Pooling individual participant data from randomized controlled trials: Exploring potential loss of information

Pooling individual participant data to enable pooled analyses is often complicated by diversity in variables across available datasets. Therefore, recoding original variables is often necessary to build a pooled dataset. We aimed to quantify how much information is lost in this process and to what e...

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Bibliographic Details
Published in:PloS one 2020-05, Vol.15 (5), p.e0232970-e0232970
Main Authors: van Wanrooij, Lennard L, Hoevenaar-Blom, Marieke P, Coley, Nicola, Ngandu, Tiia, Meiller, Yannick, Guillemont, Juliette, Rosenberg, Anna, Beishuizen, Cathrien R L, Moll van Charante, Eric P, Soininen, Hilkka, Brayne, Carol, Andrieu, Sandrine, Kivipelto, Miia, Richard, Edo
Format: Article
Language:English
Subjects:
Algorithms
Alzheimer's disease
Biology and Life Sciences
Cardiovascular diseases
Chronic illnesses
Clinical medicine
Clinical trials
Cognition & reasoning
Cognitive ability
Computer simulation
Continuity (mathematics)
Data analysis
Data collection
Datasets
Dementia
Dementia disorders
Disease prevention
Epidemiology
Health risks
Hospitals
Life Sciences
Medical research
Medicin och hälsovetenskap
Medicine and Health Sciences
Methods
Neurology
Physical Sciences
Public health
Randomization
Regression analysis
Regression models
Research and Analysis Methods
Risk analysis
Risk factors
Santé publique et épidémiologie
Simulation
Studies
Validity
Variables
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Summary:Pooling individual participant data to enable pooled analyses is often complicated by diversity in variables across available datasets. Therefore, recoding original variables is often necessary to build a pooled dataset. We aimed to quantify how much information is lost in this process and to what extent this jeopardizes validity of analyses results. Data were derived from a platform that was developed to pool data from three randomized controlled trials on the effect of treatment of cardiovascular risk factors on cognitive decline or dementia. We quantified loss of information using the R-squared of linear regression models with pooled variables as a function of their original variable(s). In case the R-squared was below 0.8, we additionally explored the potential impact of loss of information for future analyses. We did this second step by comparing whether the Beta coefficient of the predictor differed more than 10% when adding original or recoded variables as a confounder in a linear regression model. In a simulation we randomly sampled numbers, recoded those < = 1000 to 0 and those >1000 to 1 and varied the range of the continuous variable, the ratio of recoded zeroes to recoded ones, or both, and again extracted the R-squared from linear models to quantify information loss. The R-squared was below 0.8 for 8 out of 91 recoded variables. In 4 cases this had a substantial impact on the regression models, particularly when a continuous variable was recoded into a discrete variable. Our simulation showed that the least information is lost when the ratio of recoded zeroes to ones is 1:1. Large, pooled datasets provide great opportunities, justifying the efforts for data harmonization. Still, caution is warranted when using recoded variables which variance is explained limitedly by their original variables as this may jeopardize the validity of study results.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0232970