judith M Vonk; Marjan Tewis; Bert Brunekreef; Ulrike Gehring

doi:10.1186/s12940-019-0478-2

Considerations in the use of different spirometers in epidemiological studies

Edith B Milanzi, Gerard H Koppelman, Marieke Oldenwening, Sonja Augustijn, Bernadette Aalders-de Ruijter, Martijn Farenhorst, Judith M Vonk, Marjan Tewis, Bert Brunekreef, Ulrike Gehring^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

BACKGROUND: Spirometric lung function measurements have been proven to be excellent objective markers of respiratory morbidity. The use of different types of spirometers in epidemiological and clinical studies may present systematically different results affecting interpretation and implication of results. We aimed to explore considerations in the use of different spirometers in epidemiological studies by comparing forced expiratory volume in 1 s (FEV1) and forced vital capacity (FVC) measurements between the Masterscreen pneumotachograph and EasyOne spirometers. We also provide a correction equation for correcting systematic differences using regression calibration.

METHODS: Forty-nine volunteers had lung function measured on two different spirometers in random order with at least three attempts on each spirometer. Data were analysed using correlation plots, Bland and Altman plots and formal paired t-tests. We used regression calibration to provide a correction equation.

RESULTS: The mean (SD) FEV1 and FVC was 3.78 (0.63) L and 4.78 (0.63) L for the Masterscreen pneumotachograph and 3.54 (0.60) L and 4.41 (0.83) L for the EasyOne spirometer. The mean FEV1 difference of 0.24 L and mean FVC difference of 0.37 L between the spirometers (corresponding to 6.3 and 8.4% difference, respectively) were statistically significant and consistent between younger (< 30 years) and older volunteers (> 30 years) and between males and females. Regression calibration indicated that an increase of 1 L in the EasyOne measurements corresponded to an average increase of 1.032 L in FEV1 and 1.005 L in FVC in the Masterscreen measurements.

CONCLUSION: Use of different types of spirometers may result in significant systematic differences in lung function values. Epidemiological researchers need to be aware of these potential systematic differences and correct for them in analyses using methods such as regression calibration.

Original language	English
Article number	39
Number of pages	8
Journal	Environmental health
Volume	18
Issue number	1
DOIs	https://doi.org/10.1186/s12940-019-0478-2
Publication status	Published - 25-Apr-2019

Keywords

Calibration
Epidemiological studies
Lung function
Spirometry
Systematic difference
BODY-MASS INDEX
LUNG-FUNCTION
SELF-REPORT
WEIGHT
HEIGHT
AGREEMENT
ACCURACY
VALIDITY
COHORT
HEALTH

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title = "Considerations in the use of different spirometers in epidemiological studies",

abstract = "BACKGROUND: Spirometric lung function measurements have been proven to be excellent objective markers of respiratory morbidity. The use of different types of spirometers in epidemiological and clinical studies may present systematically different results affecting interpretation and implication of results. We aimed to explore considerations in the use of different spirometers in epidemiological studies by comparing forced expiratory volume in 1 s (FEV1) and forced vital capacity (FVC) measurements between the Masterscreen pneumotachograph and EasyOne spirometers. We also provide a correction equation for correcting systematic differences using regression calibration.METHODS: Forty-nine volunteers had lung function measured on two different spirometers in random order with at least three attempts on each spirometer. Data were analysed using correlation plots, Bland and Altman plots and formal paired t-tests. We used regression calibration to provide a correction equation.RESULTS: The mean (SD) FEV1 and FVC was 3.78 (0.63) L and 4.78 (0.63) L for the Masterscreen pneumotachograph and 3.54 (0.60) L and 4.41 (0.83) L for the EasyOne spirometer. The mean FEV1 difference of 0.24 L and mean FVC difference of 0.37 L between the spirometers (corresponding to 6.3 and 8.4% difference, respectively) were statistically significant and consistent between younger (< 30 years) and older volunteers (> 30 years) and between males and females. Regression calibration indicated that an increase of 1 L in the EasyOne measurements corresponded to an average increase of 1.032 L in FEV1 and 1.005 L in FVC in the Masterscreen measurements.CONCLUSION: Use of different types of spirometers may result in significant systematic differences in lung function values. Epidemiological researchers need to be aware of these potential systematic differences and correct for them in analyses using methods such as regression calibration.",

keywords = "Calibration, Epidemiological studies, Lung function, Spirometry, Systematic difference, BODY-MASS INDEX, LUNG-FUNCTION, SELF-REPORT, WEIGHT, HEIGHT, AGREEMENT, ACCURACY, VALIDITY, COHORT, HEALTH",

author = "Milanzi, {Edith B} and Koppelman, {Gerard H} and Marieke Oldenwening and Sonja Augustijn and {Aalders-de Ruijter}, Bernadette and Martijn Farenhorst and Vonk, {Judith M} and Marjan Tewis and Bert Brunekreef and Ulrike Gehring",

