Application of a Repeat-Measure Biomarker Measurement Error Model to 2 Validation Studies: Examination of the Effect of Within-Person Variation in Biomarker Measurements

Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (ρ) and deattenuation factor (λ), used in measurement error correction. These models account for correlated errors in the food frequency questionnair...

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Published inAmerican journal of epidemiology Vol. 173; no. 6; pp. 683 - 694
Main Authors Preis, Sarah Rosner, Spiegelman, Donna, Zhao, Barbara Bojuan, Moshfegh, Alanna, Baer, David J, Willett, Walter C
Format Journal Article
LanguageEnglish
Published Cary, NC Oxford University Press 15.03.2011
Oxford Publishing Limited (England)
Subjects
Adult
Aged
Bias
Biological and medical sciences
Biomarkers
Biomarkers - blood
Correlation coefficient
Data Interpretation, Statistical
Diet
Diet Surveys - methods
Diet Surveys - standards
Diet Surveys - statistics & numerical data
energy density
Energy Intake
Epidemiology
Errors
estimation
Female
food frequency questionnaires
General aspects
human nutrition
Humans
Male
Medical sciences
Metabolic diseases
Middle Aged
Miscellaneous
model validation
nitrogen
Nitrogen - urine
Nutrition research
Practice of Epidemiology
proteins
Public health. Hygiene
Public health. Hygiene-occupational medicine
Questionnaires
Reproducibility of Results
urine
Validation studies
Validation Studies as Topic
Variance analysis
water
energy intake
Nutrition
nutrition assessment
Biological marker
Variations
Epidemiology
data collection
Protein
Feeding
Test validation
bias (epidemiology)
proteins
Repeated measurement
biological markers
Methodological bias
Models
validation studies
Measurement error
Public health
Data gathering
Online AccessGet full text
ISSN1476-6256
0002-9262
1476-6256
DOI10.1093/aje/kwq415

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Abstract Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (ρ) and deattenuation factor (λ), used in measurement error correction. These models account for correlated errors in the food frequency questionnaire (FFQ) and the 24-hour diet recall and random within-person variation in the biomarkers. Failure to account for within-person variation in biomarkers can exaggerate correlated errors between FFQs and 24-hour diet recalls. For 2 validation studies, ρ and λ were calculated for total energy and protein density. In the Automated Multiple-Pass Method Validation Study (n = 471), doubly labeled water (DLW) and urinary nitrogen (UN) were measured twice in 52 adults approximately 16 months apart (2002–2003), yielding intraclass correlation coefficients of 0.43 for energy (DLW) and 0.54 for protein density (UN/DLW). The deattenuated correlation coefficient for protein density was 0.51 for correlation between the FFQ and the 24-hour diet recall and 0.49 for correlation between the FFQ and the biomarker. Use of repeat-biomarker measurement error models resulted in a ρ of 0.42. These models were similarly applied to the Observing Protein and Energy Nutrition Study (1999–2000). In conclusion, within-person variation in biomarkers can be substantial, and to adequately assess the impact of correlated subject-specific error, this variation should be assessed in validation studies of FFQs.
AbstractList Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (ρ) and deattenuation factor (λ), used in measurement error correction. These models account for correlated errors in the food frequency questionnaire (FFQ) and the 24-hour diet recall and random within-person variation in the biomarkers. Failure to account for within-person variation in biomarkers can exaggerate correlated errors between FFQs and 24-hour diet recalls. For 2 validation studies, ρ and λ were calculated for total energy and protein density. In the Automated Multiple-Pass Method Validation Study (n = 471), doubly labeled water (DLW) and urinary nitrogen (UN) were measured twice in 52 adults approximately 16 months apart (2002–2003), yielding intraclass correlation coefficients of 0.43 for energy (DLW) and 0.54 for protein density (UN/DLW). The deattenuated correlation coefficient for protein density was 0.51 for correlation between the FFQ and the 24-hour diet recall and 0.49 for correlation between the FFQ and the biomarker. Use of repeat-biomarker measurement error models resulted in a ρ of 0.42. These models were similarly applied to the Observing Protein and Energy Nutrition Study (1999–2000). In conclusion, within-person variation in biomarkers can be substantial, and to adequately assess the impact of correlated subject-specific error, this variation should be assessed in validation studies of FFQs.
Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (p) and deattenuation factor (λ), used in measurement error correction. These models account for correlated errors in the food frequency questionnaire (FFQ) and the 24-hour diet recall and random within-person variation in the biomarkers. Failure to account for within-person variation in biomarkers can exaggerate correlated errors between FFQs and 24-hour diet recalls. For 2 validation studies, p and λ were calculated for total energy and protein density. In the Automated Multiple-Pass Method Validation Study (n = 471), doubly labeled water (DLW) and urinary nitrogen (UN) were measured twice in 52 adults approximately 16 months apart (2002-2003), yielding intraclass correlation coefficients of 0.43 for energy (DLW) and 0.54 for protein density (UN/DLW). The deattenuated correlation coefficient for protein density was 0.51 for correlation between the FF0 and the 24-hour diet recall and 0.49 for correlation between the FF0 and the biomarker. Use of repeat-biomarker measurement error models resulted in a p of 0.42. These models were similarly applied to the Observing Protein and Energy Nutrition Study (1999-2000). In conclusion, within-person variation in biomarkers can be substantial, and to adequately assess the impact of correlated subject-specific error, this variation should be assessed in validation studies of FFQs. [PUBLICATION ABSTRACT]
Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (ρ) and deattenuation factor (λ), used in measurement error correction. These models account for correlated errors in the food frequency questionnaire (FFQ) and the 24-hour diet recall and random within-person variation in the biomarkers. Failure to account for within-person variation in biomarkers can exaggerate correlated errors between FFQs and 24-hour diet recalls. For 2 validation studies, ρ and λ were calculated for total energy and protein density. In the Automated Multiple-Pass Method Validation Study ( n = 471), doubly labeled water (DLW) and urinary nitrogen (UN) were measured twice in 52 adults approximately 16 months apart (2002–2003), yielding intraclass correlation coefficients of 0.43 for energy (DLW) and 0.54 for protein density (UN/DLW). The deattenuated correlation coefficient for protein density was 0.51 for correlation between the FFQ and the 24-hour diet recall and 0.49 for correlation between the FFQ and the biomarker. Use of repeat-biomarker measurement error models resulted in a ρ of 0.42. These models were similarly applied to the Observing Protein and Energy Nutrition Study (1999–2000). In conclusion, within-person variation in biomarkers can be substantial, and to adequately assess the impact of correlated subject-specific error, this variation should be assessed in validation studies of FFQs.
Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (ρ) and deattenuation factor (λ), used in measurement error correction. These models account for correlated errors in the food frequency questionnaire (FFQ) and the 24-hour diet recall and random within-person variation in the biomarkers. Failure to account for within-person variation in biomarkers can exaggerate correlated errors between FFQs and 24-hour diet recalls. For 2 validation studies, ρ and λ were calculated for total energy and protein density. In the Automated Multiple-Pass Method Validation Study (n=471), doubly labeled water (DLW) and urinary nitrogen (UN) were measured twice in 52 adults approximately 16 months apart (2002-2003), yielding intraclass correlation coefficients of 0.43 for energy (DLW) and 0.54 for protein density (UN/DLW). The deattenuated correlation coefficient for protein density was 0.51 for correlation between the FFQ and the 24-hour diet recall and 0.49 for correlation between the FFQ and the biomarker. Use of repeat-biomarker measurement error models resulted in a ρ of 0.42. These models were similarly applied to the Observing Protein and Energy Nutrition Study (1999-2000). In conclusion, within-person variation in biomarkers can be substantial, and to adequately assess the impact of correlated subject-specific error, this variation should be assessed in validation studies of FFQs.Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (ρ) and deattenuation factor (λ), used in measurement error correction. These models account for correlated errors in the food frequency questionnaire (FFQ) and the 24-hour diet recall and random within-person variation in the biomarkers. Failure to account for within-person variation in biomarkers can exaggerate correlated errors between FFQs and 24-hour diet recalls. For 2 validation studies, ρ and λ were calculated for total energy and protein density. In the Automated Multiple-Pass Method Validation Study (n=471), doubly labeled water (DLW) and urinary nitrogen (UN) were measured twice in 52 adults approximately 16 months apart (2002-2003), yielding intraclass correlation coefficients of 0.43 for energy (DLW) and 0.54 for protein density (UN/DLW). The deattenuated correlation coefficient for protein density was 0.51 for correlation between the FFQ and the 24-hour diet recall and 0.49 for correlation between the FFQ and the biomarker. Use of repeat-biomarker measurement error models resulted in a ρ of 0.42. These models were similarly applied to the Observing Protein and Energy Nutrition Study (1999-2000). In conclusion, within-person variation in biomarkers can be substantial, and to adequately assess the impact of correlated subject-specific error, this variation should be assessed in validation studies of FFQs.
