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Adjusting for bias and unmeasured confounding in Mendelian randomization studies with binary responses

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Adjusting for bias and unmeasured confounding in Mendelian randomization studies with binary responses. / Palmer, Tom M.; Thompson, John R.; Tobin, Martin D. et al.
In: International Journal of Epidemiology, Vol. 37, No. 5, 10.2008, p. 1161-1168.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Palmer, TM, Thompson, JR, Tobin, MD, Sheehan, NA & Burton, PR 2008, 'Adjusting for bias and unmeasured confounding in Mendelian randomization studies with binary responses', International Journal of Epidemiology, vol. 37, no. 5, pp. 1161-1168. https://doi.org/10.1093/ije/dyn080

APA

Palmer, T. M., Thompson, J. R., Tobin, M. D., Sheehan, N. A., & Burton, P. R. (2008). Adjusting for bias and unmeasured confounding in Mendelian randomization studies with binary responses. International Journal of Epidemiology, 37(5), 1161-1168. https://doi.org/10.1093/ije/dyn080

Vancouver

Palmer TM, Thompson JR, Tobin MD, Sheehan NA, Burton PR. Adjusting for bias and unmeasured confounding in Mendelian randomization studies with binary responses. International Journal of Epidemiology. 2008 Oct;37(5):1161-1168. doi: 10.1093/ije/dyn080

Author

Palmer, Tom M. ; Thompson, John R. ; Tobin, Martin D. et al. / Adjusting for bias and unmeasured confounding in Mendelian randomization studies with binary responses. In: International Journal of Epidemiology. 2008 ; Vol. 37, No. 5. pp. 1161-1168.

Bibtex

@article{d0e34db2c5a74fc298479834b26dbbbc,
title = "Adjusting for bias and unmeasured confounding in Mendelian randomization studies with binary responses",
abstract = "BACKGROUND: Mendelian randomization uses a carefully selected gene as an instrumental-variable (IV) to test or estimate an association between a phenotype and a disease. Classical IV analysis assumes linear relationships between the variables, but disease status is often binary and modelled by a logistic regression. When the linearity assumption between the variables does not hold the IV estimates will be biased. The extent of this bias in the phenotype-disease log odds ratio of a Mendelian randomization study is investigated.METHODS: Three estimators termed direct, standard IV and adjusted IV, of the phenotype-disease log odds ratio are compared through a simulation study which incorporates unmeasured confounding. The simulations are verified using formulae relating marginal and conditional estimates given in the Appendix.RESULTS: The simulations show that the direct estimator is biased by unmeasured confounding factors and the standard IV estimator is attenuated towards the null. Under most circumstances the adjusted IV estimator has the smallest bias, although it has inflated type I error when the unmeasured confounders have a large effect.CONCLUSIONS: In a Mendelian randomization study with a binary disease outcome the bias associated with estimating the phenotype-disease log odds ratio may be of practical importance and so estimates should be subject to a sensitivity analysis against different amounts of hypothesized confounding.",
keywords = "Bias (Epidemiology), Computer Simulation, Confounding Factors (Epidemiology), Data Interpretation, Statistical, Humans, Phenotype, Random Allocation, Treatment Outcome",
author = "Palmer, {Tom M.} and Thompson, {John R.} and Tobin, {Martin D.} and Sheehan, {Nuala A.} and Burton, {Paul R.}",
year = "2008",
month = oct,
doi = "10.1093/ije/dyn080",
language = "English",
volume = "37",
pages = "1161--1168",
journal = "International Journal of Epidemiology",
issn = "0300-5771",
publisher = "NLM (Medline)",
number = "5",

}

RIS

TY - JOUR

T1 - Adjusting for bias and unmeasured confounding in Mendelian randomization studies with binary responses

AU - Palmer, Tom M.

AU - Thompson, John R.

AU - Tobin, Martin D.

AU - Sheehan, Nuala A.

AU - Burton, Paul R.

PY - 2008/10

Y1 - 2008/10

N2 - BACKGROUND: Mendelian randomization uses a carefully selected gene as an instrumental-variable (IV) to test or estimate an association between a phenotype and a disease. Classical IV analysis assumes linear relationships between the variables, but disease status is often binary and modelled by a logistic regression. When the linearity assumption between the variables does not hold the IV estimates will be biased. The extent of this bias in the phenotype-disease log odds ratio of a Mendelian randomization study is investigated.METHODS: Three estimators termed direct, standard IV and adjusted IV, of the phenotype-disease log odds ratio are compared through a simulation study which incorporates unmeasured confounding. The simulations are verified using formulae relating marginal and conditional estimates given in the Appendix.RESULTS: The simulations show that the direct estimator is biased by unmeasured confounding factors and the standard IV estimator is attenuated towards the null. Under most circumstances the adjusted IV estimator has the smallest bias, although it has inflated type I error when the unmeasured confounders have a large effect.CONCLUSIONS: In a Mendelian randomization study with a binary disease outcome the bias associated with estimating the phenotype-disease log odds ratio may be of practical importance and so estimates should be subject to a sensitivity analysis against different amounts of hypothesized confounding.

AB - BACKGROUND: Mendelian randomization uses a carefully selected gene as an instrumental-variable (IV) to test or estimate an association between a phenotype and a disease. Classical IV analysis assumes linear relationships between the variables, but disease status is often binary and modelled by a logistic regression. When the linearity assumption between the variables does not hold the IV estimates will be biased. The extent of this bias in the phenotype-disease log odds ratio of a Mendelian randomization study is investigated.METHODS: Three estimators termed direct, standard IV and adjusted IV, of the phenotype-disease log odds ratio are compared through a simulation study which incorporates unmeasured confounding. The simulations are verified using formulae relating marginal and conditional estimates given in the Appendix.RESULTS: The simulations show that the direct estimator is biased by unmeasured confounding factors and the standard IV estimator is attenuated towards the null. Under most circumstances the adjusted IV estimator has the smallest bias, although it has inflated type I error when the unmeasured confounders have a large effect.CONCLUSIONS: In a Mendelian randomization study with a binary disease outcome the bias associated with estimating the phenotype-disease log odds ratio may be of practical importance and so estimates should be subject to a sensitivity analysis against different amounts of hypothesized confounding.

KW - Bias (Epidemiology)

KW - Computer Simulation

KW - Confounding Factors (Epidemiology)

KW - Data Interpretation, Statistical

KW - Humans

KW - Phenotype

KW - Random Allocation

KW - Treatment Outcome

U2 - 10.1093/ije/dyn080

DO - 10.1093/ije/dyn080

M3 - Journal article

C2 - 18463132

VL - 37

SP - 1161

EP - 1168

JO - International Journal of Epidemiology

JF - International Journal of Epidemiology

SN - 0300-5771

IS - 5

ER -