Combining biomarker and food intake data: calibration equations for citrus intake

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Title: Combining biomarker and food intake data: calibration equations for citrus intake
Other Titles: Calibration equations for citrus intake
Authors: D'Angelo, SilviaGormley, Isobel ClaireMcNulty, Breige A.Brennan, Lorraineet al.
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Date: Oct-2019
Online since: 2019-11-15T15:27:27Z
Abstract: BACKGROUND:Measurement error associated with self-reported dietary intake is a well-documented issue. Combining biomarkers of food intake and dietary intake data is a high priority. OBJECTIVES:The objective of this study was to develop calibration equations for food intake, illustrated with an application for citrus intake. Further, a simulation-based framework was developed to determine the portion of biomarker data needed for stable calibration equation estimation in large population studies. METHODS:Calibration equations were developed using mean daily self-reported citrus intake (4-d semiweighed food diaries) and biomarker-derived intake (urinary proline betaine biomarker) data from participants (n = 565) as part of a cross-sectional study. Different functional specifications and biomarker transformations were tested to derive the optimal calibration equation specifications. The simulation study was developed using linear regression for the calibration equations. Stability in the calibration equation estimations was investigated for varying portions of biomarker and intake data "qualities." RESULTS:With citrus intake, linear regression on nontransformed biomarker data resulted in the optimal calibration equation specifications and produced good-quality predicted intakes. The lowest mean squared error (14,354) corresponded to a linear regression model, defined with biomarker-derived estimates of intakes on the original scale. Using this model in a subpopulation without biomarker data resulted in an average mean ± SD citrus intake of 81 ± 66 g/d. The simulation study suggested that in large population studies, biomarker data on 20-30% of the subjects are required to guarantee stable estimation of calibration equations. This article is accompanied by a web application ("Bio-Intake"), which was developed to facilitate measurement error correction in self-reported mean daily citrus intake data. CONCLUSIONS:Calibration equations proved to be a useful instrument to correct measurement error in self-reported food intake data. The simulation study demonstrated that the use of food intake biomarkers may be feasible and beneficial in the context of large population studies.
Funding Details: European Research Council
Science Foundation Ireland
Type of material: Journal Article
Publisher: Oxford University Press
Journal: The American Journal of Clinical Nutrition
Volume: 110
Issue: 4
Start page: 977
End page: 983
Copyright (published version): 2019 American Society for Nutrition
Keywords: BiomarkersCalibration equationsCitrusMeasurement errorProline betaine
DOI: 10.1093/ajcn/nqz168
Language: en
Status of Item: Peer reviewed
Appears in Collections:Mathematics and Statistics Research Collection
Institute of Food and Health Research Collection
Insight Research Collection
Agriculture and Food Science Research Collection

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