Nature Communications (Jul 2023)

Overcoming attenuation bias in regressions using polygenic indices

  • Hans van Kippersluis,
  • Pietro Biroli,
  • Rita Dias Pereira,
  • Titus J. Galama,
  • Stephanie von Hinke,
  • S. Fleur W. Meddens,
  • Dilnoza Muslimova,
  • Eric A. W. Slob,
  • Ronald de Vlaming,
  • Cornelius A. Rietveld

DOI
https://doi.org/10.1038/s41467-023-40069-4
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 16

Abstract

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Abstract Measurement error in polygenic indices (PGIs) attenuates the estimation of their effects in regression models. We analyze and compare two approaches addressing this attenuation bias: Obviously Related Instrumental Variables (ORIV) and the PGI Repository Correction (PGI-RC). Through simulations, we show that the PGI-RC performs slightly better than ORIV, unless the prediction sample is very small (N < 1000) or when there is considerable assortative mating. Within families, ORIV is the best choice since the PGI-RC correction factor is generally not available. We verify the empirical validity of the simulations by predicting educational attainment and height in a sample of siblings from the UK Biobank. We show that applying ORIV between families increases the standardized effect of the PGI by 12% (height) and by 22% (educational attainment) compared to a meta-analysis-based PGI, yet estimates remain slightly below the PGI-RC estimates. Furthermore, within-family ORIV regression provides the tightest lower bound for the direct genetic effect, increasing the lower bound for the standardized direct genetic effect on educational attainment from 0.14 to 0.18 (+29%), and for height from 0.54 to 0.61 (+13%) compared to a meta-analysis-based PGI.