Multiple imputation for multilevel data with continuous and binary variables

Vincent Audigier; Ian R. White; Shahab Jolani; Thomas P.A. Debray; Matteo Quartagno; James Carpenter; Stef van Buuren; Matthieu Resche-Rigon

doi:10.1214/18-STS646

Multiple imputation for multilevel data with continuous and binary variables

Vincent Audigier, Ian R. White, Shahab Jolani, Thomas P.A. Debray, Matteo Quartagno, James Carpenter, Stef van Buuren, Matthieu Resche-Rigon

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Abstract

We present and compare multiple imputation methods for multilevel continuous and binary data where variables are systematically and sporadically missing. The methods are compared from a theoretical point of view and through an extensive simulation study motivated by a real dataset comprising multiple studies. The comparisons show that these multiple imputation methods are the most appropriate to handle missing values in a multilevel setting and why their relative performances can vary according to the missing data pattern, the multilevel structure and the type of missing variables. This study shows that valid inferences can only be obtained if the dataset includes a large number of clusters. In addition, it highlights that heteroscedastic multiple imputation methods provide more accurate inferences than homoscedastic methods, which should be reserved for data with few individuals per cluster. Finally, guidelines are given to choose the most suitable multiple imputation method according to the structure of the data.

Original language	English
Pages (from-to)	160-183
Number of pages	24
Journal	Statistical Science
Volume	33
Issue number	2
DOIs	https://doi.org/10.1214/18-STS646
Publication status	Published - 1 May 2018

Keywords

Fully conditional specification
Joint modelling
Missing data
Mixed data
Multilevel data
Multiple imputation
Systematically missing values

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10.1214/18-STS646

audigierFinal published version, 517 KB

Cite this

@article{637e8f62693842bc862e465e496f77fd,

title = "Multiple imputation for multilevel data with continuous and binary variables",

abstract = "We present and compare multiple imputation methods for multilevel continuous and binary data where variables are systematically and sporadically missing. The methods are compared from a theoretical point of view and through an extensive simulation study motivated by a real dataset comprising multiple studies. The comparisons show that these multiple imputation methods are the most appropriate to handle missing values in a multilevel setting and why their relative performances can vary according to the missing data pattern, the multilevel structure and the type of missing variables. This study shows that valid inferences can only be obtained if the dataset includes a large number of clusters. In addition, it highlights that heteroscedastic multiple imputation methods provide more accurate inferences than homoscedastic methods, which should be reserved for data with few individuals per cluster. Finally, guidelines are given to choose the most suitable multiple imputation method according to the structure of the data.",

keywords = "Fully conditional specification, Joint modelling, Missing data, Mixed data, Multilevel data, Multiple imputation, Systematically missing values",

author = "Vincent Audigier and White, {Ian R.} and Shahab Jolani and Debray, {Thomas P.A.} and Matteo Quartagno and James Carpenter and {van Buuren}, Stef and Matthieu Resche-Rigon",

note = "Funding Information: We thank the Global Research on Acute Conditions Team (Global Research on Acute conditions Team (GREAT) Network, 2013) for allowing the use of their data. TPAD was supported by the Netherlands Organization for Scientific Research (91617050 and 91215058). IRW, MQ and JC were funded by the Medical Research Council (Unit Programmes U105260558 (IRW only) and MC_UU_12023/21). VA and MRR was supported by the Agence nationale de s{\'e}curit{\'e} du m{\'e}dicament et des produits de sant{\'e} (ANSM). Publisher Copyright: {\textcopyright} Institute of Mathematical Statistics, 2018.",

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doi = "10.1214/18-STS646",

language = "English",

volume = "33",

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AU - White, Ian R.

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AU - Debray, Thomas P.A.

AU - Quartagno, Matteo

AU - Carpenter, James

AU - van Buuren, Stef

AU - Resche-Rigon, Matthieu

N1 - Funding Information: We thank the Global Research on Acute Conditions Team (Global Research on Acute conditions Team (GREAT) Network, 2013) for allowing the use of their data. TPAD was supported by the Netherlands Organization for Scientific Research (91617050 and 91215058). IRW, MQ and JC were funded by the Medical Research Council (Unit Programmes U105260558 (IRW only) and MC_UU_12023/21). VA and MRR was supported by the Agence nationale de sécurité du médicament et des produits de santé (ANSM). Publisher Copyright: © Institute of Mathematical Statistics, 2018.

PY - 2018/5/1

Y1 - 2018/5/1

N2 - We present and compare multiple imputation methods for multilevel continuous and binary data where variables are systematically and sporadically missing. The methods are compared from a theoretical point of view and through an extensive simulation study motivated by a real dataset comprising multiple studies. The comparisons show that these multiple imputation methods are the most appropriate to handle missing values in a multilevel setting and why their relative performances can vary according to the missing data pattern, the multilevel structure and the type of missing variables. This study shows that valid inferences can only be obtained if the dataset includes a large number of clusters. In addition, it highlights that heteroscedastic multiple imputation methods provide more accurate inferences than homoscedastic methods, which should be reserved for data with few individuals per cluster. Finally, guidelines are given to choose the most suitable multiple imputation method according to the structure of the data.

AB - We present and compare multiple imputation methods for multilevel continuous and binary data where variables are systematically and sporadically missing. The methods are compared from a theoretical point of view and through an extensive simulation study motivated by a real dataset comprising multiple studies. The comparisons show that these multiple imputation methods are the most appropriate to handle missing values in a multilevel setting and why their relative performances can vary according to the missing data pattern, the multilevel structure and the type of missing variables. This study shows that valid inferences can only be obtained if the dataset includes a large number of clusters. In addition, it highlights that heteroscedastic multiple imputation methods provide more accurate inferences than homoscedastic methods, which should be reserved for data with few individuals per cluster. Finally, guidelines are given to choose the most suitable multiple imputation method according to the structure of the data.

KW - Fully conditional specification

KW - Joint modelling

KW - Missing data

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KW - Systematically missing values

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Multiple imputation for multilevel data with continuous and binary variables

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VENI 2016

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Multiple imputation for multilevel data with continuous and binary variables

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VENI 2016

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