OBJECTIVES: Estimates of treatment effectiveness in epidemiologic studies using large observational health care databases may be biased owing to inaccurate or incomplete information on important confounders. Study methods that collect and incorporate more comprehensive confounder data on a validation cohort may reduce confounding bias. STUDY DESIGN AND SETTING: We applied two such methods, namely imputation and reweighting, to Group Health administrative data (full sample) supplemented by more detailed confounder data from the Adult Changes in Thought study (validation sample). We used influenza vaccination effectiveness (with an unexposed comparator group) as an example and evaluated each method's ability to reduce bias using the control time period before influenza circulation. RESULTS: Both methods reduced, but did not completely eliminate, the bias compared with traditional effectiveness estimates that do not use the validation sample confounders. CONCLUSION: Although these results support the use of validation sampling methods to improve the accuracy of comparative effectiveness findings from health care database studies, they also illustrate that the success of such methods depends on many factors, including the ability to measure important confounders in a representative and large enough validation sample, the comparability of the full sample and validation sample, and the accuracy with which the data can be imputed or reweighted using the additional validation sample information.
OBJECTIVES: Estimates of treatment effectiveness in epidemiologic studies using large observational health care databases may be biased owing to inaccurate or incomplete information on important confounders. Study methods that collect and incorporate more comprehensive confounder data on a validation cohort may reduce confounding bias. STUDY DESIGN AND SETTING: We applied two such methods, namely imputation and reweighting, to Group Health administrative data (full sample) supplemented by more detailed confounder data from the Adult Changes in Thought study (validation sample). We used influenza vaccination effectiveness (with an unexposed comparator group) as an example and evaluated each method's ability to reduce bias using the control time period before influenza circulation. RESULTS: Both methods reduced, but did not completely eliminate, the bias compared with traditional effectiveness estimates that do not use the validation sample confounders. CONCLUSION: Although these results support the use of validation sampling methods to improve the accuracy of comparative effectiveness findings from health care database studies, they also illustrate that the success of such methods depends on many factors, including the ability to measure important confounders in a representative and large enough validation sample, the comparability of the full sample and validation sample, and the accuracy with which the data can be imputed or reweighted using the additional validation sample information.
Authors: J Nordin; J Mullooly; S Poblete; R Strikas; R Petrucci; F Wei; B Rush; B Safirstein; D Wheeler; K L Nichol Journal: J Infect Dis Date: 2001-08-09 Impact factor: 5.226
Authors: Lisa A Jackson; Michael L Jackson; Jennifer C Nelson; Kathleen M Neuzil; Noel S Weiss Journal: Int J Epidemiol Date: 2005-12-20 Impact factor: 7.196
Authors: Mayur M Desai; Sidney T Bogardus; Christianna S Williams; Gail Vitagliano; Sharon K Inouye Journal: J Am Geriatr Soc Date: 2002-03 Impact factor: 5.562
Authors: Bernard C Silenou; Marta Avalos; Catherine Helmer; Claudine Berr; Antoine Pariente; Helene Jacqmin-Gadda Journal: PLoS One Date: 2019-01-31 Impact factor: 3.240