• Title of article

    A Multivariate Method for Measurement Error Correction Using Pairs of Concentration Biomarkers

  • Author/Authors

    Gary E. Fraser، نويسنده , , Ru Yan، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    10
  • From page
    64
  • To page
    73
  • Abstract
    Purpose Measurement error is a pervasive problem in behavioral epidemiology, and available methods of correction all have generally untenable assumptions. We propose a multivariate method with more realistic assumptions. Methods The method uses two concentration biomarkers for each nutritional variable of interest and structural equation modeling. This produces corrected estimates of the effects on an outcome variable of changing the true exposure variables by one standard deviation, a standardized regression calibration. However, hypothesis testing in original units is preserved. The main assumptions are that certain error correlations between dietary estimates and biomarkers or between biomarkers be close to zero. Results Two illustrative models used simulated data with the covariance structure of a real data set. The corrections produced often were very substantial. A sensitivity analysis allowed error correlations to depart from zero over a modest range. Root mean square biases show the advantage of the corrected approach. Relatively large calibration studies are needed for adequate precision. Conclusions As long as concentration biomarkers are selected carefully, error-corrected multivariate hypothesis testing and standardized effect estimation is possible. With the deviations from assumptions that were tested, the corrected method usually produces much less biased results than an uncorrected analysis.
  • Keywords
    biomarkers , Nutritional epidemiology , latent variables , Regression calibration , Measurement Error Correction , Standardized Regression.
  • Journal title
    Annals of Epidemiology
  • Serial Year
    2007
  • Journal title
    Annals of Epidemiology
  • Record number

    462834