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doi = "10.1186/s12940-019-0478-2",

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volume = "18",

journal = "Environmental health",

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T1 - Considerations in the use of different spirometers in epidemiological studies

AU - Milanzi, Edith B

AU - Koppelman, Gerard H

AU - Oldenwening, Marieke

AU - Augustijn, Sonja

AU - Aalders-de Ruijter, Bernadette

AU - Farenhorst, Martijn

AU - Vonk, Judith M

AU - Tewis, Marjan

AU - Brunekreef, Bert

AU - Gehring, Ulrike

PY - 2019/4/25

Y1 - 2019/4/25

N2 - BACKGROUND: Spirometric lung function measurements have been proven to be excellent objective markers of respiratory morbidity. The use of different types of spirometers in epidemiological and clinical studies may present systematically different results affecting interpretation and implication of results. We aimed to explore considerations in the use of different spirometers in epidemiological studies by comparing forced expiratory volume in 1 s (FEV1) and forced vital capacity (FVC) measurements between the Masterscreen pneumotachograph and EasyOne spirometers. We also provide a correction equation for correcting systematic differences using regression calibration.METHODS: Forty-nine volunteers had lung function measured on two different spirometers in random order with at least three attempts on each spirometer. Data were analysed using correlation plots, Bland and Altman plots and formal paired t-tests. We used regression calibration to provide a correction equation.RESULTS: The mean (SD) FEV1 and FVC was 3.78 (0.63) L and 4.78 (0.63) L for the Masterscreen pneumotachograph and 3.54 (0.60) L and 4.41 (0.83) L for the EasyOne spirometer. The mean FEV1 difference of 0.24 L and mean FVC difference of 0.37 L between the spirometers (corresponding to 6.3 and 8.4% difference, respectively) were statistically significant and consistent between younger (< 30 years) and older volunteers (> 30 years) and between males and females. Regression calibration indicated that an increase of 1 L in the EasyOne measurements corresponded to an average increase of 1.032 L in FEV1 and 1.005 L in FVC in the Masterscreen measurements.CONCLUSION: Use of different types of spirometers may result in significant systematic differences in lung function values. Epidemiological researchers need to be aware of these potential systematic differences and correct for them in analyses using methods such as regression calibration.

AB - BACKGROUND: Spirometric lung function measurements have been proven to be excellent objective markers of respiratory morbidity. The use of different types of spirometers in epidemiological and clinical studies may present systematically different results affecting interpretation and implication of results. We aimed to explore considerations in the use of different spirometers in epidemiological studies by comparing forced expiratory volume in 1 s (FEV1) and forced vital capacity (FVC) measurements between the Masterscreen pneumotachograph and EasyOne spirometers. We also provide a correction equation for correcting systematic differences using regression calibration.METHODS: Forty-nine volunteers had lung function measured on two different spirometers in random order with at least three attempts on each spirometer. Data were analysed using correlation plots, Bland and Altman plots and formal paired t-tests. We used regression calibration to provide a correction equation.RESULTS: The mean (SD) FEV1 and FVC was 3.78 (0.63) L and 4.78 (0.63) L for the Masterscreen pneumotachograph and 3.54 (0.60) L and 4.41 (0.83) L for the EasyOne spirometer. The mean FEV1 difference of 0.24 L and mean FVC difference of 0.37 L between the spirometers (corresponding to 6.3 and 8.4% difference, respectively) were statistically significant and consistent between younger (< 30 years) and older volunteers (> 30 years) and between males and females. Regression calibration indicated that an increase of 1 L in the EasyOne measurements corresponded to an average increase of 1.032 L in FEV1 and 1.005 L in FVC in the Masterscreen measurements.CONCLUSION: Use of different types of spirometers may result in significant systematic differences in lung function values. Epidemiological researchers need to be aware of these potential systematic differences and correct for them in analyses using methods such as regression calibration.

KW - Calibration

KW - Epidemiological studies

KW - Lung function

KW - Spirometry

KW - Systematic difference

KW - BODY-MASS INDEX

KW - LUNG-FUNCTION

KW - SELF-REPORT

KW - WEIGHT

KW - HEIGHT

KW - AGREEMENT

KW - ACCURACY

KW - VALIDITY

KW - COHORT

KW - HEALTH

U2 - 10.1186/s12940-019-0478-2

DO - 10.1186/s12940-019-0478-2

M3 - Article

C2 - 31023382

SN - 1476-069X

VL - 18

JO - Environmental health

JF - Environmental health

IS - 1

M1 - 39

ER -

Considerations in the use of different spirometers in epidemiological studies

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