Author Baer, David J
Preis, Sarah Rosner
Spiegelman, Donna
Moshfegh, Alanna
Willett, Walter C
Zhao, Barbara Bojuan
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ContentType Journal Article
Copyright 2015 INIST-CNRS
The Author 2011. Published by Oxford University Press on behalf of the Johns Hopkins Bloomberg School of Public Health. All rights reserved.
Copyright Oxford Publishing Limited(England) Mar 15, 2011
American Journal of Epidemiology © The Author 2011. Published by Oxford University Press on behalf of the Johns Hopkins Bloomberg School of Public Health. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com. 2011
Copyright_xml – notice: 2015 INIST-CNRS
– notice: The Author 2011. Published by Oxford University Press on behalf of the Johns Hopkins Bloomberg School of Public Health. All rights reserved.
– notice: Copyright Oxford Publishing Limited(England) Mar 15, 2011
– notice: American Journal of Epidemiology © The Author 2011. Published by Oxford University Press on behalf of the Johns Hopkins Bloomberg School of Public Health. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com. 2011
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Issue 6
Keywords energy intake
Nutrition
nutrition assessment
Biological marker
Variations
Epidemiology
data collection
Protein
Feeding
Test validation
bias (epidemiology)
proteins
Repeated measurement
biological markers
Methodological bias
Models
validation studies
Measurement error
Public health
Data gathering
Language English
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The Author 2011. Published by Oxford University Press on behalf of the Johns Hopkins Bloomberg School of Public Health. All rights reserved.
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Snippet Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (ρ) and...
Repeat-biomarker measurement error models accounting for systematic correlated within-person error can be used to estimate the correlation coefficient (p) and...
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StartPage 683
SubjectTerms Adult
Aged
Bias
Biological and medical sciences
Biomarkers
Biomarkers - blood
Correlation coefficient
Data Interpretation, Statistical
Diet
Diet Surveys - methods
Diet Surveys - standards
Diet Surveys - statistics & numerical data
energy density
Energy Intake
Epidemiology
Errors
estimation
Female
food frequency questionnaires
General aspects
human nutrition
Humans
Male
Medical sciences
Metabolic diseases
Middle Aged
Miscellaneous
model validation
nitrogen
Nitrogen - urine
Nutrition research
Practice of Epidemiology
proteins
Public health. Hygiene
Public health. Hygiene-occupational medicine
Questionnaires
Reproducibility of Results
urine
Validation studies
Validation Studies as Topic
Variance analysis
water
Title Application of a Repeat-Measure Biomarker Measurement Error Model to 2 Validation Studies: Examination of the Effect of Within-Person Variation in Biomarker Measurements
URI https://www.ncbi.nlm.nih.gov/pubmed/21343245
https://www.proquest.com/docview/861612513
https://www.proquest.com/docview/856404780
https://pubmed.ncbi.nlm.nih.gov/PMC3105260
Volume 173
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