• Int J Epidemiol · Aug 2014

    Review

    Bias due to lack of patient blinding in clinical trials. A systematic review of trials randomizing patients to blind and nonblind sub-studies.

    • Asbjørn Hróbjartsson, Frida Emanuelsson, Ann Sofia Skou Thomsen, Jørgen Hilden, and Stig Brorson.
    • Nordic Cochrane Centre, Rigshospitalet, Copenhagen, Denmark, Department of Biostatistics, University of Copenhagen, Copenhagen, Denmark and Department of Orthopaedic Surgery, Herlev University Hospital, Herlev, Denmark ah@cochrane.dk.
    • Int J Epidemiol. 2014 Aug 1; 43 (4): 1272-83.

    BackgroundBlinding patients in clinical trials is a key methodological procedure, but the expected degree of bias due to nonblinded patients on estimated treatment effects is unknown.MethodsSystematic review of randomized clinical trials with one sub-study (i.e. experimental vs control) involving blinded patients and another, otherwise identical, sub-study involving nonblinded patients. Within each trial, we compared the difference in effect sizes (i.e. standardized mean differences) between the sub-studies. A difference <0 indicates that nonblinded patients generated a more optimistic effect estimate. We pooled the differences with random-effects inverse variance meta-analysis, and explored reasons for heterogeneity.ResultsOur main analysis included 12 trials (3869 patients). The average difference in effect size for patient-reported outcomes was -0.56 (95% confidence interval -0.71 to -0.41), (I(2)=60%, P=0.004), i.e. nonblinded patients exaggerated the effect size by an average of 0.56 standard deviation, but with considerable variation. Two of the 12 trials also used observer-reported outcomes, showing no indication of exaggerated effects due lack of patient blinding. There was a larger effect size difference in 10 acupuncture trials [-0.63 (-0.77 to -0.49)], than in the two non-acupuncture trials [-0.17 (-0.41 to 0.07)]. Lack of patient blinding also increased attrition and use of co-interventions: ratio of control group attrition risk 1.79 (1.18 to 2.70), and ratio of control group co-intervention risk 1.55 (0.99 to 2.43).ConclusionsThis study provides empirical evidence of pronounced bias due to lack of patient blinding in complementary/alternative randomized clinical trials with patient-reported outcomes.© The Author 2014; all rights reserved. Published by Oxford University Press on behalf of the International Epidemiological Association.

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