Research output: Working paper
Research output: Working paper
}
TY - UNPB
T1 - A comparison of two methods of estimating propensity scores after multiple imputation
AU - Mitra, Robin
AU - Reiter, Jerome P.
PY - 2011/4/1
Y1 - 2011/4/1
N2 - In many observational studies, analysts estimate treatment effects using propensity scores, e.g., by matching or sub classifying on the scores. When some values of the covariates are missing, analysts can use multiple imputation to fill in the missing data, estimate propensity scores based on the m completed datasets, and use the propensity scores to estimate treatment effects. We compare two approaches to implementing this process. In the first, the analyst estimates the treatment effect using propensity score matching within each completed data set, and averages the m treatment effect estimates. In the second approach, the analyst averages the m propensity scores for each record across the completed datasets, and performs propensity score matching with these averaged scores to estimate the treatment effect. We compare properties of both methods via simulation studies using artifical and real data. The simulations suggest that the second method has greater potential to produce substantial bias reductions than the first.
AB - In many observational studies, analysts estimate treatment effects using propensity scores, e.g., by matching or sub classifying on the scores. When some values of the covariates are missing, analysts can use multiple imputation to fill in the missing data, estimate propensity scores based on the m completed datasets, and use the propensity scores to estimate treatment effects. We compare two approaches to implementing this process. In the first, the analyst estimates the treatment effect using propensity score matching within each completed data set, and averages the m treatment effect estimates. In the second approach, the analyst averages the m propensity scores for each record across the completed datasets, and performs propensity score matching with these averaged scores to estimate the treatment effect. We compare properties of both methods via simulation studies using artifical and real data. The simulations suggest that the second method has greater potential to produce substantial bias reductions than the first.
KW - missing data, multiple imputation, observational studies, propensity score
M3 - Working paper
BT - A comparison of two methods of estimating propensity scores after multiple imputation
ER -