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Models for potentially biased evidence in meta‐analysis using empirically based priors

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  • N. J. Welton
  • A. E. Ades
  • J. B. Carlin
  • D. G. Altman
  • J. A. C. Sterne

Abstract

Summary. We present models for the combined analysis of evidence from randomized controlled trials categorized as being at either low or high risk of bias due to a flaw in their conduct. We formulate a bias model that incorporates between‐study and between‐meta‐analysis heterogeneity in bias, and uncertainty in overall mean bias. We obtain algebraic expressions for the posterior distribution of the bias‐adjusted treatment effect, which provide limiting values for the information that can be obtained from studies at high risk of bias. The parameters of the bias model can be estimated from collections of previously published meta‐analyses. We explore alternative models for such data, and alternative methods for introducing prior information on the bias parameters into a new meta‐analysis. Results from an illustrative example show that the bias‐adjusted treatment effect estimates are sensitive to the way in which the meta‐epidemiological data are modelled, but that using point estimates for bias parameters provides an adequate approximation to using a full joint prior distribution. A sensitivity analysis shows that the gain in precision from including studies at high risk of bias is likely to be low, however numerous or large their size, and that little is gained by incorporating such studies, unless the information from studies at low risk of bias is limited. We discuss approaches that might increase the value of including studies at high risk of bias, and the acceptability of the methods in the evaluation of health care interventions.

Suggested Citation

  • N. J. Welton & A. E. Ades & J. B. Carlin & D. G. Altman & J. A. C. Sterne, 2009. "Models for potentially biased evidence in meta‐analysis using empirically based priors," Journal of the Royal Statistical Society Series A, Royal Statistical Society, vol. 172(1), pages 119-136, January.
  • Handle: RePEc:bla:jorssa:v:172:y:2009:i:1:p:119-136
    DOI: 10.1111/j.1467-985X.2008.00548.x
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    References listed on IDEAS

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    1. Sander Greenland, 2005. "Multiple‐bias modelling for analysis of observational data," Journal of the Royal Statistical Society Series A, Royal Statistical Society, vol. 168(2), pages 267-306, March.
    2. David J. Spiegelhalter & Nicola G. Best & Bradley P. Carlin & Angelika Van Der Linde, 2002. "Bayesian measures of model complexity and fit," Journal of the Royal Statistical Society Series B, Royal Statistical Society, vol. 64(4), pages 583-639, October.
    3. N. J. Welton & A. E. Ades, 2005. "A model of toxoplasmosis incidence in the UK: evidence synthesis and consistency of evidence," Journal of the Royal Statistical Society Series C, Royal Statistical Society, vol. 54(2), pages 385-404, April.
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    Cited by:

    1. McCandless Lawrence C., 2012. "Meta-Analysis of Observational Studies with Unmeasured Confounders," The International Journal of Biostatistics, De Gruyter, vol. 8(2), pages 1-31, January.
    2. C. Elizabeth McCarron & Eleanor M. Pullenayegum & Lehana Thabane & Ron Goeree & Jean-Eric Tarride, 2013. "The Impact of Using Informative Priors in a Bayesian Cost-Effectiveness Analysis," Medical Decision Making, , vol. 33(3), pages 437-450, April.
    3. S. Dias & N. J. Welton & V. C. C. Marinho & G. Salanti & J. P. T. Higgins & A. E. Ades, 2010. "Estimation and adjustment of bias in randomized evidence by using mixed treatment comparison meta‐analysis," Journal of the Royal Statistical Society Series A, Royal Statistical Society, vol. 173(3), pages 613-629, July.
    4. Ian Wadsworth & Lisa V. Hampson & Thomas Jaki & Graeme J. Sills & Anthony G. Marson & Richard Appleton, 2020. "A quantitative framework to inform extrapolation decisions in children," Journal of the Royal Statistical Society Series A, Royal Statistical Society, vol. 183(2), pages 515-534, February.
    5. Petra Schnell‐Inderst & Cynthia P. Iglesias & MARJAN Arvandi & ORIANA Ciani & Raffaella Matteucci Gothe & Jaime Peters & Ashley W. Blom & Rod S. Taylor & Uwe Siebert, 2017. "A bias‐adjusted evidence synthesis of RCT and observational data: the case of total hip replacement," Health Economics, John Wiley & Sons, Ltd., vol. 26(S1), pages 46-69, February.
    6. K. M. Rhodes & J. Savović & R. Elbers & H. E. Jones & J. P. T. Higgins & J. A. C. Sterne & N. J. Welton & R. M. Turner, 2020. "Adjusting trial results for biases in meta‐analysis: combining data‐based evidence on bias with detailed trial assessment," Journal of the Royal Statistical Society Series A, Royal Statistical Society, vol. 183(1), pages 193-209, January.
    7. David M. Phillippo & Sofia Dias & A. E. Ades & Vanessa Didelez & Nicky J. Welton, 2018. "Sensitivity of treatment recommendations to bias in network meta‐analysis," Journal of the Royal Statistical Society Series A, Royal Statistical Society, vol. 181(3), pages 843-867, June.
    8. Mathur, Maya B & VanderWeele, Tyler, 2018. "Statistical methods for evidence synthesis," Thesis Commons kd6ja, Center for Open Science.

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